WindCatcher Manual Basic

October 16, 2017 | Author: Gregory88888 | Category: Tab (Gui), Icon (Computing), Global Positioning System, Portable Document Format, Time Series
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Help Manual

43130 Amberwood Plaza ● South Riding ● Virginia 20152 Direct: (703) 714-1965 ● Fax: (703) 995-4643

Help Manual

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Help Manual

TABLE OF CONTENTS 1.

INTRODUCING WINDCATCHER PLUS------------------------------------------------------------------------------3

2.

TECHNICAL SUPPORT CONTACTS----------------------------------------------------------------------------------3

3.

USING WINDCATCHER PLUS- BASICS------------------------------------------------------------------------------4 A. B. C. D. E. F. G. H. I.

4.

WINDCATCHER PLUS – ADVANCED-------------------------------------------------------------------------------58 A. B. C. D. E. F. G. H. I.

5.

IN-BUILDING PROFILER-------------------------------------------------------------------------------------------------------------------58 BATCH PRINTING----------------------------------------------------------------------------------------------------------------------------60 OFFSET METRICS----------------------------------------------------------------------------------------------------------------------------62 LAYER CONTROL----------------------------------------------------------------------------------------------------------------------------64 MULTIPLE PHONES--------------------------------------------------------------------------------------------------------------------------67 ON SCREEN MENUS--------------------------------------------------------------------------------------------------------------------------69 POLYGON CREATION-----------------------------------------------------------------------------------------------------------------------70 EXPORTING REPORTS AND MAPS-----------------------------------------------------------------------------------------------------74 EXPORTING TABLES------------------------------------------------------------------------------------------------------------------------75

ANALYSIS FEATURES---------------------------------------------------------------------------------------------------84 A. B. C. D. E. F. G. H.

6.

CONFIGURE WINDCATCHER PLUS-----------------------------------------------------------------------------------------------------4 DATASET CREATION AND MANAGEMENT----------------------------------------------------------------------------------------32vender USER-INTERFACE OVERVIEW----------------------------------------------------------------------------------------------------------36 METRIC PLOTS--------------------------------------------------------------------------------------------------------------------------------43 TIME-SERIES PLOTS-------------------------------------------------------------------------------------------------------------------------44 TABLES-------------------------------------------------------------------------------------------------------------------------------------------46 PRINTING/PLOTTING-----------------------------------------------------------------------------------------------------------------------48 PDF/CDF CHARTS-----------------------------------------------------------------------------------------------------------------------------50 USER DEFINED METRICS AND REPORTS--------------------------------------------------------------------------------------------51

EVENTS ANALYSIS---------------------------------------------------------------------------------------------------------------------------84 DELTA PLOTS----------------------------------------------------------------------------------------------------------------------------------87 LINK TO BIN------------------------------------------------------------------------------------------------------------------------------------90 GEO/DISTANCE BINNING------------------------------------------------------------------------------------------------------------------92 REPLAY-------------------------------------------------------------------------------------------------------------------------------------------93 NEIGHBOR LIST ANALYSIS---------------------------------------------------------------------------------------------------------------94 RF ANALYSIS-----------------------------------------------------------------------------------------------------------------------------------95 REPORTS-----------------------------------------------------------------------------------------------------------------------------------------96

PROJECT MANAGER---------------------------------------------------------------------------------------------------100 A. B. C.

INTRODUCTION TO PROJECT MANAGER MODULE--------------------------------------------------------------------------100 iBWAVE CELL SITES-----------------------------------------------------------------------------------------------------------------------102 CELL SITE ALIGNMENT------------------------------------------------------------------------------------------------------------------104

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1. Introducing Windcatcher Plus WindCatcher is a PC-based, drive-test post-processing tool developed by Xceed Technologies, Inc. The product provides a complete solution to post-process, analyze and report data, and brings several advanced analysis and productivity features and functionalities to the engineer, packaged in a user-interface that is both powerful and intuitive. Multiple data files from multiple phones, multiple frequencies and multiple sources (including reverse link) may be processed together in one step and saved as datasets to be recalled later. This adds great efficiency because all data files need only be processed once. Tremendous efficiency gains are also achieved with value-added productivity features such as batch printing (which includes PN and PCI batch printing). WindCatcher provides multiple views like maps, charts, tables, phone data, event and message browsers for detailed drill-down analysis of problem areas. These views are fully synchronized to maximize the effectiveness and coherency of the data presented. Complementing these views are additional, advanced features like automated event analysis, problem area identification queries, delta plots, PN and PCI analysis that greatly reduce the time taken to identify and analyze problem areas and events. The functionality of WindCatcher is designed to maximize the productivity and efficiency of engineers in their day-to-day work of evaluating drive test data, isolating problems and recommending solutions to network problems. WindCatcher provides a comprehensive list of all problems seen on the drive. Intelligent algorithms and innovative metrics are applied to these problems to arrive at suggested root causes and ideas for possible fixes. This user manual provides detailed information on how to use this product. The simple yet powerful user interface combined with the strong engineering focus of the product should make learning WindCatcher a quick, fun and easy process for engineers and managers at all levels.

2. Technical Support Contacts For technical support questions please call, email or write to Xceed Technologies at: Telephone: (703) 714-1966 Email: [email protected] Address: Xceed Technologies, Inc. 43130 Amberwood Plaza, Suite 200 South Riding, Virginia 20152

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3. Using Windcatcher Plus– Basics The basic steps to use WindCatcher are as follows: Configure WindCatcher settings – this step need only be performed once, and only needs to be revisited if the usually rare situations when the configuration needs to be changed. Create datasets out of drive test data to be processed. A dataset is a collection of data files that form a single logical drive for analysis. A single dataset may consist of multiple phones, devices, and/or multiple frequencies. Plot metrics and charts to view and analyze the datasets. Use in-built, powerful analysis features to greatly improve the efficiency and increase the quality of the analysis. Print maps and generate/export reports for offline analysis and documentation purposes. These topics are discussed below. The analysis features are discussed separately under the section on Analysis Features.

A. Configure Windcatcher Plus WindCatcher provides the flexibility to set a default configuration for data processing and display. The default configuration includes Processing Defaults, Background Defaults, Symbol and Thresholds. Note: The default configuration, once set, will be saved until it is explicitly changed by the user.

a) Processing Defaults From the Home menu, select Processing Defaults.

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The following screen will be displayed:

Each of the options is discussed below. PROCESSING Under the Processing tab the following options are present: Average Type

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There is a tremendous amount of data that gets generated by the phone in a serial, asynchronous manner. It is therefore necessary to bin the data in order to display data efficiently. This field sets the binning interval over which all data is averaged. During the process of Appending data to a saved dataset, users should only append a binned mode to dataset with same binned mode. 

Time/Distance Binning Data can be averaged by time, distance or Area (Geo). To change the size and/or type of bins, make sure the desired averaging type is selected and change the values for Time (second) and Distance (Meter) in the user entry box appropriately. The time interval can be set only in discrete units and the minimum interval is 1 second. The distance interval cal also be set only in discrete units, and the minimum interval is 5 meters.

Note: The Layer 3 and Log data in the message browser will never be binned no matter what the selection since each individual message must be displayed as their occur. Import Log Data Layer 3 and Log data can be imported in the following two ways: 

By checking the Import Layer3 Data and/or Import Log Data options and leaving the event filter option unchecked, all Layer 3 and Log messages can be viewed in the message browser. If this data is not desired than it can be deselected.



By checking the Import Layer3 Data and/or Import Log Data options and the event filter option. In this option only log and Layer 3 data before and after failure events in a user defined window will be displayed in the event browser.

Note: The processing will be significantly faster if the event filter for Log data is used to filter the data or if the Log data option is not checked. Import command/Response Data, selecting this function will allow the import of diagnostic response messages during processing. The Apply Log Message filter allows the user to apply a filter to the log messages that will be displayed in the message browser. The specific messages to filter and display can be selected using the Select Log Messages button. Note: By selecting this option the processing time will get extended, in order to get warning message regarding the extended processing time you can select the Enable warning Message for import log data option. Packet Trace Data Packet trace data can be imported in the following two ways: By checking the Import packet trace Data PCAP Log messages can be viewed in the message browser. If this data is not desired than it can be deselected.

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By checking the Enable Packet Trace Analysis, all of PCAP related Metrics & Event will be enabled & available for analysis. Note: once the above mentioned option is checked before processing, following „Packet Trace‟ Metric set will be available to user under map tab.

Merge Phone and Data Device This option is checked to ensure that the Trace and Dialup devices in JDSU AOD format are merged into a single device. Settings Merge Devices by Label- Enables WindCatcher Plus to merge devices across files with the same device label, if not selected devices across the files with the same label will not be merged. Remember previous settings in data table- It will populate the same set of parameters selected in the Datatable view each time when a dataset is open and the user selects view Datatable. Enhanced GPS Search- This feature can be utilized if any enhanced GPS data was recorded during data collection. Show progress bar- The user can enable and disable the visibility of the progress bar window. Database Settings Currently only Access Database is supported.

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PROCESSING OFFSET

Time Offset The option enables the processing of data in-line with the time-zone that the data was collected in. The data is processed with the GMT time zone when this option is not selected. User can apply custom time offset by entering any desired timing. UETR Offset The option allows user to process Ericsson call trace data with the exact time offset defined in „hours, minutes, and seconds‟ along with the drive test data PCAP Offset The option allows user to add a time offset for PCAP file if the timestamps on PCAP file is not aligned with drive test file. Page 8

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INTERFACE

Map co-ordinate System/ Distance Unit The map unit provides the option to select Mile or Kilometer in addition to selection of coordinate system for display in different views. Map Offset for Multiple Phones/Frequencies This option sets the offset between maps for different phones. To change the offset distance, enter the Latitude and Longitude Offset. If the offset is not desired, then unselect the checkbox labeled Enable Map Offset in Degrees. Enable In-Building Device Offset This option allows user to enable offset between multiple devices for in-building data.

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Navigation Data Correction This selection can be used to apply a fixed latitude and longitude offset to the driven route. Link to bin settings This Maximum Sector Coverage Distance field sets the coverage range for individual sectors. Enable Link to Bin Labels This option allows user to turn on or off the link to bin labels on map interface. Drive Route Display Hide Bins with no GPS: this option will allow the user to hide bins that display no lat/long values Hide Bins with no data: If a metric is plotted and the driven bin has no value available for that bin then the bin would be hidden. If the option is not selected the bins without the metric value will come with gray color. dB offset for receivers: This settings allows the user to apply the 6dB (by default) offset for receiver devices Show percentage in legends This selection allows the user to view the percentage distribution for metrics plotted in addition to the bin distribution.

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RF CONFIGURATION

WCDMA Scanner Settings This option enables selection of minimum values for Received Power before processing the data to filter out any PSC‟s below that value. WCDMA Call Block versus Drop Trigger This option enables the user to select the call block trigger message. This is set to „Alerting CC message‟ as a default. Avg Method in Bin This option enables selection of the value displayed in a bin i.e. average over all the values in a bin or the best values in a bin Page 11

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iDEN For iDEN link to Bin feature, this option allows user either to choose Cell ID, PCCH, or Sector Label for link to Bin. The „Sector Label‟ option for iDEN sites uses PCCH and TCH information. The user would need to follow the procedure below while using the „link to bin‟ feature: 1. Browse onto Home>processing default>RF Configuration>idem menu, select „Sector Label‟ and „Save‟ 2. Add the cell site layer 3. Browse onto Home and select „Map sites to Route‟ CDMA Tooltip This option enables the user to view the „sector name‟ for a PN CDMA Phone Analysis This option enables the user to select the „window size‟ in addition to allow for PNs of value 0 to be included in the data processed in WindCatcher Plus CDMA PN Scanner Settings This option enables the user to set Value for PN Increment from Scanner Data. Scanner Processing This option enables the user define a minimum Ec/Io level for scanner data processing to filter out any PN below this threshold. This feature is particularly useful in areas with poor coverage. Receiver Data This option must be selected before processing a receiver device. It allows the user to populate metrics from the „Receiver‟ menu in the „Map‟ tab after data is processed.

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VENDOR SPECIFIC This option provides vendor specific settings for different formats.

Comarco Display Comarco time- if the option is selected the messages in the message windown will display the vendor time. Data Pro Use standalone GPS if available- this option will use GPS information from standalone GPS and bypass the scanner GPS information Split receiver device by different scans- if the reciever device is a scanning multiple frequencies then by having this option checked separate devices will be created for different frequencies. Page 13

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ZK Auto adjust scanner threshold for correlation length- This option will allow users to ignore the “default minimum accepted Ec/Io level” and will use new threshold for the minimum level based on correlation lengths. Accuver Merge GPS from SCN files to DRM files- by checking this option WindCatcher Plus will extract GPS information from the scanner devices and merge it automatically into the UE devices. (Only required if UE devices does not contain GPS information) TEMS Set GPS interpolation- Interpolation is the method of constructing new data points. Having checked this option WindCatcher Plus decodes correctly the ping point information and performs interpolation between lat/long and thus solves the problem of sparse GPS point. Swissqual Flip GPS- This option can be used to report corrected latitude and longitude for Swissqual inbuiding data files which switch lat/lon.

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BACKGROUND PROCESS

Multi-Process This option allows the user to use multiple CPUs for processing. WindCatcher Process Control Task This option is applicable only to the „batch process module‟ license where the user can select the number of messages to be exported for each file processed. Minimum Processing Logs Size Page 15

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This option is applicable for the background processing mode and allows the user to select a minimum size for the files processed in WindCatcher Plus.

b) Create Workspace The „Workspace‟ feature is provided to enable to user to reuse/share the layout of the different views in WindCatcher Plus. The „workspace‟ created by a user is saved as an XML file and maybe shared between users.

Concept of a Workspace: After selection of the window views, the user may browse onto Workspaces>Save option and save the view as an XML file on his machine.

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Open a Workspace: These XML files maybe opened using the Workspaces>Open option and browsing onto the saved/shared XML file on the machine:

c) Cell site creation Click following menu for cell site creation

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This option allows the user to create cell site files from „.csv‟ or „.txt‟ files containing cell site information.

The following information must be entered correctly: 

Separator: e.g.: „Comma‟ for a csv file, „Tab‟ for a text file.



Column Names: Select „First row has column names‟



Encoding; options include ANSI, Unicode, and OEM.

Map the „Available fields‟ onto the appropriate „Base Station‟ fields by dragging the values, select a location to save the output MapInfo tab files and select OK. Page 18

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If the user wants to use the same cell site information format every time, the user can save the mappings in a template. The next time user won‟t have to map these fields again. After completing mapping click on “save as” option & choose a name for future use. The next time after importing cell site information file, the user can simply select the saved template from the drop down menu which will map all fields automatically. Pie Colors may be chosen through the „Options‟ tab:

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The Options tab enables users to change the visible size of the sectors, the transparency of the colors and the color of the sector. The color of the sectors can be colored by Sector ID or by Azimuth Direction. Choose the “store location” for output cell site files by clicking on “Save” button. Browse for desired folder location where user wants to store these files.

d) Default Cell Sites. This option will allow user to choose default cell site i.e. every time user process data or open a database, these cell sites will appear automatically as default cell sites.

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Browse for already created cell sites to save them as default.

e) Sector Display Easy access to Sector Display Options is now available by selecting a sector and then rightclicking on the Sector and Link to Bin Selections. This will enable to user to change the sector display properties „on the fly‟ after cell site creation. Site and sector label options maybe modified within this display

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Sector Display Option via Right Click,



Site and Sector Label options can be modified



Sector Size, Color and opacity can be modified on the fly

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f) Remove Cell Sites This option will enable user to remove the imported cell sites from the background.

g) Create Geoset

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To create a background map, select „New‟ and the following window will be displayed:

The „plus‟ sign will enable addition of data for creation of the geoset:

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Once the selections are made, select „Apply‟ and then „OK‟ and a preview of the processed GST will be displayed:

h) Background

This option will let you import the created GeoSet into your current map. A pop up window will appear to let you browse to the saved GeoSet file to choose.

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i) Bin Style

The „Bin style‟ option enables the user to select the symbol displayed for each device processed.

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The „Style‟ column enables the user to select the symbol, color, background and effects displayed on the map for the corresponding device:

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j) Display

This option allows the user to select the symbols, colors, etc for the various events and metrics displayed in WindCatcher.

k) Favorites Menu This feature allows a user to select a range of metrics to be accessed later by hovering over the top of the Map in WindCatcher when a database is opened. The user may select the metric by browsing onto it through the Map>metric menu and a right click on the metric to select „Add to favorites Menu‟ In order to unselect a metric from the „favorites menu‟, the user would need to browse onto the metric under the map tab, right click on the metric and select „Remove from Favorites menu‟

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Event Settings The „Event Symbol Selection‟ enables a user to select/modify an event to be displayed on the map, chart, and/or the Event Tree. WindCatcher provides a comprehensive set of call events right from handset registration and call access through call end. These events can be viewed either in the event browser, map view or both. The symbols and colors are user definable. From Home Tab click Event Settings, The following window will appear:

The events are categorized on the left pane under separate tabs forming logical groupings of events (such as LTE Call Setup, LTE Registration, etc.). The events are further collected into sub-categories within each category (such as LTE Authentication Failure, LTE AS Security Failure, etc.). There are three checkboxes for each event selection, as shown. The first selection selects whether to display the event on the event browser docked window or not. The second selection is for display on the map. Note that these selections apply to all opened datasets, and will be remembered the next time the application is opened. The Third selection is the Show on Chart Option- Support for „events‟ in the time-series charts. Users may browse onto Home>Event Settings to select the event to „Show on Chart‟ and select „Apply‟

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A symbol style, color maybe changed by simply double-clicking on the symbol from the menu and making the requisite changes in the window displayed below:

Threshold Settings Thresholds may be user-defined for every metric available in WindCatcher according to the analysis requirements. To set a threshold, select Threshold Settings from the Home tab. This will display a list of metric groups. Select the metric group of interest & change the threshold as desired.

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A sample threshold specification window is shown below for the LTE Dominant RSRP metric (under the LTE Dominant RF… metric group).

The following may be done: 

To change the individual threshold values, select the desired row, then select the Threshold column. The value may then be changed to a valid, user-defined value.



To change the individual threshold colors, select the desired row, and then click on the down arrow to see a list of available colors.



To change the number of threshold entries, select the “+” or “-” symbols repeatedly until the number of entries are displayed.



Select OK when complete & apply to save the changes. Select Cancel to abort without saving the changes.



Note: Any changes made to threshold settings will only take effect the next time the corresponding metric is plotted. The new settings will not apply to any metrics that are already displayed on the map(s).

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Exporting Thresholds and Events WindCatcher allows users to export threshold and event settings to CFG files. These files can be shared across users as well as users can create multiple settings for different analysis using the „Settings‟ menu:

B. Dataset Creation and Management The first step in viewing data in WindCatcher will be to create a dataset from the data files to be analyzed. WindCatcher provides the powerful option to save the datasets once they are processed. Therefore, this process of creating the dataset need only be performed once for each unique set of drive data. These datasets may subsequently be opened immediately without needing to go through the processing step again.

Create New Dataset From the main menu, select File, then New Dataset… or select the New Dataset … icon:

The following window will open:

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Click on the Add button next to select the Drive Test Files and select all files that you wish to process. Note that more than one file may be selected for processing, and these files may be of any supported mobile phones.



Click on the Browse under the save Database section to select a directory and name to save the processed data. Notes: 

You may choose not to save the processed data, in which case the last step needs not to be performed. However, in this case, you will need to repeat this process to view the data the next time the application is loaded.



If a dataset has already been created, then this dataset may be reopened by selecting the Open Dataset…icon that is next to the New Dataset…icon above.

Open Existing Dataset To open a previously processed and saved dataset, select File, then Open Dataset… or select the Open Dataset … icon:

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Browse to the directory that the dataset was saved and select the .mdb dataset database file. The selected dataset will be loaded into WindCatcher as a new map window.

Close Dataset To close a dataset, select File, then Close Dataset and select the appropriate dataset to close.

Merge Datasets This option allows the user to merge more than 1 datasets in WindCatcher Plus. When the option is selected, a „Merge Datasets‟ window opens up allowing the user to „Add Datasets‟ to be merged. Once the datasets are added, a location for the final merged dataset is selected (under „Browse‟ highlighted below) and „OK‟ selected, WindCatcher will merge the datasets and open the final, merged dataset on the interface:

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Merge Devices This option allows the user to merge devices within a dataset:

Manual Merge: This option allows the user to select the devices that need to be merged. User will select the devices as per the snapshot below (note the two devices selected have unique „Phone ID‟)

Once the „merge‟ option is selected, the two devices are assigned the same Phone ID and the user selects „Accept‟:

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WindCatcher will merge the two devices and re-open the dataset on the interface. The Auto Merge option will search for similar devices (in case of phones similar MIN ESN) and automatically merge the devices.

C. User-Interface Overview

Docked Windows Key information about the dataset associated with the active map window is contained within windows along the sides of the application. This key information includes: Layer 3 and phone log messages, events, binned phone data, legends and dataset information. The default view is with all windows in the Collapsed Mode. This maximizes the map viewing area. Any window can be expanded by just moving the mouse over the desired window on the side-bar window selection. This window may be temporarily fixed for display by clicking on this side-bar window selection, as shown.

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This window may also be resized as required. To collapse the window again, just select any point outside this window. This window may also be Docked so that it is permanently expanded on the screen. In this docked mode, the other windows in the application will be resized so that all windows are visible. To dock the window, just select the push pin as shown:

Just select the push pin again to get this window out of the Docked state, and revert back to the collapsible state. Docked Windows may be changed to floating windows by just dragging it out from side bar. To reinstate a docked window, double click window header & it will re positioned to side bar.

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e

Windows View Under the View tab Windows View option will allow the user to retrieve any specific docked window if it has been closed from the main interface.

Legend Window Legend window shows user all the events and metrics that are currently selected on the map interface.

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Thresholds for metrics can be adjusted on the fly by double clicking on the metric legend and the Modify Ranged Theme page will open as shown below:

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Tabbed Windows WindCatcher supports multiple datasets to be loaded into the application at the same time. Each dataset is opened as a new tabbed window.

You may move between windows by just selecting the appropriate tab. The tabbed window title will be modified appropriately to reflect any metric that is currently displayed on each map.

Multiple Maps Additional Map and/or Time-Series windows may be opened for any of the loaded datasets by selecting the appropriate dataset under the Views tab.

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You may place windows side-by-side by selecting and dragging the desired window to the right or below. Just Click on the icon below for the location selection i.e. left, right, top or bottom

An example of a vertically split window using the above-mentioned technique is shown below:

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All windows of the same dataset are synchronized, so this makes comparison between metrics very convenient and powerful. The synchronization extends to between Map and Time-Series windows as well.

Synchronization WindCatcher implements complete synchronization of all possible views in any direction for maximum effectiveness and efficiency in performing drill-down analyses of problems. The following views are all synchronized with each other (from the same dataset): 

Maps (including multiple map windows for the same dataset)



Time-series charts (including multiple time-series chart windows for the same dataset)



Dropped Call Event Analysis Window



High BLER/RxQual Analysis Window



Message Window



Event Window



Phone Data Browser



Tables

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D. Metric Plots Any opened dataset in WindCatcher will begin with the Map view. The initial Map view will show the drive route without any metrics plotted. The various events that appeared on the drive will also be displayed. To display any metric on the map, just click on following icons and select the desired metric to plot.

You may also select any of the Metrics to display by right-clicking anywhere within the Map window. See section „On Screen Menus‟ for more details.

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E. Time-Series Plots You may view any dataset metric as a time-series by selecting Window, then New Time Series Chart from the main menu, or by selecting the New Time Series Chart icon as follows:

If there are multiple datasets loaded, then select the desired dataset from the list. The chart will open with the default metrics displayed. Select the Chart Metrics icon to change the metrics displayed on the chart and/or to change the default metrics to be displayed the next time any chart is selected.

You may also scroll or change the zoom on the chart through the controls on the Chart Control docked window on the right.

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To scroll along the horizontal axis, select Time-Axis scroll, then rotate the knob in the appropriate direction (clockwise to scroll to the right and vice versa). In order to change the zoom setting (timescale width) you can select Time-Axis zoom and rotate the knob appropriately (clockwise to zoom in and vice versa). The Sync to Selected Phone selects the phone that the rest of the maps and browsers will be synchronized to when a selection is made on the time chart. This setting has an impact when there are multiple phones in the dataset.

Events on Chart In order to show „events‟ in the time-series chart, ensure that the „events on chart‟ option is selected in the „Chart‟ tab:

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F. Tables This feature provides an alternative view of data by displaying it in the tabular form. Select the Tables icon to display the table for the current dataset.

Given below is a sample table:

The following can be done with this table:

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 Fields can be added to (or removed from) the column display on the right by expanding the appropriate tree in the Field Name: section and selecting (unselecting) the desired metrics.  The table displayed on the right can be exported to an Excel spreadsheet or directly to a MapInfo tab file by selecting the appropriate icons on the top of the window. Note that a separate MapInfo tab file will be created for each phone in the dataset.  The Field Name: column may be hidden or shown by toggling the Show/Hide Field Name icon on the top. It is sometimes useful to hide this column so that more of the Tabular Data fields may be viewed.  All displayed fields in the Tabular Data section may be removed by selecting the Unselect All Fields icon at the top of the table‟s window. Note that the first 5 columns are permanently on the table, and will not be removed with this button. Notes:  The table is fully synchronized with the rest of the browsers, maps and time-series plots associated with the same dataset.  Once certain fields are selected for display on the Tabular Data window, these selections will be remembered for every dataset opened after making these selections.

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G. Printing / Plotting To print/plot the current map, select FilePrint Map/Chart…

Or From the Map view, Click on

The Print Preview screen will appear with a preview of how the printout will look like.

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Select the Printer Setup from the icons if a non-default printer / settings need to be configured. Plotters are also supported, including most paper sizes such as A, B, C, D and E-sizes.

Once configured, the printout may either be printed on the selected printer by selecting Print or to a PDF file by selecting Save as PDF.

To exit the preview without sending the printout, select Close.

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H. PDF/CDF Charts PDF/CDF charts of selected metrics may be seen by selecting Views tab then PDF/CDF, or by doing right click on map & by selecting Current Metric PDF/CDF.

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The following screen will appear, allowing the user to select desired metrics for the PDF or CDF charts, the resulting window will display multiple metrics on single chart as seen below

These PDF/CDF charts may be exported to excel file by selecting the Save to Excel icon. Also these charts can exported into following formats by using Export button.

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I. User Defined Metrics and Reports Both of these features are available through the User Query docked window on the right side of the interface, as shown below:

These features allow the user to create any metric or report based on any combination of existing metrics and events in WindCatcher. Conditions may be applied to these metrics and reports before generation.

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General Usage These two features are fundamentally used in the same way. The interface is divided into 6 sections, as shown below

1. User Defined Metric/Report Selection Tabs: The user may select to either use the User Defined Metrics (UDM) or the User Defined Report (UDR) feature by selecting the appropriate tab. 2. Metric/Report Item Definition: One or more items may be selected for the UDM/UDR. 3. Conditions: One or more conditions may be applied to the selected UDM/UDR items. 4. Icon Selections: The definition may be saved by selecting the

icon.

5. Previously defined Metrics/Reports: The defined UDM/UDR will now appear in the left pane. This UDM/UDR may now be run by double-clicking the appropriate query on this left pane or by selecting the Execute Query icon . 6. Results: The results may be viewed on the results section on the right. These results may be exported to an Excel .csv file by selecting the Export to CSV… icon . In the case of UDM, the selected user defined metric will also appear on the map, color coded by the legend defined.

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WindCatcher allows the user to create their custom legend and field for the user queries, please see sections below for detail.

Create a Custom Legend In addition to the predefine legends for the user queries, a custom legend may be defined by selecting the Setup Customized Metrics Threshold . The following window will appear:

Select Create new threshold group icon threshold, as shown below:

, choose a name for threshold and define the desired

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Create a Custom Field In order to facilitate the process of creating user queries, the user query section consists of a custom filed option. To create a custom field, select the Create Customized Field icon . The following window will appear:

The field may be defined by selecting the appropriate existing fields and operators. Note previously defined custom fields may be used to create new custom fields, making this feature have virtually limitless possibilities to create very complex custom fields. Once created, enter an Expression Name (to be used to select the field) and an Expression Result Alias (which will be the column heading in the results section). Select the Save Expression to User Defined Field icon to save this custom field.

Creating User Defined Metrics For ease of illustration, the implementation will be explained using an example. Example: Objective: Create a User Query Metric displaying the Dominant RSRP for a specific Dominant RSRP (Value > -85).

Define the Metric Item The metric to plot may be selected from the second box in second section as shown below:

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A list of all available metrics within WindCatcher will appear. Select the Dominant RSRP (dBm) metric from the LTE Dominant Data group. Select the appropriate threshold from the third box list. The final definition should look as follows:

Define the Conditions The conditions are defined in the third section. The first step is to create a new condition by selecting on the arrow and selecting Add a new connection, as shown below.

Select the appropriate metrics and conditions. For this example, the Dominant RSRP (dBm) and the corresponding value (>-85). Note that the list of available values in the current dataset for any selected metric may be viewed by selecting the drop-down box, as shown below:

Additional conditions may be defined by left-clicking on the arrow again and selecting Add a new condition.

Creating User Defined Report For ease of illustration, the implementation will be explained using an example.

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Example: Objective: Create a User Query Metric displaying the Dominant RSRP (dBm) for a specific LTE UE RSRP.

Define the Report Item The report items may be selected from the second box in section 2, as shown below:

Select the appropriate metric from the second box. Then, select the appropriate aggregation method from the first box. Select the desired sorting if required from the third box. Additional report items may be defined by left-clicking the green arrow and then selecting Add a new field.

The final report item definition should appear as follows:

Define the Conditions The conditions are defined in section 3. The first step is to create a new condition by selecting on the arrow and selecting Add a new connection, as shown below.

Select the appropriate metrics and conditions. For this example, the Dominant RSRP (dBm) value (>-85). Note that the list of available values in the current dataset for any selected metric may be viewed by selecting the drop-down box, as shown below:

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4. Using WindCatcher – Advanced A. In-Building Profiler In building profiler feature will allow user to map the in building background file (jpg, bmp etc) to exact location on map by selecting 4 reference points.

To create an in building profile, click

button available under “Home” tab. Once the

profiler is launched, import the background file using

tab.

Using the below “Anchor Points” option map the jpg lat/longs to actual lat/longs on the available map.

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Click on “P1” and click on jpg to get the pixel position, now click on the map for the actual lat/longs on the Map available in the left window. Follow the same procedure to map all 4 points and then hit “Apply” followed by

.

Once the profiler MapInfo file is generated, start processing the in building data and import the tab file upon completion using

or

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B. Batch Printing Windcatcher can be configured to print several plots at the same time. To do so, select MapFrom Print Menu, Click on Drop down Menu & then Batch Print….

The following screen will appear:

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Select the desired metrics to plot.



Once the metrics have been selected, user has the option to „Clear Selection‟, „Print Preview‟, „Print‟ or „Save‟ the metric selection as a template that may be selected at a later date:

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 The „Page Setup‟ and „Export‟ options are similar to „print Map‟ menu

C. Offset Metrics It is sometimes useful to compare the performance of two or more metrics in conjunction to understand possible correlations between these metrics. One of the ways to do this in WindCatcher is through the use of this Offset Metrics feature. To use this feature, click on the Metrics Offset icon

The following window will appear:

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A maximum of six offset metrics can be selected at any one time. The offset distance between each metric offset can be set using the settings provided under the Option  Default Offset section. Then offset Pan can be used to create offset b/w multiple layers. Click on the center button to reset the offset.

If the Selections on Map button is selected in the Map Selection Option, then there must have been selections on the map prior to opening this offset metrics configuration window. To make selections on the map, change the mouse pointer to one of the map selection pointers (see options below) and select the desired drive test points prior to calling this configuration window.

Any offset metrics on the map may be subsequently cleared by clicking on the center button in Offset Pan.

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D. Layer Control The purpose of the layer control is to control what gets displayed on the maps and how they are displayed. WindCatcher utilizes the MapX software to display the maps, which is based on the popular MapInfo format. Layers may be added, deleted and labeled just like how they are done in MapInfo.

There are nine tabs in the layer control, these tabs are discussed below.

Metrics In This tab all of metrics which are currently plotted will be displayed, you select/unselect them to make them visible or removed from the map. In addition, this tab allows the user to display labels for the metric:

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Selection: Each device is associated with a „route‟ and „Event‟ layer. The user may select the layers that he wishes to view on the map:

In addition to this, the user may simply select the layer from the „layer‟ tree and choose its visibility options

View

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In this tab map scale, zoom & map orientation can be selected

Editing In this tab Default styles for drawing tools can be selected.

Background Maps Additional Map layers can be added using the Add option under Layers and map layers can be reordered using the Up and Down options under Reorder. The controls are identical to those used in MapInfo.

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E. Multiple Phones WindCatcher will automatically handle multiple phones within the same dataset. If the collections of files that comprise a dataset contain information from more than one phone, then WindCatcher automatically offsets the map plots for each phone. The offset separation may be set by selecting Home, then Processing Default>Interface and then specifying the desired offset in the Map Offset for Multiple Phones/Frequencies section.

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Any of these phones may be displayed or removed from being plotted on the map through the layer control dialog window that is available by selecting the Layer Control icon.

Select or unselect the phones as desired by selecting device data layer in the Layer Control. Only the selected phones will be displayed on the map upon selecting the OK button. See section on Layer Control

for more details.

Note:  The Dataset Info docked window on the left bar contains information on each phone such as the type of phone, IMEI number, etc.

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F. On Screen Menus WindCatcher provides access to menus and bin information on the screen. There are two different types of on screen menus, as described below. No Selection Menu The following menu is displayed when the mouse right-click button is pressed while there is no selection on the active map:

Basic Metrics or Advanced Metrics Any of the Metrics or Advanced Metrics may then be plotted on the map by making the appropriate selection on this menu. Export Metrics/Events to Excel/MapInfo/Google Earth format By pressing mouse right-click button on Map, and then by choosing Export Metrics/Event option user may export Metrics or Events in Excel, Map info or Google Earth (.kml) compatible formats.

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G. Polygon creation The following procedure is used to create and import polygons into: a. Browse onto Map>Map Tools and select the „arrow „ on the lower right corner b. Select the „polygon‟ icon

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d. The area will be highlighted once selected. Now, right click on the map to „create a polygon‟

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Polygon/Boundary Import: You may import the boundary through Map>Import Boundary menu:

Browse and select the MapInfo file, select the value for MapInfo field, select „Custom 1‟ for „mapped field‟ and provide a name under „mapped name‟ for the boundary and select „Process‟:

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Report Generation: The mapped field above can be from Custom1 to Custom10. For reports theses Custom fields are available in KPI Mapping as shown below:

In the Custom Report if a user wants to exclude the area outside the polygon following condition should be added in the condition‟s tab.

In the example above Polygon is mapped to Custom1 field. When this condition “conditioncovered” is applied o any metric in “Metric Data” table to Custom Report the result for that metric with be generated after applying the exclusion.

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H. Exporting Reports and Maps The active map and various reports may be exported from WindCatcher for further analysis and display purposes. The export functionality is as follows: Export Message Data The purpose of this report is to export the Layer 3 and Log messages to a text file for further analysis. There are two options when this type of export is selected: 

All Messages…



Selected Messages… The All Messages… option will save all the messages that are available on the message browser docked window in text format. Warning: The All Messages… option could take a long time to export and result in very large text output file, and should be used with care. The Selected Messages… option will only export the messages that are selected on this message browser. To use this option, first open the message browser docked window and select the range of rows to export. Then select this Selected Messages option to perform the actual export. There will be a window presented to specify the location and name of the exported file for both these options.

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I. Exporting Tables The table export feature provides a powerful method to export a wide variety of metrics and bin counts to either an Excel spreadsheet or directly as a MapInfo tab file. This export is available through the Data Tables feature under Views tab.

The following window will appear; this window can docked on screen by double clicking the menu bar on it.

Selected metric & events can be exported in Excel, MapInfo & Google compatible KML formats.

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Attribute Manager The attribute manager enables the user to create and define new metrics that maybe used for plots within WindCatcher and for the Event analysis which will be detailed later in the manual. An attribute is defined as an engine entity that aggregates values over a certain user defined window size or bin interval.

The following window is displayed when the „Attribute Manager‟ is selected

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An attribute maybe created using the steps below: 1. Select the technology using the technology menu:

2. Selection of the attribute: The user may select the attribute from the groups defined under the „Attributes‟ tree or Add a new attribute



The “data type‟ allows the user to define the type of output expected i.e. double, string, long, ulong, short, ushort, byte, character.



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The following binning options are available: 

Average: provides the average value of the attribute for the entire bin



Current: provides the instantaneous value for the attribute



Last_val: provides the last, valid value observed for the attribute for the bin.



First_val: provides the first, valid value observed for the attribute for the bin.



Second_val: provides the second, valid value observed for the attribute for the bin



Minimum: provides the minimum value observed for the attribute for the bin



Maximum: provides the maximum value observed for the attribute for the bin



Accumulate: Adds all the values observed for the attribute within the bin

 The „Add Database Column Mapping‟ allows the user to define an attribute that would be added to the processed database in WindCatcher. Here the user can define the binning, select the table and the column, define the ranking. The „Raw output‟ option maybe selected for receiver devices.

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Event Diagram The Event Diagram may be used to model call state, create events and statistics. The following window is displayed when this option is selected from the „Tools‟ tab:

The user must select the „technology‟ and „Format‟ before creation/modification of an event diagram. Each event diagram is comprised of several states and transitions. The user may „double click‟ on a state to define the expressions that evaluate when a state is entered or exited.

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The user may „double click‟ on a transition to define the expressions that trigger the transition from one state to the other:

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The „expression editor‟ maybe used to define/modify the expression for the states and transitions:

The attribute selected from the „Attributes‟ tree appears on the „KPI‟ column. A function maybe selected from the „Functions menu‟. The „Join‟ menu allows the user to select „and‟ and „or‟ conditions. Once, all the information is entered select „Insert‟ to add the condition. The user may manually type in the information too. Page 81

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Root Cause for Event Analysis The Event Analysis option enables the user to configure a set of KPIs for a given window size (in ms) before and after an event. This information is stored as an XML file which is used by the engine to process the drive test files. The following window is displayed when the „Event analysis‟ option is selected on the „Tool‟ menu. The user must select the „technology‟ before creation of an event analysis.

The „root causes‟ may be defined as per the steps below: Step 1: Name the cause and „add‟ it to the list Step 2: Define the cause analysis using the „Expression Editor‟

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These events will be displayed under the Tools>Event Analysis menu:

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5. Analysis Features A. Event Analysis The automated event analysis features is one of the most powerful features in WindCatcher. This feature provides the user with the ability to list all occurrences of the most critical customer-perceived problems in one location. Furthermore, the conditions before and after these problem events occurred are presented for each event. This dramatically reduces the time taken to analyze the problem because the laborious and non-value-added work of gathering this before/after data is automatically done. Finally, a possible root cause is provided whenever possible using proprietary Xceed algorithms. There are three types of event analysis available under this feature, namely:  Dropped Calls Analysis  High BLER/RxQual Analysis  Blocked Calls Analysis  Access Failure To perform any of these analysis, execute the following steps:  Select the Event Analysis icon from Tools tab and select desired analysis.

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 All occurrences of the selected event in the currently active dataset will be listed. An example for Dropped Calls is shown below:

 Click on the desired row to view details on that event below. The details include the conditions before and after the drop, as well as a suggested root cause (if able to be automatically determined from acquired data).  All maps and associated docked windows will be synchronized to the event selected. This makes it very powerful and convenient for drill down analysis of the problem. Note:  The Event Analysis window may also be docked by double-clicking on the top bar or clicking once on the top bar and dragging the mouse to either the left, right or bottom edge of the application. Similarly to the Event Drop Call Analysis, the Event Block Call Analysis is also available and it synchronize block calls with the event, layer III, table, replay, and time axis function.

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B. Delta Plots Delta plot is a powerful feature that provides the flexibility to compare two dataset collected on the same route either by two handsets or collected by the same hand separately. Using this option, engineers can compare datasets on the same route under different load condition as well as comparing the multiple carrier coverage. To use this feature, execute the following steps:  Select the Delta Plot icon from Views menu, and select New Delta Plot.

 The following window will appear:

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 Select the two dataset / phone combinations and desired metric to compare from the corresponding drop-down lists.  Specify the geographic bin size or the Time binning method to use. The entire drive test area based on the selected data will be sectioned into square bins of the specified size. Subsequently, all points from each set of data will be linearly averaged in each of these bins to be used for the delta (difference) plot.  Select Run. The resulting plot will display the difference between the first set of data and the second (i.e. Baseline Metrics – Compared Metrics). The units will correspond to the metric selected for comparison. Statistics will also be presented in the legend that summarizes the differences calculated between the two sets of data.

 The delta map provides the user the ability to export the data as an Excel sheet or create a PDF/CDF chart. These option will be displayed after a „right click‟ on the map

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 Once the delta plot window is opened, the metric being compared may be changed for the same two sets of data by merely selecting the appropriate metric from the Delta Plot icon. The delta plot will be recreated on the same map for this new metric.  The user may also create another delta plot window by following steps 1 to 5. There is no limit to the number of such windows that can be opened, subject to system RAM constraints. Note that since each data to be compared is specified as a combination of the dataset and phone id, therefore this supports two types of comparisons, namely, Dataset Deltas and Handset Deltas. These logical types of comparisons are described in more detail below. Dataset Delta To perform this type of delta plot analysis, load each dataset separately into WindCatcher. Perform the delta plot configuration as described earlier, and select the appropriate datasets under Data 1 and Data 2. The phone ID will be the same for both data definitions. Handset Delta To perform this type of delta plot analysis, load the dataset that contains information on the multiple phones / devices. Perform the delta plot configuration as described earlier, and select the appropriate Phone IDs under Data 1 and Data 2. The dataset will be the same for both data definitions.

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C. Link to Bin The Link Bin to Sector feature provides the ability to view the pilots serving each point along the drive through lines drawn to the corresponding sectors. Note that this feature can only be utilized if there are already cells displayed on the map. To use this feature, follow the steps below:  To activate the feature, browse onto Map>To Sector menu and select the option required e.g.: active sector

 Now select the bin on the map and Windcatcher will display the link to the Active Sector:

 Each subsequent point selected will result in the lines being redrawn to correspond to the new point until the feature is turned off.

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 The user may select a sector and right click to view the „link sector to‟ options:

 The lines may be removed in a number of ways: a. Reselect one or more of the previous selections. This will toggle the lines off for those selections, and the corresponding lines will be removed from the map. b. Select Remove Link. This will turn off the lines, but the line selections will still be active. This means that fresh lines will be drawn the next time a selection is made on the map.

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D. Geo/Distance Binning Geo & Distance Binning Maps can be generated on the fly as well after processing data with Time binning. The options are available under ‘Views’ tab

From the drop down menu of desired binning method, users have to choose the database on which binning method suppose to be applied

Once the database selected, the user interface will take the input for desired distance in meters

Click OK after entering desired distance for Area or Distance binning & new map window will open with desired Area or Distance binned output for analysis. Users can also select binning method for metric display from the following menu under ‘map’ tab.

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E. Replay The Replay feature automatically makes a selection move along the map. The Link Bin to Sector feature need not be activated to use this feature, but is very powerful when combined to visually capture distant pilot interferers which may otherwise be difficult to capture via other traditional troubleshooting methods. The replay is controlled by the Replay icons as shown:

Select the Start replay button to start the replay. Similarly, select the Stop replay, Step forward and Step backward buttons to stop the replay and manually perform the replay respectively. Notes:  The data can be replayed with or without cell site information.  The replay function is fully synchronized with all docked windows and browsers, including the Phone Data Browser, Message Window, Event Window and any opened time-series windows for the same dataset. Replay Option  The Replay Speed function may be employed to adjust the Replay speed.

 The Synchronization function allows the user to select synchronization of the Replay function with the Message Data, Event Data Tree, Time Series Chart and Tabular Data. Just click on all mentioned Data options, once the option becomes highlighted, it will be synchronized with the replay.

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F. Neighbor List Analysis Neighbor list analysis can be launched from „Tools‟ tab. This feature can be used to determine missing neighbors from the collected data.

This tool can be used with or without cell file in the background. Once the user clicks on above icon, an analysis window will appear as below. If the cell file is already in the background then it will appear in the sector field automatically & in case UE it will be used for missing neighbor analysis as well. If the cell site file is not in the background then sector field will remain blank & analysis will be performed based on collected information only.

Default criteria can be modified by user such as serving CINR & neighbor CINR threshold values for example in case of LTE neighbor analysis. Once the values are set, User needs to click on Run Analysis & a detailed report will be generated which can be exported in Excel as well.

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G. RF Analysis RF analysis can be launched from „Tools‟ tab. This feature can be used to summarize RF data for a dataset

RF analysis displays the window below where the user observes data for each serving PN/PSC/PCI

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User may select a specific serving parameter and plot the list of metrics available in the drop down on the map

H. Reports The reports menu allows user to run an array of pre-defined reports and custom reports. WindCatcher Plus provides pre-defined reports for CDMA, GSM/UMTS, and iDEN technologies. In addition various custom reports are available for CDMA, GSM/UMTS, iDEN and LTE. The most commonly used custom report is the „Pre-post‟ report (CDMA/EVDO/LTE) which is created as per the procedure defined below: The Pre-post template is located under Start> My Documents>Xceed Technologies, Inc folder. Consider the example below for pre-post report creation: 1. Create a pre dataset: Process the pre-drive data in WindCatcher plus and save the database e.g.: Pre.mdb. Note the „Device Id‟ of the pre devices by browsing onto the „DatasetInfo‟ tab on the left side of the map:

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2. Create a post dataset: Process the pre-drive data in WindCatcher plus and save the database e.g.: Post.mdb. note the device ID of the post device by browsing onto the „DatasetInfo‟ tab. 3. Template Update:  Open the report template and browse onto the „Device Mapping‟ tab.  Enter the „Dataset‟ and „Device ID‟ information from steps 1 and 2  Save and close the Template  For every new creation of the pre-post report, the user would need to enter information in the „device mapping‟ tab of the template.

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4. Open the two (pre and post) datasets in WindCatcher plus. Browse onto Reports>Open Custom Report and browse onto the template that was saved in Step 3

The report generated will open in Excel.

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Zoom Option in Reports For a specific zoom that would be uniform throughout the report for image plots, open that particular custom report before generating and select IMAGE DATA tab: 1. Image data: cell A1, type in „zoom‟. This will pick up the zoom from the current opened dataset. This works similarly for custom report utility. This does not work for WPCM 2. Option 2: A1: type in „zoom:200:meters‟ . This will allow user to define the zoom level. This will pick up the narrower width and zoom it. This works for all options of custom reports. Currently, we support only meter, miles and kilometer. 3. Above options do not work for WPCM.

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6. Project Manager

A. Introduction to Project Manager Module Project Manager is a new functionality introduced in WindCatcher for processing folder based drive test data. This will allow users to select the root folder and all the data available in the sub folders will be processed automatically. A database is created for data in each subfolder. The databases will be named based upon the root and subfolder names and stored along with the raw files in their respective folders. To use the project manager follow the below steps: 

Launch Project Manager from the home tab,



Scan the root folder containing raw drive test data in subfolders

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Scan function will automatically scan all the subfolders and create separate groups for each subfolder for processing.



Click “Select All Data” tab and click “Process All Data” for creating datasets for the complete set of raw data. User can also selectively process data by selecting individual files and click “Process Selected Data” Once all the data is processed user can view the dataset using “Dataset” tab



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To add background files and cell sites use the “Supporting Files” tab



To run a custom report for all datasets or selective datasets use Dataset tab available at the left top.



Click Custom Report (All Datasets) for providing custom report template which can run over all processed datasets. To selectively run report on datasets, select the datasets individually and click Custom Report (Selected Datasets) for providing template. The projects which are processed using the project manager will be saved as workspace and can be assessed as long as related datasets are available at the desired location. While importing background or cell files users can create new filters by using “Add New Filter” option

 

B. iBwave Cell Sites WindCatcher has introduced feature to create cell sites/nodes for in-building data using IBwave exported “xml” files. Use the below steps for creating IBwave cells. a. Select “iBwave Inbuilding Cell Site” option from the home tab

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b. Select the appropriate technology for cell sites c. Import iBwave exported xml file using “Open” option.

d. Click “Create Sector Tab File” and provide location and name for the tab file.

e. A new window will open to preview the newly created cell sites

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f. Use Background, Layer Control or Default cell sites to import the cell sites on interface.

C. Cell Site Alignment WindCatcher has introduced a new feature for in-building cells to align with the background map using the offset controls in case they were not properly mapped during data collection. a. Click the “Use offset controls” and click “Select all cell sectors”

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b. Depending upon the offset required, choose the appropriate “Offset step (meters) using the drop down. c. Click the arrow button to move the entire layer and align it with the background map d. User can also move individual sites by selecting the appropriate rows for cells and use the offset button to move. e. New positions will be marked with blue and original with red plus signs.

f. To make the new location permanent click “Apply Changes” and “Create Sector Tab File”.

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Appendix A: Supported Drive Test Formats The following drive test formats are currently supported in WindCatcher Plus for CDMA/EVDO, GSM/UMTS, and LTE: JDSU SD5 JDSU AOD Andrew ASCOM Comarco TEMS TEMS Pocket Nemo Nemo Handy PCTel Insite PCTel SeeGull PCTel Clarify PCTel EX DTR Qualcomm DM Qualcomm ISF (QXDM) Qualcomm MobileView Rhode & Schwartz Romes Spirent UDM Swissqual ZK Ericson – UETR reverse link support. Xcal/Accuver LG/LLDM Datapro Ascom Invex Wireless Pro Anritsu Wider Scanner

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Appendix B: LTE Metrics LTE Phone/Scan Data:

Dominant Channel RSSI (dBm): RSSI is defined Received Signal Strength Indicator. A measurement defined as the total received wideband power observed by a UE from all sources, including co-channel serving and nonserving cells, adjacent channel interference and thermal noise within the measurement bandwidth.

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For LTE it is not reported as an independent measurement, but is an input to the derivation of RSRQ. If there is more than one channel available, the Dominant Channel RSSI will be defined as RSSI for dominant channel. Dominant Channel RSSI-Tx1Rx1: RSSI on tranmitter1 and receiver 1 Dominant Channel RSSI-Tx1Rx2: RSSI on tranmitter1 and receiver 2 Dominant Channel EARFCN: An ARFCN defines a pair of Radio Frequency (RF) channel frequencies for uplink and downlink use. EARFCN is defined as E-UTRA Absolute Radio Frequency Channel Number and is based on a 100 kHz channel raster. RSSI by Channel: This metric will allow user to plot RSSI based on available channels. Dominant PCI: This metric will allow user to plot the dominant Cell ID. RSRP (dBm): Reference Signal Received Power (RSRP) is defined as a measurement which provides cellspecific signal strength metric. This measurement is mainly used to rank different LTE cells according to their signal strength as an input for handover and cell reselection decisions. The RSRP of a cell is defined as the linear average over the power contributions (in Watts) of the Resource Elements (REs) which carry cell-specific RS within the considered measurement bandwidth. Dominant RSRP: Defined as the maximum value of RSRP available across serving and neighbor PCI‟s. It can be further defined for each antenna combinations such as Dominant RSRP - Tx1Rx1, which will provide RSRP for the combination of transmitter 1 and receiver 1 RSRQ: Reference Signal Received Quality (RSRQ) is defined as a measurement which provides a cellspecific signal quality metric. Similarly to Reference Signal Received Power (RSRP), this measurement is mainly used to rank different LTE cells according to their signal quality as an input for handover and cell reselection decisions, for example in scenarios for which RSRP measurements do not provide sufficient information to perform reliable mobility decisions. The RSRQ is defined as the ratio N · RSRP/ (LTE carrier RSSI), where N is the number of Resource Blocks (RBs) of the LTE carrier Received Signal Strength Indicator (RSSI) measurement bandwidth. While RSRP is an indicator of the wanted signal strength, RSRQ additionally takes the interference level into account due to the inclusion of RSSI. RSRQ therefore enables the Page 108

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combined effect of signal strength and interference to be reported in an efficient way. If the UE is equipped with multiple antennas, the reported RSRQ value is not permitted to be lower than the RSRQ computed on the individual branches. Dominant RSRQ: Defined as the maximum value of RSRQ available across serving and neighbor PCI‟s. It can be further defined for each antenna combinations such as Dominant RSRQ - Tx1Rx1, which will provide RSRQ for the combination of transmitter 1 and receiver 1. RS CINR (dB): Reference Signal Carrier-to-Interference-and-Noise Ratio is the ratio between the power of the Radio Frequency (RF) carrier bearing the wanted signal and the total power of interfering signals and thermal noise. Dominant CINR: Defined as the maximum value of CINR available across serving and neighbor PCI‟s. It can be further defined for each antenna combinations such as Dominant CINR - Tx1Rx1, which will provide CINR for the combination of transmitter 1 and receiver 1 Dominant PSS RSSI: This metric will provide RSSI of the dominant PSS. Primary Synchronization Signal is a sequence transmitted by every LTE cell every 5 ms; it allows the UE to obtain slot synchronization and part of the physical layer cell IDentifier (cell ID). Three different sequences exist with a one-to-one mapping to three different cell IDs within each of 168 groups of cell IDs. The PSS is based on Zadoff-Chu (ZC) sequences

Dominant PSS Quality: This metric will provide quality of the dominant PSS. Primary Synchronization Signal is a sequence transmitted by every LTE cell every 5 ms; it allows the UE to obtain slot synchronization and part of the physical layer cell IDentifier (cell ID). Three different sequences exist with a one-to-one mapping to three different cell IDs within each of 168 groups of cell IDs. The PSS is based on Zadoff-Chu (ZC) sequences Dominant SSS RSSI (dBm): This metric will provide RSSI of the dominant SSS. Secondary Synchronization Signal is used by the UE to detect the LTE frame timing and to obtain the physical layer cell identity group. It is transmitted twice in each 10 ms frame. The SSS sequences are based on maximum length sequences, known as M-sequences. Each SSS sequence is constructed by interleaving, in the frequency-domain, two length-31 Binary Phase Shift Keying (BPSK)-modulated sequences. These two codes are two different cyclic shifts of a single length-31 M-sequence. The cyclic shift indices of the M-sequences are derived from a function of the physical layer cell identity group. The two codes are alternated between the first and second SSS transmissions in each radio frame. This enables the UE to determine the 10 ms radio frame timing from a single observation of a SSS. Dominant SSS Quality: Page 109

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This metric will provide quality of the dominant SSS. Secondary Synchronization Signal is used by the UE to detect the LTE frame timing and to obtain the physical layer cell identity group. It is transmitted twice in each 10 ms frame. The SSS sequences are based on maximum length sequences, known as M-sequences. Each SSS sequence is constructed by interleaving, in the frequency-domain, two length-31 Binary Phase Shift Keying (BPSK)-modulated sequences. These two codes are two different cyclic shifts of a single length-31 M-sequence. The cyclic shift indices of the M-sequences are derived from a function of the physical layer cell identity group. The two codes are alternated between the first and second SSS transmissions in each radio frame. This enables the UE to determine the 10 ms radio frame timing from a single observation of a SSS. Dominant Sync CINR: This metric will provide dominant synchronized carrier to interference and noise ratio. Dominant Sync Time Offset: This metric will provide dominant sync timing offset in seconds. Dominant Sync Quality (dB): This metric will provide dominant synchronized RSRQ. Dominant PSS CINR (dB): This metric will provide CINR of the dominant PSS. Primary Synchronization Signal is a sequence transmitted by every LTE cell every 5 ms; it allows the UE to obtain slot synchronization and part of the physical layer cell Identifier (cell ID). Three different sequences exist with a one-to-one mapping to three different cell IDs within each of 168 groups of cell IDs. The PSS is based on Zadoff-Chu (ZC) sequences. Dominant SSS CINR (dB): This metric will provide CINR of the dominant SSS. Secondary Synchronization Signal is used by the UE to detect the LTE frame timing and to obtain the physical layer cell identity group. It is transmitted twice in each 10 ms frame. The SSS sequences are based on maximum length sequences, known as M-sequences. Each SSS sequence is constructed by interleaving, in the frequency-domain, two length-31 Binary Phase Shift Keying (BPSK)-modulated sequences. These two codes are two different cyclic shifts of a single length-31 M-sequence. The cyclic shift indices of the M-sequences are derived from a function of the physical layer cell identity group. The two codes are alternated between the first and second SSS transmissions in each radio frame. This enables the UE to determine the 10 ms radio frame timing from a single observation of a SSS.

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Dominant BCH RSSI (dBm): This metric will provide RSSI of dominant BCH. Broadcast Channel is defined as the transport channel carrying broadcast system information except that which is contained in the Master Information Block (MIB). Dominant Cell Distance: This metric will plot distance from selected bin to dominant physical cell identity. Dominant RSSI: This metric will provide RSSI of the dominant physical cell identity. RSSI is defined Received Signal Strength Indicator. A measurement defined as the total received wideband power observed by a UE from all sources, including co-channel serving and non-serving cells, adjacent channel interference and thermal noise within the measurement bandwidth. For LTE it is not reported as an independent measurement, but is an input to the derivation of RSRQ. If there is more than one channel available, the Dominant Channel RSSI will be defined as RSSI for dominant channel. Transmit Power: This metric will provide UE transmit power

PUSCH Tx Power: This metric will provide physical uplink shared channel transmit power. PUCCH Tx Power: This metric will provide physical uplink shared channel transmit power. PRACH Tx Power: This metric will provide physical random access channel transmit power. Tx Power Headroom: The power headroom (PH), expressed in dB. It is the difference between the configured maximum UE output power and the estimated power for PUSCH transmission.

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Serving Channel Info:

Serving Channel RSSI: This metric will provide RSSI of the serving channel. Frequency Band: This metric will provide the frequency band of received signal. DL Tx Frequency: This metric will provide downlink transmit frequency. UL Tx Frequency: This metric will provide uplink transmit frequency DL EARFCN: This metric will provide downlink EARFCN. An ARFCN defines a pair of Radio Frequency (RF) channel frequencies for uplink and downlink use. EARFCN is defined as E-UTRA Absolute Radio Frequency Channel Number and is based on a 100 kHz channel raster. UL EARFCN: This metric will provide uplink EARFCN. An ARFCN defines a pair of Radio Frequency (RF) channel frequencies for uplink and downlink use. EARFCN is defined as E-UTRA Absolute Radio Frequency Channel Number and is based on a 100 kHz channel raster. Served DL Bandwidth: This metric will provide downlink bandwidth for serving channel. Served UL Bandwidth: This metric will provide uplink bandwidth for serving channel.

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DL Resource Block: This metric will provide downlink resource block. Resource block is a unit of transmission resource consisting of 12 subcarriers in the frequency domain and 1 timeslot (0.5 ms) in the time domain. UL Resource Block: This metric will provide uplink resource block. Resource block is a unit of transmission resource consisting of 12 subcarriers in the frequency domain and 1 timeslot (0.5 ms) in the time domain. Serving Cell Info:

Serving PCI: This metric will provide the physical cell identity of the serving cell. Serving Sector: This metric will provide serving cell name. DL Bandwidth: This metric will provide downlink bandwidth of the serving channel. UL Bandwidth: This metric will provide uplink bandwidth of the serving channel. Cell Antenna Count: This metric will provide number of antenna available in the cell DL CP Type: This metric will provide the cyclic prefix type on downlink. This can be normal or extended.

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UL CP Type: This metric will provide the cyclic prefix type on uplink. This can be normal or extended. Path Loss: This metric will provide Path-Loss. Path loss is defined as the attenuation of an electromagnetic wave as it propagates through free space. In LTE each UE measures the path-loss based on the serving cell‟s Reference Signals (RSs) by averaging measurements of the downlink Reference Signal Received Power (RSRP). This is used to determine the uplink transmission power needed to compensate for some or all of the path-loss. Serving RS Info:

Serving RS CINR: This metric will provide CINR for serving PCI. Serving RSRP: This metric will provide RSRP for serving PCI. Serving RSRQ: This metric will provide RSRQ for serving PCI. Serving RF Quality:

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Transmission Mode: This metric will provide available Transmission mode. MIMO Mode: This metric will provide serving MIMO mode. MIMO is defined as Multiple-Input MultipleOutput. A transmission scheme between a transmitter and a receiver both equipped with multiple antennas. CQI Ant0: This metric will provide CQI information for Antenna 0. Channel Quality Indicator. Information signaled by a UE to the base station to indicate a suitable data rate (typically a Modulation and Coding Scheme (MCS) value) for downlink transmissions, usually based on a measurement of the received downlink Signal to Interference plus Noise Ratio (SINR) and knowledge of the UE‟s receiver characteristics. CQI Ant1: This metric will provide CQI information for Antenna 1. Channel Quality Indicator. Information signaled by a UE to the base station to indicate a suitable data rate (typically a Modulation and Coding Scheme (MCS) value) for downlink transmissions, usually based on a measurement of the received downlink Signal to Interference plus Noise Ratio (SINR) and knowledge of the UE‟s receiver characteristics. CQI Index Ant0: This metric will provide CQI index for Antenna 0. CQI Index Ant1: This metric will provide CQI index for Antenna 1. Wideband CQI: This metric will provide CQI of the complete band Transmission Rank: This metric will provide Rank Count. Rank count is signaled to the eNodeB by UEs configured for Physical Downlink Shared Channel (PDSCH) transmission modes 3 (open-loop spatial multiplexing) and 4 (closed-loop spatial multiplexing). It corresponds to the number of useful transmission layers for spatial multiplexing (based on the UE‟s estimate of the downlink channel), enabling the eNodeB to adapt the PDSCH transmissions accordingly PMI: This metric will provide Pre coding Metric Index. Scheduling Grant Info:

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Avg DL TB0 Size: This metric will provide average downlink transport block size for stream 0. Avg DL TB1 Size This metric will provide average downlink transport block size for stream 1. Avg DL TB Size This metric will provide average downlink total transport block size. Avg UL TB Size This metric will provide average uplink total transport block size. Avg DL PRB Assignment This metric will provide Average Downlink Physical Resource Block Assignment. A unit of transmission resource consisting of 2 sub-carriers in the frequency domain and 1 timeslot (0.5 ms) in the time domain. Avg UL PRB Assignment This metric will provide Average Uplink Physical Resource Block Assignment. The unit of transmission resource consisting of 2 sub-carriers in the frequency domain and 1 timeslot (0.5 ms) in the time domain.

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MCS Info:

Dominant DL TB0 MCS This metric will provide dominant MCS index for transport block 0 on downlink. Dominant DL TB1 MCS This metric will provide dominant MCS index for transport block 1 on downlink. Dominant DL TB0 Modulation Type This metric will provide dominant Modulation type for transport block 0 on downlink. This modulation could be QPSK, 16 QAM or 64 QAM. Dominant DL TB1 Modulation Type This metric will provide dominant Modulation type for transport block 1 on downlink. This modulation could be QPSK, 16 QAM or 64 QAM Dominant UL TB MCS This metric will provide dominant MCS index for transport block on uplink. Dominant UL TB Modulation Type

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This metric will provide dominant Modulation type for transport block on uplink. This modulation could be QPSK, 16 QAM or 64 QAM DL TB0 Modulation Type Utilization This metric will provide time utilized in a bin by specific modulation type (QPSK, 16 QAM, and 64 QAM) for transport block 0 on downlink. DL TB1 Modulation Type Utilization This metric will provide time utilized in a bin by specific modulation type (QPSK, 16 QAM, and 64 QAM) for transport block 1 on downlink. UL TB Modulation Type Utilization This metric will provide time utilized in a bin by specific modulation type (QPSK, 16 QAM, and 64 QAM) for transport block on uplink. Most Used DL TB0 Modulation Type per Serving PCI This metric will provide for modulation type for selected serving PCI on downlink for transport block 0. Most Used DL TB1 Modulation Type per Serving PCI This metric will provide for modulation type for selected serving PCI on downlink for transport block 1 Most Used UL TB Modulation Type per Serving PCI This metric will provide for modulation type for selected serving PCI on uplink for transport block. Nth Used DL TB0 Modulation Type This metric will provide Nth best used modulation type for transport block 0 on downlink. Nth Used DL TB1 Modulation Type This metric will provide Nth best used modulation type for transport block 1 on downlink. Nth Used UL TB Modulation Type This metric will provide Nth best used modulation type for transport block on uplink.

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Neighbor Cell Info:

PCI of Nth Best neighbor per RSRP This metric will provide Best Neighbor PCI based on RSRP RSRP of Nth Best Neighbor This metric will provide RSRP of Neighbors based on strongest to weakest levels. PCI of Nth Best Neighbor per RSRQ This metric will provide Best Neighbor PCI based on RSRQ RSRQ of Nth Best Neighbor This metric will provide RSRQ of Neighbors based on strongest to weakest levels. Total Number of Detected Neighbors This metric will provide total numbers of available neighbors State Info:

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EMM State This metric will provide EMM information. Evolved Packet System Connection Management is a Non-Access Stratum (NAS) state which reflects whether a UE is registered with the Mobile Management Entity (MME) – either „registered‟ or „deregistered‟. EMM Sub State This metric will provide Evolved Packet System Connection Management sub state. EMM Mode This metric will provide Evolved Packet System Connection Management sub state mode. RRC State A UE is in RRC_CONNECTED when an RRC connection has been established. If this is not the case, i.e. no RRC connection is established, the UE is in RRC_IDLE state PLMN State This metric will provide public land mobile network state. RRC Cell Selection State This metric will provide RRC Selection state.

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UE Identification:

Serving MCC This metric will provide serving Mobile Country Code (MCC) information. The MCC identifies uniquely the country of domicile of a mobile subscriber. It consists of three digits. In LTE it is used in the construction of network entity related identities such as the E-UTRAN Cell Global Identifier (ECGI), the Global eNodeB Identifier and the Tracking Area Identity (TAI). Serving MNC This metric will provide serving Mobile Network Code (MNC) information. In conjunction with the Mobile Country Code (MCC), the MNC uniquely identifies a mobile network operator/ carrier. In LTE it is used in the construction of network entity related identities such as the EUTRAN Cell Global Identifier (ECGI), the Global eNodeB Identifier, and the Tracking Area Identity (TAI). Serving TAC This metric will provide Tracking Area Code (TAC) information. The TAC is part of the Tracking Area Identity (TAI). It is a 16-bit integer. Serving TAI This metric will provide Serving Tracking Area Identity (TAI) information. This is the identity used to identify tracking areas. It is composed of a Tracking Area Code (TAC), a Mobile Network Code (MNC) and a Mobile Country Code (MCC). GUTI This metric will provide Globally Unique Temporary Identity (GUTI). This is an unambiguous identification of the UE that does not reveal the UE or the user‟s permanent identity in the Evolved Packet System (EPS). It also allows the identification of the Mobility Management Entity (MME) and network.

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S-TMSI This metric will provide System Architecture Evolution - Temporary Mobile Subscriber Identity. The S-TMSI is a unique identifier assigned to the UE by the Mobility Management Entity MME) in order to identify the UE context while supporting subscriber identity confidentiality. IMSI This metric will provide International Mobile Subscriber Identity. A unique number associated with each mobile phone user. It is stored in the SIM inside the phone and is sent by the phone to the network. It is primarily intended for obtaining information on the use of the Public Land Mobile Network (PLMN) by subscribers. Data Throughput:

Physical DSCH Throughput This metric will provide Physical Downlink Shared Channel throughput. The main downlink data bearing channel in LTE. It is used for all user data, as well as for broadcast system information which is not carried on the Physical Broadcast Channel (PBCH), and for paging messages. Physical USCH Throughput This metric will provide Physical Uplink Shared Channel throughput. The LTE uplink physical channel carrying scheduled data traffic and control signaling if some is required to be transmitted in the same sub frame. MAC DL Throughput This metric will provide Medium Access Control (MAC) layer downlink throughput. This sub layer is above the physical layer and below the Radio Link Control (RLC) layer in the LTE protocol stack. The connection to the physical layer below is through transport channels, and the connection to the RLC layer above is through logical channels. The MAC layer performs data transmission scheduling and multiplexing/de-multiplexing between logical channels and transport channels. In the UE, it is also responsible for control of random access, timing advance and discontinuous reception.

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MAC UL Throughput This metric will provide Medium Access Control (MAC) layer uplink throughput. This sub layer is above the physical layer and below the Radio Link Control (RLC) layer in the LTE protocol stack. The connection to the physical layer below is through transport channels, and the connection to the RLC layer above is through logical channels. The MAC layer performs data transmission scheduling and multiplexing/de-multiplexing between logical channels and transport channels. In the UE, it is also responsible for control of random access, timing advance and discontinuous reception. RLC DL Throughput This metric will provide Radio Link Control (RLC) downlink throughput. The RLC layer is located between the Packet Data Convergence Protocol (PDCP) layer and the Medium Access Control (MAC) layer in the LTE user plane protocol stack. The main functions of the RLC layer are segmentation and reassembly of upper layer packets in order to adapt them to the size which can actually be transmitted over the radio interface. For radio bearers which need error-free transmission, the RLC layer also performs retransmission to recover from packet losses. Additionally, the RLC layer performs reordering to compensate for out-of-order reception due to Hybrid Automatic Repeat request (HARQ) operation in the MAC layer. There is one RLC entity per radio bearer. RLC UL Throughput This metric will provide Radio Link Control (RLC) uplink throughput. The RLC layer is located between the Packet Data Convergence Protocol (PDCP) layer and the Medium Access Control (MAC) layer in the LTE user plane protocol stack. The main functions of the RLC layer are segmentation and reassembly of upper layer packets in order to adapt them to the size which can actually be transmitted over the radio interface. For radio bearers which need error-free transmission, the RLC layer also performs retransmission to recover from packet losses. Additionally, the RLC layer performs reordering to compensate for out-of-order reception due to Hybrid Automatic Repeat request (HARQ) operation in the MAC layer. There is one RLC entity per radio bearer. Data Quality:

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RLC DL BLER This metric will provide downlink block error rate on radio link control layer. Physical DSCH BLER This metric will provide block error rate on physical downlink shared channel. PBCH BLER This metric will provide block error rate on physical broadcast channel.

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Troubleshooting:

Poor Coverage This metric allows the user to select a threshold for RSRP. All bins with RSRP values worse than the threshold will be highlighted. Possible Interference (Scanner/UE) This metric allows the user to define thresholds for Dominant RSRP and Dominant RSRQ. All bins that are true for the thresholds will be highlighted.

LTE Low PDSCH Throughput in good RF This metric allows the user to define thresholds for PDSCH throughput and Serving RS CINR. All bins that are true for the thresholds will be highlighted.

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LTE Low PDSCH Throughput in Poor RF This metric allows the user to define thresholds for PDSCH throughput and Serving RS CINR. All bins that are true for the thresholds will be highlighted LTE Low PDSCH Throughput in Poor RF This metric allows the user to define thresholds for PDSCH throughput and Serving RS CINR. All bins that are true for the thresholds will be highlighted Number of Servers Above Threshold (UE/Scanner) The „No of Servers‟ allows the user to define a delta between the Dominant PCI RSRP and the RSRP of the other PCIs within the bin in WindCatcher Plus. All bins that are true for the thresholds will be highlighted

LTE Serving and Neighbor RSRP Comparison This metric displays the delta as defined below:

LTE Consecutive Measurement Reports The metric displays information for bins that observe a number of consecutive „measurement report‟ messages in the layer 3 data. The thresholds define the number of such messages observed in a single bin. A large amount of consecutive measurement reports point to a possible missing neighbor or a possible network issue LTE Max RACH Retransmissions The metric displays the maximum number of RACH retransmissions observed in a bin

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Appendix C: GSM Metrics GSM Power GSM Serving Cell Rx Level Full Received Power for either Scanner or Phone when the DTX is not active GSM Serving Cell Rx Level Sub Received Power for Phone only during connect mode when the DTX is active. GSM Best Neighbor Rx Level Shows the Rx Level of the Best Neighbor GSM Neighbor Rx Level Shows the Rx Level of selected Neighbor GSM Rx Level Full By BCCH Shows Rx Level Full for selected BCCH GSM Rx Level Full By Cell ID Shows Rx Level Full for selected Cell ID GSM Rx Level Full By TCH ARFCN Shows Rx Level Full for selected TCH ARFCN GSM Rx Level Sub by Cell ID Shows Rx Level Sub for selected Cell ID GSM Rx Level Sub by TCH ARFCN Shows Rx Level Sub for selected TCH ARFCN GSM Total Rx Power: It is the total Power antenna is reading GSM Tx Power Level The Transmit Power of the phone. Transmit Power is the actual RF power output of the handset. Mobile Power Class Mobiles belong to different Power Class, depending on the maximum power they can transmit. Class 4 is commonly used GSM Rx Qual GSM Serving Cell Rx Qual Full This parameter shows the signal quality. It is derived from the BER (Bit Error Rate) with continuous transmission from tower.

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GSM Serving Cell Rx Qual Sub This parameter shows the signal quality. It is derived from the BER (Bit Error Rate) with discontinuous transmission from tower GSM Best Neighbor Rx Qual Shows Rx Qual of the best neighbor GSM Neighbor Rx Qual Shows Rx Qual of selected neighbor GSM Rx Qual Full By BCCH Shows Rx Qual Full for selected BCCH GSM Rx Qual Full By Cell ID Shows Rx Qual Full for selected Cell ID GSM Rx Qual Full By TCH ARFCN Shows Rx Qual Full for selected TCH ARFCN GSM Rx Qual Sub by Cell ID Shows Rx Qual Sub for selected Cell ID GSM Rx Qual Sub by TCH ARFCN Shows Rx Qual Sub for selected TCH ARFCN Average SQI This metric is for TEMS only. It is Channel to Interference ratio. Shows average SQI within a bin. Min SQI Shows minimum SQI within a bin Max SQI Shows Maximum SQI within a bin GSM Cell Identity GSM Serving BCCH Channel No Shows the channel number of serving BCCH GSM Frequency Band Shows the serving frequency Band Cellular/PCS/AWS) GSM Serving BSIC It is Base Station Identity Code. It is six bit parameter with 3 bit bits for BCC (Base Station Color Code) and 3 bits for NCC (Network Color Code). GSM Serving MCC

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Shows the serving Mobile Country Code GSM Serving MNC Shows Serving Mobile network Code GSM Serving LAC Shows the Location Area code, along with MCC and MNC it gives location area information. GSM Best Neighbor BCCH Channel No Shows the BCCH of Best Neighbor GSM Neighbor BCCH Channel No Shows the BCCH of selected Neighbor GSM Best Neighbor BSIC Shows the BSIC of Best Neighbor GSM Neighbor BSIC Shows the BSIC of selected Neighbor GSM Frame Error FER Full Shows Frame Error rate when the DTX is not active FER Sub Shows the Frame Error Rate when DTX is active FER TCH Shows the Frame Error Rate only for the Traffic Channel GSM Codec GSM Source Rate Shows the rate at which the GSM speech codec is working. The rates can be Full, Half, AMR Full or AMR Half GSM AMR DL Dominant Rate When Adaptive Multi Rate codec is used, it shows the dominant rate at the downlink GSM AMR UL Dominant Rate When Adaptive Multi Rate codec is used, it shows the dominant rate at the uplink. GSM Physical Channel GSM DTX State Page 129

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Discontinuous transmission, a feature used to save battery and reduce network traffic by powering down the mobile station transmitter when there isn't any speech to transmit. Shows “0” when DTX is inactive and “1” when it is active GSM Channel type GSM Serving Cell Timeslot: Shows the timeslot of the Serving Cell used. Its value varies from 0 to 7. GSM Hopping: Shows if Hopping is assigned or not. “0” when hopping is not assigned and “1” when it is assigned GSM Frequency Hopping Sequence Number Shows the hopping sequence of the frequencies on the TCH. An HSN of zero corresponds to the cyclic hopping sequence, and values 1 through 63 correspond to the pseudo random patterns. GSM MAIO Shows GSM mobile Allocation Index Offset. It refers a time delay separating traffic channels. With proper MAIO planning it is possible to minimize interference between synchronized cells. GSM Serving Cell Time Advance The Time Advance is used to compensate for the time it takes a RF signal to go between the BTS and MS. GSM Serving Cell time Advance by BCCH Shows the time advance of the selected BCCH. C Value It is the path loss criterion parameter used for cell selection and reselection. This is calculated by the MS and used for deciding which cell to camp to. GSM Adjacent Channel Measured Channel RSSI of Selected Channel Shows the Rx Level of selected Adjacent channel Minimum C/A of Selected Channel Shows Minimum Carrier to Adjacent radio within a bin. The carrier-to-adjacent ratio is defined as the signal-strength ratio between a serving carrier and an adjacent carrier. C/A-1 of Selected Channel Shows the Carrier to Adjacent ratio between the serving carrier and the carrier 200kHz below it. C/A-2 of Selected Channel

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Shows the Carrier to Adjacent ratio between the serving carrier and the carrier 400kHz below it. C/A+1 of Selected Channel Shows the Carrier to Adjacent ratio between the serving carrier and the carrier 200kHz above it. C/A+2 of Selected Channel Shows the Carrier to Adjacent ratio between the serving carrier and the carrier 400kHz above it. GSM Phone/Scan Data Maximum RxLev Shows the Maximum Rx Level within a bin. Minimum Rx Level Shows the Minimum Rx Level within a Bin Average Rx Level Shows the Average Rx Level within a Bin RxLev of Selected BSIC Shows the Rx Level of selected BSIC RxLev of Selected Channel Shows the Rx Level of selected Channel RxLev of Selected Channel Filtered by BSIC Shows the Rx Level of selected Channel and BSIC. BSIC of Maximum RxLev Shows the BSIC of maximum Rx Level BSIC of Selected Channel Shows the BSIC of selected Channel Nth Strongest Channel Shows the Nth Strongest Channel according to Rx Level Channel of Maximum RxLev Shows the Channel of Maximum Rx Level Scanner Worst BER Shows the worst scanned BER Scanner Worst BER BCCH Shows the BCCH of Worst scanned BER

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Scanner BER of Selected BCCH Shows the BER of selected BCCH Best C/I Channel Shows the channel with best Channel to Interference ratio. Best C/I Shows best Channel to interference ratio with a bin. Worst C/I Channel Shows the channel with worst Channel to Interference ratio. Worst C/I Shows worst Channel to interference ratio with a bin. Worst C/I Timeslot Shows the time slot with worst Channel to Interference ratio. C/I of Selected Channel Shows Carrier to interference ratio of selected Channel GPRS/EGPRS Coding Scheme-Downlink Shows the coding scheme on the downlink Coding Scheme-Uplink Shows the Coding Scheme on The Uplink Packet technology Shows the packet technology either its GRRS or EGPRS. Packet State Shows the current Packet State for example Attach, Detached or Packet Session Active GPRS MAC Mode DL Shows the GPRS MAC Mode on the Downlink GPRS MAC Mode UL Shows the GPRS MAC mode on the Uplink GMM State Shows the GPRS Mobility Management State GRR State Shows GPRS radio Resource State BEP Mean

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Shows the mean Bit Error probability No of Active DL Slots Shows the number of time slots used for data transmission within a bin on downlink No of Active UL Slots Shows the number of time slots used for data transmission within a bin on uplink LLC Bytes Received Shows the total number of bytes received on Logical link Control Layer LLC DL Throughput (kbps) Shows the Downlink throughput on LLC which defines the logical link control layer protocol to be used for packet data transfer between the mobile station (MS) and a serving GPRS support node (SGSN) LLC Bytes Sent Shows the total number of bytes sent on Logical link Control Layer LLC UL Throughput (kbps) Shows the Uplink throughput on LLC which defines the logical link control layer protocol to be used for packet data transfer between the mobile station (MS) and a serving GPRS support node (SGSN) LLC DL BLER Shows the Downlink BLER on LLC which defines the logical link control layer protocol to be used for packet data transfer between the mobile station (MS) and a serving GPRS support node (SGSN) LLC UL BLER Shows the Uplink BLER on LLC which defines the logical link control layer protocol to be used for packet data transfer between the mobile station (MS) and a serving GPRS support node (SGSN).

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Appendix D: UMTS Metrics UMTS Power UMTS Rx Power The Received Power in the UMTS channel (includes useful energy and interference). UMTS Max Rx Power Shows Maximum Rx Power available within a bin UMTS Min Rx Power Shows minimum RX Power within a bin UMTS Tx Power The Transmit Power of the phone. Transmit Power is the actual RF power output of the handset. UMTS Max Tx power Shows Maximum Tx Power available within a bin UMTS Min Tx power Shows minimum Tx Power within a bin UMTS SC RSCP Plot Shows PSC‟s, Received Signal Code Power. It is the total power of PSC. UMTS Average SIR Shows average UMTS Signal to interference ratio within a bin UMTS Pilot/Scan Data UMTS best finger EcIo Average Ec/Io of the strongest finger. UMTS Sum Finger EcIo Aggregate Ec/Io value of all the fingers. UMTS Sum Active Set EcIo Aggregate Ec/Io value of all the fingers. UMTS Sum All Set EcIo Summation of Ec/Io in all sets. UMTS Dominant Pilot EcIo The Ec/Io of the pilot with the strongest Ec/Io value across all sets. The Dominant pilot could be in the Active, Monitored or Detected set. UMTS Best EcIo in Active Set Page 134

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The strongest Ec/Io value of all the pilots in the Active set. UMTS Best EcIo in Monitored Set The strongest Ec/Io value of all the pilots in the monitored Set UMTS Best EcIo in Detected Set The strongest Ec/Io value of all the pilots in the Detected Set UMTS EcIo for PSC Shows EcIo for selected PSC EcIo for Nth Best Pilot Shows the EcIo of Nth best pilot UMTS Dominant Pilot PSC The pilot with the strongest Ec/Io value across all sets. The Dominant pilot could be in the Active, Monitored or Detected set. UMTS Best Active Pilot PSC The pilot with the strongest Ec/Io value in the active set. UMTS Best Monitored Pilot PSC The pilot with the strongest Ec/Io value in the Monitored set. UMTS Best Detected Pilot PSC The pilot with the strongest Ec/Io value in the detected set. UMTS PSC Nth Best Pilot Shows the PSC of Nth (Strongest, 2nd Strongest …) best Pilot with respect to EcIo. UMTS RSCP for PSC Shows RSCP of Selected PSC UMTS Sum all set RSCP Summation of RSCP in all Sets UMTS Dominant Pilot RSCP The RSCP of the pilot with the strongest Ec/Io value across all sets. UMTS Best Active RSCP Shows RSCP of Best Active pilot UMTS Sum Active RSCP Summation of RSCP of all Pilots in Active Set UMTS Best Monitored RSCP Shows the RSCP of best Monitored pilot. UMTS Best Detected RSCP

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Shows the RSCP of best Detected pilot. UMTS RSCP Nth best Pilot Shows the Received Signal Code power of Nth Best pilot UMTS Number Pilots in Active Set Displays the number of Pilot in Active Set HSDPA Metrics HSDPA Serving PSC Shows HSDPA Serving Primary Synchronization Code HSDPA Serving CPICH EcIo Shows EcIo for Serving Common pilot Channel HSDPA Serving RSCP Shows RSCP of the Serving PSC HSDPA Max CQI Shows maximum channel quality index within a bin. CQI is being used by the base station to calculate how much data to send to the user devices on the next transmission. HSDPA Min CQI Shows minimum channel quality index within a bin. CQI is being used by the base station to schedule data transmission to send to the user devices on the next transmission. HSDPA Average CQI Shows average channel quality index within a bin. CQI is being used by the base station to calculate how much data to send to the user devices on the next transmission. HSDPA Percentage valid CQI Shows percentage of valid CQI within a bin. Shows max channel quality index within a bin. CQI is being used by the base station to calculate how much data to send to the user devices on the next transmission. HSDPA Average SIR Shows average signal to interference ratio for HSDPA within a bin. HSDPA ACK Subframes Number of subframes for which acknowledgement is received i.e. the successful subframes. HSDPA NACK Subframes Number of subframes which are not acknowledged i.e. failed subframes HSDPA ACK kbits Data in kbits in the subframes which are acknowledged. HSDPA NACK kbits Page 136

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Data in kbits in the subframes which are not acknowledged. HSDPA ACK Rate It shows the percentage of the acknowledged subframes within a bin. HSDPA NACK Rate It shows the percentage of not acknowledged subframes within a bin. HSDPA DTX Subframes Number of the subframes in discontinuous transmission mode. HSDPA DTX Rate It shows the percentage of discontinuous transmission mode subframes within a bin. HSDPA Physical Requested Throughput It shows the Physical throughput requested by the UE. HSDPA Physical Scheduled throughput It shows the Physical throughput scheduled by the RNC. HSDPA Physical Served throughput It shows the Physical throughput which was actually served. HSDPA Residual BLER Shows the Block error rate for the first retransmission HSDPA Representative Number of HARQ Processed Shows the number of Hybrid Automatic Requested processed within a bin. This varies from 0 to7. HSDPA Number Active H-ARQ Flows Shows the active number of Hybrid Automatic Request flows at a specific time. HSDPA H-ARQ Metrics Hybrid-ARQ is a technique combining FEC and ARQ methods that save information from previous failed attempts to be used in future decoding. HSDPA QPSK Utilization Shows the utilization of QPSK modulation within a bin HSDPA 16QAM Utilization Shows the percentage utilization of 16 QAM within a bin HSDPA Modulation Type Shows the modulation type used mostly within a bin. It can be QPSK or 16 QAM Error Rate Downlink BLER Page 137

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Shows the Block Error rate on the downlink Downlink DCH BLER Shows the Block Error rate for Dedicated Channel on the downlink Downlink HS-DSCH BLER Shows the Block Error rate for High Speed Downlink Shared Channel. Data Throughput Downlink Physical layer Throughput It shows the instantaneous Forward data throughput on the physical layer. Downlink DCH Physical layer Throughput It shows the instantaneous Forward data throughput on the physical layer for Dedicated Control Channel Downlink HS-DSCH Physical layer Throughput It shows the instantaneous Forward data throughput on the physical layer for High Speed – Downlink Shared Channel only. Downlink RLC Throughput The instantaneous Forward data throughput on the RLC layer. The Radio Link Control (RLC) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Downlink RLC Throughput (Max) Shows the Maximum value of Forward data throughput on the RLC layer within a bin. Downlink RLC Throughput (Min) Shows the Minimum value of Forward data throughput on the RLC layer within a bin. Downlink RLC Cumulative Throughput It shows the cumulative Forward data throughput on RLC layer. Uplink RLC Throughput It shows the instantaneous Reverse data throughput on the RLC layer. Uplink RLC Throughput (Max) Shows the Maximum value of Reverse data throughput on the RLC layer within a bin. Uplink RLC Throughput (Min) Shows the Minimum value of Reverse data throughput on the RLC layer within a bin. Uplink RLC Cumulative Throughput It shows the cumulative Reverse data throughput on RLC layer. Data Applications Page 138

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Data Application Type The type of data application, for e.g. FTP, HTTP etc Downlink Application Throughput The application layer throughput on the forward link Downlink PPP Throughput The Point to Point protocol throughput on Forward link Downlink IP Packets The IP packets on the forward link Downlink TCP Packets The TCP packets on the forward link Downlink UDP Packets The UDP Packets on the forward link. Downlink PPP Packets The PPP packets on the forward link. Uplink Round Trip Time This metric, displays the delay time for a packet to be received. Uplink Application Throughput The application throughput on the reverse link Uplink PPP Throughput The Point to Point protocol throughput on reverse link Uplink IP Packets The IP packets on the reverse link Uplink TCP Packets The TCP packets on the reverse link Uplink UDP Packets The UDP packets on the reverse link Uplink PPP Packets The PPP packets on the reverse link Send Round Trip Time This metric, displays the delay time for a packet to be sent. Audio Quality Audio MOS DL

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Shows audio mean Opinion Score on the downlink Audio MOS UL Shows audio mean Opinion Score on the uplink Video Quality Video Quality Index(VQI) Shows the Video Quality Index for video streaming. Link MOS is the quality parameter for voice, VQI is the quality parameter for video. Mobile Call State Shows the state of the phone. Te states may be Idle, Connecting, Connected, and Access, which may be further classified according to the technology. Data transmission Mode Shows the Data Transmission mode at some instance. The mode may be GSM, HSDPA, R99, FACH or Idle. UMTS UARFCN DL Shows the UMTS UTRA Absolute Radio Frequency Channel Number on the downlink. UMTS UARFCN UL Shows the UMTS UTRA Absolute Radio Frequency Channel Number on the uplink. UMTS UARFCN DL Frequency Shows the frequency associated with UMTS UTRA Absolute Radio Frequency Channel Number on the downlink. UMTS UARFCN UL Frequency Shows the frequency associated with UMTS UTRA Absolute Radio Frequency Channel Number on the uplink. GSM ARFCN DL Shows the GSM Absolute Radio Frequency Channel Number on the downlink. GSM ARFCN UL Shows the GSM Absolute Radio Frequency Channel Number on the uplink. GSM ARFCN DL Frequency Shows the frequency associated with GSM Absolute Radio Frequency Channel Number on the downlink. GSM ARFCN UL Frequency

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Shows the frequency associated with GSM Absolute Radio Frequency Channel Number on the uplink. Log Files Log Files Shows the bins with reference to the log files in which they are present. Drive Route Shows the whole Drive Route. Neighbor Analysis This feature is located under the Tools menu.

The following thresholds are available for the user to run this analysis:

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The user would need to define the following before selecting „Run Analysis‟ 

ARFCN



Server (dB) : Select a threshold to define a server



Neighbor



RSCP : This values is used to provide an upper limit on RSCP for the data considered in the analysis



Windows Size : Any value below this (5dB) will not be considered as a polluter



Server Bin Count



Pollution Threshold : This value is used to provide a lower limit on the number of PSCs that act as polluters in a bin



Pollution Contribution : This value is used to provide a lower limit on the total number of PSCs contributing to a polluting PSC

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The output displays the following information:

The first interferer for the case above would be column 4-Int. The relative Pollution level is calculated as shown below: (4-int+5-int+6-int+...+10-int)/ (1-int+2-Int+…+10-Int)

Appendix E: CDMA Metrics Pilot The pilot metrics represents all metrics related to the pilot. Best Finger Ec/Io Average Ec/Io of the strongest finger. Sum Finger Ec/Io Aggregate Ec/Io value of all the fingers. Sum Active Set Ec/Io Summation of Ec/Io in active set. Sum All Set Ec/Io Summation of Ec/Io in all sets. Dominant Pilot Ec/Io The Ec/Io of the pilot with the strongest Ec/Io value across all sets. The Dominant pilot could be in the Active, Candidate, Neighbor or Remaining set. Best Ec/Io in Active Set The strongest Ec/Io value of all the pilots in the Active set. Best Ec/Io in Candidate Set The strongest Ec/Io value of all the pilots in the Candidate set. Best Ec/Io in Candidate Set from PSMM The strongest Ec/Io value of all the pilots reported in the Candidate set from the Pilot Strength Measurement Message (PSMM). If there are multiple PSMM messages in a bin, then the last PSMM message is used for this metric.

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Ec/Io for PN Average Ec/Io value of the selected PN across all sets. Only PNs present in the dataset are displayed in the drop down box. Ec for PN Average Ec value of the selected PN across all sets. Only PNs present in the dataset are displayed in the drop down box. Delay for PN Delay for the selected PN across all sets. Only PNs present in the dataset are displayed in the drop down box.

Delay Spread for PN Delay spread for the selected PN across all sets. Only PNs present in the dataset are displayed in the drop down box. SINR for PN SINR for the selected PN across all sets. Only PNs present in the dataset are displayed in the drop down box. Ec/Io for Nth Best Pilot Ec/Io for the Nth best PN across all sets. Only PNs present in the dataset are displayed in the drop down box. Ec for Nth Best Pilot Ec for the Nth best PN across all sets. Only PNs present in the dataset are displayed in the drop down box. Delay for Nth Best Pilot Delay for the Nth best PN across all sets. Only PNs present in the dataset are displayed in the drop down box. Delay Spread for Nth Best Pilot Delay Spread for the Nth best PN across all sets. Only PNs present in the dataset are displayed in the drop down box. SINR for Nth best PN SINR for the selected Nth best PN across all sets. Only PNs present in the dataset are displayed in the drop down box. Dominant Pilot PN Dominant PN for the part of the drive is displayed. Best Active Pilot PN Best Active PN is displayed.

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Best Active TX Antenna Polarization Search Window Active Set Search window for pilots in the Active Set (SRCH_WIN_A). Search Window Neighbor Set Search window for pilots in the Neighbor Set (SRCH_WIN_N). Search Window Remaining Set Search window for pilots in the Remaining Set (SRCH_WIN_R). Power The power metrics represents all metrics related to power. Rx Power The Received Power in the CDMA channel (includes useful energy and interference). Tx Power The Transmit Power of the phone. Transmit Power is the actual RF power output of the handset. Tx Power Adjustment The Transmit Power Gain Adjustment. Transmit Power Gain Adjustment is a running sum of all the power control bits. Rx Power By State This metric displays the Received Power in the CDMA channel for desired phone state. Dominant Pilot Ec The Ec (Chip Energy) of the dominant pilot. The dominant pilot is the pilot with the strongest Ec/Io across all sets. FER The FER metrics represents all metrics related to the Frame Error Rate. Forward FER Markov The Forward Frame Error Rate (FER) for Markov and Voice Calls. FFER-Markov is the percentage of forward frames received in error to the total received frames. Forward FCH FER The combined Forward Frame Error Rate for the Fundamental (FCH) Channel. It presents the percentage of Forward FCH frames received in error. In the case of voice calls, this metric should closely match the FFER-Markov, assuming all messages are captured correctly in the log file and the system is correctly set up to support Markov calls. Forward SCH FER The Forward Frame Error Rate for the Supplemental (SCH) Channel. It presents the percentage of Forward SCH frames received in error. A straight average is performed over SCH frames of all rates. Forward Weighted FER This metric presents the combined weighted Forward Frame Error Rate for the Fundamental

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(FCH) and Supplemental (SCH) Channel. It presents the percentage of Forward FCH and SCH frames, weighted by the individual frame rates, received in error. Forward Weighted SCH FER This metric presents the Forward Frame Error Rate for the Supplemental (SCH) Channel. It presents the percentage of Forward SCH frames, weighted by the individual frame rates, received in error. Data The Data metrics represents all metrics related to the Data. Forward Assigned Combined Rate The assigned data rate on the Forward link, which includes the combined Fundamental (FCH) and Supplemental (SCH) Channel data rates appropriately weighted. The assigned rate presents the rate offered by the fixed network, and is calculated based on both good and bad frames received over the downlink. Forward Assigned SCH Rate The assigned data rate on the Supplemental (SCH) Channel of the Forward link. The assigned rate presents the rate offered by the fixed network, and is calculated based on both good and bad frames received over the downlink. Forward Physical Layer Throughput The instantaneous Forward data throughput on the physical layer. This metric only counts the good frames when computing the throughput. Forward RLP Throughput The instantaneous Forward data throughput on the RLP layer. The Radio Link Protocol (RLP) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Forward RLP Accumulated Throughput The accumulated Forward data throughput on the RLP layer. The Radio Link Protocol (RLP) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Forward RLP Re-transmit Rate The retransmit rate on the RLP layer. It presents the percentage of retransmitted frames. The Radio Link Protocol (RLP) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Reverse Assigned Combined Reverse Rate The assigned data rate on the Reverse link, which includes the combined Fundamental (FCH) and Supplemental (SCH) Channel data rates appropriately weighted.

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Reverse Assigned SCH Rate The assigned data rate on the Supplemental (SCH) Channel of the Reverse link. The Radio Link Protocol (RLP) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Note that since the RLP involves handshaking between both the mobile and the fixed network to perform the retransmissions, therefore even the reverse link statistics may be obtained from the mobile end. Reverse RLP Throughput The instantaneous Reverse data throughput on the RLP layer. The Radio Link Protocol (RLP) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Note that since the RLP involves handshaking between both the mobile and the fixed network to perform the retransmissions, therefore even the reverse link statistics may be obtained from the mobile end. Reverse RLP Accumulated Throughput The accumulated Reverse data throughput on the RLP layer. The Radio Link Protocol (RLP) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Note that since the RLP involves handshaking between both the mobile and the fixed network to perform the retransmissions, therefore even the reverse link statistics may be obtained from the mobile end. Reverse RLP Re-transmit Rate The retransmit rate on the RLP layer. It presents the percentage of retransmitted frames. The Radio Link Protocol (RLP) layer sits above the physical layer, and is responsible for error checking and retransmissions over the typically noisy radio link. Metrics at this layer are often valued because they reflect the true performance offered by the radio link. Note that since the RLP involves handshaking between both the mobile and the fixed network to perform the retransmissions, therefore even the reverse link statistics may be obtained from the mobile end. Data Applications The Data Application metrics represents all metrics related to data at the higher layers. Data Application Type The type of data application, for e.g. FTP, HTTP etc. Forward Application Throughput The application layer throughput on the forward link.

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Forward PPP Throughput The PPP layer throughput on the forward link. Forward IP Throughput The IP throughput on the Forward link. Forward TCP Packets The TCP packets sent on the forward link. Forward UDP Packets The UDP packets sent on the forward link. Forward IP Packets The IP packets sent on the forward link. Forward PPP Packets The PPP packets on the forward link. .. Receive Round Trip Time This metric, displays the delay time for a packet to be received. Reverse Application Throughput The application layer throughput on the Reverse link. Reverse PPP Throughput The PPP layer throughput on the Reverse link. Reverse IP Throughput The IP throughput on the Reverse link. Reverse TCP Packets The TCP packets sent on the Reverse link. Reverse UDP Packets The UDP packets sent on the Reverse link. Reverse IP Packets The IP packets sent on the Reverse link. Reverse PPP Packets The PPP packets on the Reverse link. Send Round Trip Time This metric, displays the delay time for a packet to be sent. Reverse Link The Reverse Link metrics represents all metrics of the reverse link. Primary Digital Gain

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The Digital Gain for the primary sector. Average Forward FCH Tx Power The Average Transmit power of the Forward Fundamental Channel. Average Forward SCH Tx Power The Average Transmit power of the Forward Supplemental Channel. Reverse Best FCH Eb/No The best Eb/No of the Fundamental Channel. Reverse FCH FER (%) The Reverse Frame Error Rate for the Fundamental (FCH) Channel. It presents the percentage of Reverse FCH frames received in error. Reverse SCH FER (%) The Reverse Frame Error Rate for the Supplemental (SCH) Channel. It presents the percentage of Reverse SCH frames received in error. A straight average is performed over SCH frames of all rates. Reverse Weighted FER (%) This metric presents the combined weighted Reverse Frame Error Rate for the Fundamental (FCH) and Supplemental (SCH) Channel. It presents the percentage of Reverse FCH and SCH frames, weighted by the individual frame rates, received in error. Reverse Weighted SCH FER (%) This metric presents the Reverse Frame Error Rate for the Supplemental (SCH) Channel. It presents the percentage of Reverse SCH frames, weighted by the individual frame rates, received in error. Reverse Physical Layer Throughput The instantaneous Reverse data throughput on the physical layer. This metric only counts the good frames when computing the throughput Mobile The mobile metrics represents all metrics related to the phone state. Mobile Frequency Channel The frequency channel or CDMA carrier that the phone is locked onto. Call State The call state of the phone. Possible states are Idle, Access, Registration, Call Connection, and Page Response and Dedicated. Colors for the different Call State plots may be changed through „Mobile Threshold‟ menu System The system ID from the phone (Network). Network

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The Network ID from Network. EVDO The EVDO metrics represent all metrics related to wireless internet data solutions. EVDO Downlink Serving Pilot PN This metrics returns the PN identity of the serving pilot in each bin. EVDO Downlink Serving Pilot SINR The Downlink Serving Pilot SINR illustrates the average of the SINR values of the serving pilot in each bin. EVDO Best ASP SINR This metric illustrates the average of the SINR values of the strongest Active Set pilot in a bin. EVDO Best ASP C/I This metric plots the Windcatcher database field Best_active_C_to_I in the Phone_data table. The legends for this metric shall follow that used for the metric EVDO Best ASP SINR. EVDO Best Candidate C/I This metric sketches the Windcatcher database field Best_candidate_C_to_I in the Phone_data table. The legends for this metric will follow that used for the metric EVDO Best ASP SINR. EVDO Dominant Pilot C/I This metric shall plot the Windcatcher database field Dominant_PN_C_to_I in the Phone_data table. The legends for this metric shall follow that used for the metric EVDO Best ASP SINR. EVDO Forward PER The Forward PER is a measure of the packet error over the forward link. EVDO Rx Power Ant0 (dBm) This metric is, the average of all receive power values received in each bin for Antenna 0. EVDO Rx Power Ant1 (dBm) This metric is, the average of all receive power values received in each bin for Antenna 1. EVDO Rx Power Delta (dB) This metric is the difference between the Rx power of antenna 0 and the Rx power of antenna 1. EVDO Tx Pilot Power (dBm) The Tx Pilot Power metric is the average of all pilot transmit power values in each bin when the amplifier (PA) state is on. EVDO Forward RLP Average Bytes Request Per Nak This metric is a measure of the average number of bytes requested per NAK received over the forward link.

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EVDO Max Predicted DRC Rate The Max Predicted DRC Rate metric returns the maximum value of predicted DRC rate over all slots of all messages that appear in each bin. EVDO Avg Predicted DRC Rate The Avg Predicted DRC Rate metric returns the average value of predicted DRC rate over all slots of all messages that appear in each bin. EVDO Max Transmitted DRC Rate The Max Transmitted DRC Rate metric returns the maximum value of all DRC rates actually transmitted over the reverse DRC channel. Please note that this information is only available when the AT is in connected state. EVDO Avg Transmitted DRC Rate The Avg Transmitted DRC Rate metric illustrates the average value of all DRC rates actually transmitted over the reverse DRC channel. Please note that this information is only available when the AT is in connected state. EVDO Downlink Slot Occupancy-Current AT This metrics is the percentage of the slots on the downlink containing packets destined for the current AT. This metric is computed as the ratio of the number of slots with ACK sent over the uplink over total slots in bin. EVDO Reverse Offered Physical Layer Throughput This metrics is a measure of the throughput offered to the reverse link at the physical layer. The throughput is obtained by computing the average good packet throughput over the bin at the physical layer. Each packet is weighted by its rate when computing the throughput. Note that this throughput is instantaneous and is measured over the duration of the bin. EVDO Reverse RLP Average Bytes Request Per Nak This metric is a measure of the average number of bytes requested per NAK received over the reverse link. EVDO Average Predicted RRI The Average Predicted RRI provides the average of all predicted RRI values sent over the uplink in a bin. EVDO Actual RRI The Actual RRI is the average of all actual RRI values sent over the uplink in a bin. EVDO Reverse Rate Limit This metric sketches the values in the database field Reverse_rate_limit in the EVDO_data table. The default value of „0‟ should not be plotted. The legends for this metric will follow that used for the metric EVDO Actual RRI. EVDO Reverse PA Rate Limit This metric shall plot the values in the database field Reverse_PA_rate_limit in the EVDO_data

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table. The default value of „0‟ should not be plotted. The legends for this metric shall follow that used for the metric EVDO Actual RRI. EVDO UATI This metric plots the values in the database field UATI in the EVDO_data table. A unique color shall be assigned to each unique value of UATI seen, similar to how the legends are formed for the Mobile Frequency Channel metric. EVDO Rev A The EVDO Rev A metrics represent all metrics related to wireless internet data solutions. Reverse HiCap Physical Layer Throughput This metrics reports the physical layer throughput sent successfully over the reverse link of packets in the HiCap mode. Reverse LoLat Physical Layer Throughput The metric reports the physical layer throughput sent successfully over the reverse link of packets in the LoLat mode. Reverse Physical Layer Throughput This metric report the overall physical layer throughput sent successfully over the reverse link (both HiCap and LoLat combined). Reverse Number HiCap Kbits Transmitted This metric in conjunction with the reverse transmission time metric, can be used to reconstruct the instantaneous throughput values reported in each bin. Reverse Transmission Time This metric measures the reverse transmission time over which both the HiCap and LoLat bits were reported for the bin. This metric may be used along with the bit counts to reconstruct the instantaneous throughput values reported in the bin. Reverse HiCap Packet Error Rate This metric reports the packet error rate over the reverse links for packets in the HiCap mode. Reverse LoLat Packet Error Rate This metric reports the packet error rate over the reverse links for packets in the LoLat mode. Reverse Packet Error Rate This metric reports the packet error rate over the reverse links for all packets combined (HiCap and LoLat). Reverse Total HiCap Packet Transmitted This metric reports the total number of HiCap packets transmitted over the reverse link. This metric may be used along with the number of error packets to arrive at the instantaneous packet error rates reported in each bin.

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Reverse Total LoLat Packet Transmitted This metric reports the total number of LoLat packets transmitted over the reverse link. This metric may be used along with the number of error packets to arrive at the instantaneous packet error rates reported in each bin. Reverse HiCap Packet Error Packets This metric in conjunction with the total HiCap packets transmitted metric, can be used to reconstruct the instantaneous packet error rate values reported in each bin. Reverse LoLat Packet Error Packets This metric in conjunction with the total LoLat packets transmitted metric, can be used to reconstruct the instantaneous packet error rate values reported in each bin. Sub-Frame Utilization This metric reports the percentage of sub frames with sub packets sent over the reverse link for the AT. Total Reverse Sub-Frame This metric reports the total number of sub frames sent over the reverse link for the AT. Total Reverse Sub-Frame with Packets This metric reports the number of sub frames with sub packets sent over the reverse link for the AT. Reverse Number SubPacket0 Received Packets This metric reports the total number of packets sent over the reverse link in the bin where the packet transmission was successful in the first subpacket. Reverse Number SubPacket1 Received Packets This metric reports the total number of packets sent over the reverse link in the bin where the packet transmission was successful in the second subpacket. Reverse Number SubPacket2 Received Packets This metric reports the total number of packets sent over the reverse link in the bin where the packet transmission was successful in the third subpacket. Reverse Number SubPacket3 Received Packets Reverse Number SubPacket3 Received Packets This metric reports the total number of packets sent over the reverse link in the bin where the packet transmission was successful in the fourth subpacket. Forwards MUP Physical Layer Throughput This metric reports the forward physical layer throughput when the packets were specifically sent as multi-user packets. Forwards Total MUP KBits This metric reports the total number of MUP bytes received in each bin and may be used in conjunction with the MUP transmission time to reconstruct the instantaneous physical layer throughput reported for that bin.

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Forwards MUP Time This metric reports the total transmission time over which the MUP bytes were recorded and may be used along with these byte counts to arrive at the instantaneous physical layer throughput computed in each bin. Sector The Sector metrics represents all metrics related to the cell site sectors. Color By PN This metrics will color the sectors of the cell sites corresponding to the PN numbers. Color By Sector Id This metrics will color the sectors of the cell corresponding to the sector Id‟s. User Defined Color (CDMA) This metrics allows the user to color the sections of the cell sites with own defined colors. After selecting the User Defined Color metric, the following window will appear: You may then select the desired Threshold value to use when displaying the sector colors. Please note that these threshold values may be adjusted by going to the Threshold icon and selecting the Other Thresholds... function. (For more detail please view Thresholds section) Receiver The receiver metrics represent all metrics related to CW, Spectrum Analyzers or scanning receivers. Maximum RSSI The strongest RSSI value across all scanned frequencies. Minimum RSSI The weakest RSSI value across all scanned frequencies. Average RSSI The average RSSI value across all scanned frequencies. Frequency of Maximum RSSI The frequency value corresponding to the strongest RSSI. Channel of Maximum RSSI The channel number corresponding to the strongest RSSI. RSSI of Selected Frequency The RSSI values for the frequency selected in the drop down list. RSSI of Selected Channel The RSSI values for the channel selected in the drop down list. Advanced Metrics The Advanced metrics are developed based on certain conditions and combination of one or several

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basic metrics. a) IS95A Available Pilot The number of pilots available for handoff based on the IS95A handoff algorithm. All pilots with Ec/Io above the user defined threshold value will be considered as available candidate. This metric provides a good indication of the number of pilots that will be used in the Active Set if the IS95A algorithm is used. Note that this calculation is performed across all sets, and therefore is not restricted to problems that may arise with pilots not actually entering the Active Set due to neighbor list problems, cell resource problems, etc. b) IS95B Available Pilot The number of pilots available for handoff based on the IS95B/CDMA 2000 1XRTT handoff algorithm. All pilots with Ec/Io within the user defined range value of the best serving pilot and above the user defined threshold will be considered as available candidates. This metric provides a good indication of the number of pilots that will be used in the Active Set if the IS95B algorithm is used (though it does not exactly represent the algorithm used, it should serve as a close approximation). Note that this calculation is performed across all sets, and therefore is not restricted to problems that may arise with pilots not actually entering the Active Set due to neighbor list problems, cell resource problems, etc. c) Number of Pilot in Handoff The number of pilots in handoff as reported by the phone. As opposed to the IS95A and IS95B number of available pilot metrics, this metric reflects the actual number of pilots present in the Active Set. d) Number of Pilot by Set The number of pilots above the user defined threshold value, in the selected set. e) Pilot Usefulness Indicator Indicates state of pilot at each location. Only PNs present in the dataset are displayed in the drop down box. The pilot state could be one of the following: This metric presents the usefulness of the pilot along the drive route. During pilot optimization, it would generally be preferred to remove the pilot where it is less useful (such as when it is a weak contributor, pilot polluter, etc.) and strengthen it where it is the most useful (such as when it is the only pilot, dominant pilot, etc. f) Strong Non-Active Pilot Indicator The ratio of the best active to non-active pilot. A large positive value indicates the presence of a strong non active pilot. This metric indicates areas where poor performance could be attributed to a strong pilot that is prevented from entering the Active Set, and instead presenting itself as a significant interferer that may adversely affect the performance. g) Interference Margin (Voice) The amount of energy outside the active set for voice users. A large value indicates that there is significant interference for voice users. This metric is computed by summing the total pilot power seen and then subtracting the sum of all the pilots in the Active Set from it. A large value for this metric implies that there is significant pilot energy outside of the Active Set, which may present significant interference for voice users, especially under heavy loading.

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h) Interference Margin (Data) The amount of energy outside the active set for data users. A large value indicates that there is significant interference for data users. This metric is computed by summing the total pilot power seen and then subtracting the strongest pilot power in the Active Set from it. A large value for this metric implies that there is significant pilot energy outside of the Active Set, which may present significant interference for data users. The reason why only the strongest Active Set pilot is used is because this is the only pilot that is typically used during a data session, even in soft handoff areas. This is especially true of Lucent networks before ECP Release 21. i) No Soft Handoff Candidates The locations with low active Ec/Io (Ec/Io less then user defined threshold) and no available soft handoff candidates. This metric indicates all locations where the best active Ec/Io is less than a pre-defined threshold and there are no soft handoff candidates available with pilot strength above the threshold either. j) EVDO Downlink Serving to Best ASP SINR Diff This metric returns the average difference between the serving pilot SINR to the strongest Active Set pilot (Best ASP) SINR in each bin. A negative value for this metric in a bin means that the serving pilot was not the strongest pilot in the Active Set for that bin. The degree of difference is reflected in the metric value in dB. k) EVDO Virtual Handoff Time – Max (slots) This metric will display the database field for the maximum virtual handoff time detected within a time bin, over all virtual handoffs that occurred in that bin. Do not display this metrics for all bins with default value (-1). The default legends for this metric shall be as follows: 0-4, 4-8, 8-12, 12-16, 16-20, >20. l) EVDO Virtual Handoff Time – Min (slots) This metric will display the database field for the minimum virtual handoff time detected within a time bin, over all virtual handoffs that occurred in that bin. Do not display this metrics for all bins with default value (-1). The default legends for this metric shall be as follows: 0-4, 4-8, 8-12, 12-16, 16-20, >20. m) EVDO Virtual Handoff Time – Avg (slots) This metric will display the database field for the average virtual handoff time detected within a time bin, over all virtual handoffs that occurred in that bin. Do not display this metrics for all bins with default value (-1). The default legends for this metric shall be as follows: 0-4, 4-8, 8-12, 12-16, 16-20, >20. n) EVDO Virtual Handoff Count This metric will display the database field for the count of the number of virtual handoffs in each bin. Do not display this metrics for all bins with default value (-1). The default legends for this metric shall be as follows: 0-1, 1-2, 2-3, 3-5, 5-10, >10.

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PN Analysis The PN Analysis presents metrics for analyzing pilots in detail. This analysis uses both phone and PN scanner data. In the case of multiple frequencies scanned by a PN scanner there is a drop down selection for Frequency. a) Ec/Io of Selected PN The Ec/Io of the Selected PN. b) Ec of Selected PN The Ec of the Selected PN. c) Ec/Io of Selected PN as Nth Best Server The Ec/Io of the Specific PN as Nth Best server. This displays the locations where the specific PN is a Best Server. d) Ec of Selected PN as Nth Best Server The Ec of the Specific PN as Nth Best server. This displays the locations where the specific PN is a Best Server. e) Ec/Io of Nth Best Server The Ec/Io of the Nth Best Server (N is user definable). f) Ec of Nth Best Server The Ec of the Nth Best Server (N is user definable). g) Ec/Io Difference between Serving Pilots The Ec/Io difference between the Nth and Mth best server (where N and M are best, 2nd best, 3rd best server etc). h) Ec Difference between Serving Pilots The Ec difference between the Nth and Mth best server (where N and M are best, 2nd best, 3rd best server etc). i) Delay Spread of Selected PN The delay spread of the selected PN. j) Delay Spread of Selected PN as Nth Best Server The delay spread of the Specific PN as Nth Best server. This displays the locations where the specific PN is a Best Server. k) Delay Spread of Nth Best Server The pilot delay spread of the Nth Best Server (N is user definable). l) PN of Nth Best Server The pilot number for of the Nth Best Server (N is user definable). m) PN of Pilot Set The pilot number for of the Best Active, Best Candidate, Best Neighbor or Best PSMM PN (this

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plot only applies to Phone data). n) Delay of Selected PN The delay of the selected PN. o) Delay of Selected PN as Nth Best Server The delay of the Specific PN as Nth Best server. This displays the locations where the specific PN is a Best Server. p) Delay of Nth Best Server The pilot delay of the Nth Best Server (N is user definable). q) Io The total power (dBm) received for CDMA channel Problem Areas From troubleshooting menu click Problem areas. The following problem areas are pre-defined in WindCatcher. a) Poor Coverage This analysis identifies areas with poor coverage and no dominant pilot. These areas can experience poor performance like high FER, dropped and blocked calls. The network performance in these areas may also get worse during busy periods when the amount of interference is high. Query Condition: Rx Power < -95 Tx Power > 12 Dominant Pilot Ec/Io < -13 b) Pilot Pollution This analysis identifies areas with multiple pilots and no dominant pilot in an area with good receive power. Query Condition: Dominant Pilot Ec/Io < -12 Number pilots within 5 dB of best pilot > 4 Interference Margin (Voice) > 3 Rx Power > -85 c) Poor Pilot Dominance This analysis identifies areas with lack of a dominant pilot. Query Condition: Dominant Pilot Ec/Io < -10 Interference Margin (Data) > 3 d) Reverse Link Interference This analysis identifies areas experiencing reverse link interference. Also, these areas have good performance on the forward link. Query Condition: Tx power > 12

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Dominant Pilot Ec/Io > -12 Rx power > -85 Interference Margin (Voice) < 3 e) Un-necessary IS95A Handoff Zones This analysis identifies areas that have handoff zones based on the IS95A algorithm that would be eliminated by the IS95B / CDMA 2000 algorithm. Query Condition: Dominant Pilot Ec/Io > -10 IS95A Available Pilots (-13dB thresh) – IS95B Available Pilots (3dB range) > 0 Event Definitions A. Call Processing 1. Mobile Registration This sub category includes all events related to the registration process. Mobile Registration This event is triggered when the mobile registers with the network. Registration Failure This event is triggered when the mobile fails to receive acknowledgement from the network for registration. Registration Rejected This event is triggered when the registration request by the mobile is rejected by the network. 2. Call Origination This sub category includes all events related to the call origination process. Call Origination This event is triggered when the mobile initiates a call. Origination Access Probe Failure This event is triggered when the call origination attempt fails during the access probe state. Origination Failure – No CAM This event is triggered when the call origination attempt fails before a channel Assignment Message (CAM) is seen. Origination Failure – Other This event is triggered when the call origination attempt fails for other/unknown reasons. Call Start This event is triggered when an acknowledgement is received from the BTS regarding the service connect complete message. (Data Network Blocked and Data Application Failure) Mobile Re – Sync This event is triggered when the losing sync in the Idle mode and re-syncs.

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3. Page Response This sub category includes all events related to the call termination process. Page Response This event is triggered when the mobile responds to incoming call. Page Response Access Probe Failure This event is triggered when the call termination attempt fails during the access probe state. Page response Failure – No CAM This event is triggered when the call termination attempts fail before a channel Assignment Message (CAM) is seen. 4. Call Blocked This sub category includes all events related to the call blocking. Call Blocked – Reorder Order This event is triggered when the call attempt is blocked by the network with the reason given as “Reorder”. Call Blocked – Intercept Order This event is triggered when the call attempt is blocked by the network with the reason given as “Intercept”. Call Blocked – Power Cycled Order This event is triggered when the call attempt is blocked by the network with the reason given as “Power Cycled”. Call Blocked – Released This event is triggered when the call attempt is blocked by the network with the reason given as “Released”. Call Blocked – Service Option Rejected This event is triggered when the call attempt is blocked by the network with the reason given as “Service Option Rejected”. Call Blocked – Service Redirection This event is triggered when the call attempt is blocked by the network with the reason given as “Service Redirection”. Call Blocked – System Busy This event is triggered when the call attempt is blocked by the network with the reason given as “System Busy”.

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5. Call Connection This sub category includes all events related to the call connection phase. Traffic Channel Acquisition Failure This event is triggered when the call attempt fails because the mobile cannot acquire the traffic channel. Call Connected This event is triggered when the call successfully connects to the traffic state. Connection Failure This event is triggered when the call attempt fails because the mobile cannot connect to the network. Service Option Rejected This event is triggered when the call attempt fails because the network rejects the requested service option. 6. Call End This sub category includes all events related to the call end phase. Call End – Data Network Access Failure This event is generated when a call ends with call ends due to network access failure. Call Dropped This event is triggered when the call is dropped. Call Fail This event is triggered when there is an access failure. Mobile Release This event is triggered when the call is released by the mobile. Base Release This event is triggered when the call is released by the network. No Base Release after Mobile Release This event is triggered when the base release is not received after mobile release. Call End This event is triggered when the call ends but data is not available to determine the cause. Call End – Holding Time Expired This event is triggered when the hold time for a call exceeds the hold time defined the network. 7. Timers This sub category includes all events related to the timers.

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T5m Fade Time Expired This event indicates that the T5 fade timer has expired. The T5 timer expires when there are no two consecutive good frames for 5 seconds. T30m Loss of Paging Channel in Idle Mode T30m Loss of Paging Channel in idle Mode This event indicates that the Paging Channel has been lost in the idle state. During idle state if no paging channel message is received for more than 3 seconds the T30m event is triggered. T40m Loss of Paging Channel This event indicates that the Paging Channel has been lost in the access state. During access state if no paging channel message is received for more than 3 seconds the T40m event is triggered. T42m No Layer 3 Response This event indicates that the Paging Channel has been lost in the waiting for order state. After the access probe has been acknowledged if no paging channel message is received for more than 12 seconds the T42m event is triggered. N1m Retransmission Counter Expired This event indicates that the N1m Retransmission Counter has expired. The N1m retransmission counter expires when a Reverse link message is not acknowledged and it has to be retransmitted 13 times 8. Supplemental Channel Assignment This sub category includes all events related to the supplemental channel (SCH) processing. New SCH Assignment This event is triggered when a new SCH is assigned. SCH Assignment Continuation This event is triggered when the existing data burst is extended. SCH Anchor Transfer This event is triggered when an anchor transfer occurs on the SCH. New Reverse SCH Assignment This event is triggered when a new reverse SCH is assigned. Handoff Process a) Soft Handoff This sub category includes all events related to soft handoff. Soft Handoff Directed This event is triggered when the network directs the mobile to perform soft handoff. Soft Handoff Complete at Mobile This event is triggered when the mobile confirms that soft handoff has been completed.

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b) Hard Handoff This sub category includes all events related to hard handoff. CDMA 3G -> 2G Handoff Directed This event is triggered when the network directs the mobile to handoff from a 3G to a 2G network. Hard Handoff Directed This event is triggered when the network directs the mobile to perform a hard handoff. Hard Handoff Complete at Mobile This event is triggered when the mobile confirms that hard handoff has been completed. c) Handoff Failure This sub category includes all events related to handoff failure. Hard Handoff Completion Failure This event is triggered when the hard handoff attempt fails. Soft Handoff Completion Failure This event is triggered when the soft handoff attempt fails. Handoff Complete No HCM This event is triggered when the mobile confirms that hard handoff has been completed but HCM message is received. Network Problem a) Pilot Set Warning This sub category includes all events related to pilot warnings. Candidate PN from Remaining Set This event is triggered when the PN in the candidate set is from the remaining set. New Sync PN from Remaining Set This event is triggered when the Sync PN after call end is in the remaining set before the call end. b) High Forward Link FER This sub category includes all events related to high forward link FER. High Forward Link FER This event is triggered when the mobile experiences high forward FFER continuously for a specified duration. Vendor Events This category includes all events related to the application layer. Since the application layer is a function of the data collection device used, these events are categorized according to the different

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vendors. Please refer to Vendor documentation for explanation of these events. Others a) File Indicators This sub category includes all events related to file start and end. File Start This event is triggered when a new file is started. File End This event is triggered when a file is ends. b) Services This sub category includes all events related to Service redirection. Global Service Redirection This event is triggered when the network sends a service redirection message. c) Protocol Revision This sub category includes all events related to new system protocol revision. New System Protocol Revision This event is triggered when the calls protocol revision is changed. EVDO Call Processing This category includes all events related to EVDO Call Processing. a) Session This category lists all applications related to EVDO data session. EVDO Session Attempt Success This event is triggered when a specific session attempt log message is returned with Result = Received UATI Assignment message. EVDO Session Attempt Failure This event is triggered when a specific session attempt log message is returned with Result = Did not receive UATI Assignment message. EVDO Session Close This event is triggered when a specific session attempt is closed. b) Access Attempt This category lists all the application related to the access attempts. EVDO Access Probe Success This event is triggered when an AN acknowledgement is received in response to a Connection Request message sent by the AT requesting a connection for a call.

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EVDO Access Probe Failure This event is triggered when the AT fails to receive an AN acknowledgement in response to a Connection Request message sent by the AT requesting a connection for a call. c) Connection This category lists all events related to Connection. EVDO AT Connection Request This event is triggered when there is a connection request at the Access Terminal EVDO AN Connection Request This event is triggered when there is a connection request at the Access Network EVDO Connection Success This event is triggered when a Traffic Channel Assignment (TCA) message is received and both links are able to acquire the traffic channel. EVDO Connection Failure This event is triggered when the AT and AN fail to complete the connection after the initial access probe requesting the connection was successful. EVDO Connection Blocked This event is triggered when, upon a connection request, a specific log message is returned with the Result = Connection Denied. EVDO Call Start This event is triggered when a new EVDO call starts. EVDO Connection Access Network Release This event is triggered when a specific connection release log message is returned with the Reason = AN Connection Close. EVDO Connection Access Terminal Release This event is triggered when a specific connection release log message is returned with the Reason = AT Connection Close. EVDO Connection Dropped This event is triggered when a specific connection release log message is returned with the Reason = System Lost. EVDO Connection Release (Other) This event is triggered when a specific connection release log message is returned with any reason not already captured by other events. EVDO Traffic Channel Assignment This event is triggered by the EVDO layer3 “Traffic channel assignment” message under “Default route update”

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protocol. EVDO Traffic Channel Complete This event is triggered by the EVDO layer3 “Traffic channel complete” message under “Default route update” protocol. d) Handoff This category includes all events related to Handoff. EVDO Soft Handoff This event is triggered when an EVDO soft handoff is detected. EVDO Soft Handoff Complete This event is triggered when the soft handoff completion message is send from the mobile to the new and old BTS. EVDO Virtual Handoff This event is triggered whenever a change in DRC cover used in any slot is detected. If transition to null cover temporarily, then Serving PN = “None” during period when DRC Cover = 0. Unexpected DRC Cover Detected This event is triggered when an unexpected DRC Cover mode is detected on the DRC Channel. This configures the AT to use the DRC Cover Fixed Mode for FTAP and specifies the DRC Cover. EVDO Color Code Change This event is triggered by the EVDO layer3 “Quick configuration” message under “Overhead messages” protocol. Monitor 3G1X Paging from EVDO Connection This event is triggered when 3G1X paging message is detected during the time mobile is connected with EVDO service. Hybrid Mode EVDO _ 3G1X Call This event is triggered when a transition handoff from EVDO to 3G1X is detected. Hybrid Mode 3G1X _ EVDO This event is triggered when a transition handoff from 3G1X to EVDO is detected. e) Reverse Transmission This category lists all events related to the Reverse Transmission. EVDO XOn Each occurrence of the Layer 3 Reverse Traffic channel message Xon Request EVDO XOff

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Each occurrence of the Layer 3 Reverse Traffic channel message Xoff Request. Reverse Activity Bit Busy This event is triggered whenever the 1xEV Reverse Link Packet Summary message is received with the Combined Busy Bit field equal to 1.The event shall be added to the Reverse Transmission group under the EVDO Call Processing tab.

Appendix F: WiMax Metrics Basic Metrics WIMAX Serving RF This section consists of all metrics corresponding to the WIMAX Serving RF. WIMAX Serving RSSI (dBm) This metric plots the RSSI of the serving BSID in each bin. WIMAX Serving CINR (dB) This metric plots the CINR of the serving BSID in each bin. WIMAX Transmit Power (dBm) This metric plots the transmit power of the SS in each bin. WIMAX Serving BSID This metric plots the last serving BSID of the sector serving the SS in each bin. WIMAX Serving Preamble Index This metric plots the Preamble Index of the Serving BSID in each bin. WIMAX Serving Frequency (MHz) This metric plots the Serving Frequency for each bin. WIMAX BSID This section consists of metrics corresponding to WIMAX BSID WIMAX RSSI by BSID This metric plots the RSSI by BSID. WIMAX CINR by BSID This metric plots the CINR by BSID. WIMAX Preamble Index This section consists of metrics corresponding to WIMAX Preamble Index WIMAX RSSI by Preamble Index This metric plots the RSSI of the selected Preamble Index.

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WIMAX CINR by Preamble Index This metric plots the CINR of the selected Preamble Index. WIMAX Data Quality This section consists of metrics corresponding to Data Quality WIMAX Downlink PDU Error Rate (%) This metric plots the downlink PDU error rate experienced by the SS in each bin. Error Rate = Downlink PDU Error Count / Downlink PDU Total Count * 100%. WIMAX Downlink PDU Received Count This metric plots the total downlink PDU count sent to the SS in each bin. WIMAX Uplink PDU Transmitted Count This metric plots the total Uplink PDU count sent to the SS in each bin. WIMAX Handover Failure Rate (%) This metric plots the handover failure rate experienced by the SS in each bin. WIMAX Downlink Average Jitter (ms) This metric plots downlink average jitter experienced by the SS in each bin. WIMAX Uplink Average Jitter (ms) This metric plots uplink average jitter experienced by the SS in each bin. WIMAX Downlink Maximum Jitter (ms) This metric plots downlink maximum jitter experienced by the SS in each bin. WIMAX Uplink Maximum Jitter (ms) This metric plots uplink maximum jitter experienced by the SS in each bin. WIMAX Downlink Minimum Jitter (ms) This metric plots downlink minimum jitter experienced by the SS in each bin. WIMAX Uplink Minimum Jitter (ms) This metric plots uplink minimum jitter experienced by the SS in each bin. WIMAX Data Rate This section consists of metrics corresponding to Data Rate. WIMAX Downlink Application Layer Throughput (kbps) This metric reports the downlink application layer throughput to the SS in each bin. WIMAX Uplink Application Layer Throughput (kbps) This metric reports the uplink application layer throughput to the SS in each bin. WIMAX Downlink MAC Layer Throughput (kbps)

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This metric reports the downlink MAC layer throughput to the SS in each bin. WIMAX Uplink MAC Layer Throughput (kbps) This metric reports the uplink MAC layer throughput to the SS in each bin. WIMAX Downlink TCP Throughput (kbps) This metric reports the downlink TCP throughput to the SS in each bin. WIMAX Uplink TCP Throughput (kbps) This metric reports the uplink TCP throughput to the SS in each bin. WIMAX Downlink IP Throughput (kbps) This metric reports the downlink IP throughput to the SS in each bin. WIMAX Uplink IP Throughput (kbps) This metric reports the uplink IP throughput to the SS in each bin WIMAX Ping This section consists of metrics corresponding to Ping. WiMAX Average Round Trip Delay (ms) This metric plots the average round trip delays in each bin. WiMAX Maximum Round Trip Delay (ms) This metric plots the maximum round trip delay in each bin. WiMAX Minimum Round Trip Delay (ms) This metric plots the minimum round trip delay in each bin. WiMAX Number Pings This metric displays no of pings in each bin. WiMAX Ping Access Failure Rate (%) Metric under development WiMAX Ping Loss Count Metric under development WiMAX Ping Current Count Metric under development WIMAX Scan Data This section consists of metrics corresponding to Scan Data Scanner Best Preamble RSSI (dBm) This metric displays Best RSSI for all scanned preambles. Scanner Best Preamble CINR (dB)

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This metric displays CINR corresponding to the best reported RSSI. Scanner Best Channel RSSI (dBm) This metric displays Best Channel RSSI. Scanner RSSI by Preamble (dBm) This metric displays Scanner RSSI for the selected Preamble. Scanner CINR by Preamble (dB) This metric displays Scanner CINR for the selected Preamble. Scanner RSSI by Channel (dBm) This metric displays Scanner RSSI for the selected Channel. Troubleshooting From troubleshooting menu click Troubleshooting. The following problem areas are pre-defined in WindCatcher/WIMAX. Please note that set up has default values for all these troubleshooting functions. WIMAX Poor Coverage This metric identifies areas with poor coverage. Each time bin is flagged as having this problem area if the following condition is met: Serving RSSI < -95dBm WIMAX Negative Handover Area This metric identifies areas with negative handover. Each time bin is flagged as having this problem area if the following conditions are met: Serving RSSI < -90dBm AND (Best Neighbor RSSI – Serving RSSI) > 6dB WIMAX No Handoff Index Available This metric identifies areas where no handoff index is available. Each time bin is flagged as having this problem area if the following conditions are met: Serving RSSI < -90dBm AND (Serving RSSI - Best Neighbor RSSI) > 6dB WIMAX Possible Interference This metric identifies areas with possible interference. Each time bin is flagged as having this problem area if the conditions input by the user or the default value are met: Default value setting is Serving RSSI > -80dBm AND Serving CINR < 5dB. The user has the flexibility of entering any threshold for the two above metrics. WIMAX Co-Channel Interference Under this section, three metrics are available. Server to 1st Best Intra-FA Nbr RSSI Difference: This metric identifies area where there is a potential co-channel interferer based on the RSSI difference between Serving Preamble Index/Sector to 1st Best Intra-FA Neighbor. Server to 2nd Best Intra-FA Nbr RSSI Difference: This metric identifies area where there is a potential co-channel interferer based on the RSSI difference between Serving Preamble

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Index/Sector to 2nd Best Intra-FA Neighbor. Server to 3rd Best Intra-FA Nbr RSSI Difference: This metric identifies area where there is a potential co-channel interferer based on the RSSI difference between Serving Preamble Index/Sector to 3rd Best Intra-FA Neighbor. WIMAX Poor MAC Layer Throughput Analysis This metric identifies areas with poor MAC Layer data throughput. A bin is flagged as having this problem area if Downlink MAC Layer Throughput < 3Mbps. (A) Network Access (a) WiMAX Initial Ranging Request This event is triggered when the first RNG-REQ message is transmitted by the MS when it is INIT or SYNC state. (b) WiMAX Initial Ranging Retry This event is triggered every time the MS sends RNG-REQ message following the Initial RNGREQ message until the RNG-RSP message is received back from the BS. (c) WiMAX Location Update Ranging Request This event is triggered when the RNG-REQ message is transmitted with the Location Update Ranging Request Flag TLV enabled. (d) WiMAX Network Re-entry Ranging Request This event is triggered when the RNG-REQ message is transmitted with the Network Re-entry Ranging Request Flag TLV enabled. (e) WiMAX Initial Ranging Abort This event is triggered when the SS receives a RNG-RSP message with Abort Flag enabled. (f) WiMAX Initial Ranging Success This event is triggered when BS sends a RNG-RSP message in response to a RNG-REQ message sent by the SS which contains the BASIC CID and PRIMARY MANAGEMENT CID TLVs. (g) WiMAX Initial Ranging Failure This event is triggered when there is an initial RNG-REQ message seen but no corresponding RNGRSP message in 3.2 seconds. (h) WiMAX Basic Capability Request Failure This event is triggered when SS goes into SYNC State before sending out the SBC-REQ message. (i) WiMAX Basic Capability Response Failure This event is triggered when SS goes into SYNC State before receiving back the SBC-RSP message. (j) WiMAX Privacy Key Management Request Failure This event is triggered when SS goes into SYNC State before sending out the PKM-REQ message.

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(k) WiMAX Privacy Key Management Response Failure This event is triggered when SS goes into SYNC State before receiving back the PKM-RSP message. (l) WiMAX Registration Request Failure This event is triggered when SS goes into SYNC State before sending out the REG-REQ message. (m) WiMAX Registration Response Failure This event is triggered when SS goes into SYNC State before receiving back the REG-RSP message. (n) WiMAX Service Addition Request Failure This event is triggered when SS goes into SYNC State before sending out the DSA-REQ (Dynamic Service Addition Request) message. (o) WiMAX Service Addition Response Failure This event is triggered when SS goes into SYNC State before receiving back the DSA-RSP (Dynamic Service Addition Response) message or before sending out DSA-ACK (Dynamic Service Addition Acknowledge) message. (B) WiMAX Session (a) WiMAX Session Start This event is triggered when SS receives DSA-RSP message and acknowledges back by sending DSAACK message. (b) WiMAX Session End This event is triggered when SS sends DREG-REQ (SS De-Registration Message) to BS. (c) WiMAX Session Drop This event is triggered when SS goes to SYNC state before sending out DREG-REQ message. (C) Handover (a) WiMAX MS Handover Request This event is triggered when SS transmits MOB_MSHO-REQ (MS Handover Request) message when it wants to initiate HO. (b) WiMAX BS Handover Request This event is triggered when BS transmits MOB_BSHO-REQ (BS Handover Request) message. (c) WiMAX BS Handover Response This event is triggered when SS receives MOB_BSHO-RSP (BS Handover Response) message. (d) WiMAX BS Handover Response Failure This event is triggered when SS goes into SYNC state without receiving MOB_BSHO-RSP (BS Handover Response) message.

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(e) WiMAX Handover Indicator This event is triggered when SS transmits MOB_HO-IND message for final indication that it is about to perform a HO. (f) WiMAX Handover Cancel This event is triggered when SS transmits MOB_HO-IND message with flag set to Cancel. (g) WiMAX Handover Reject This event is triggered when SS transmits MOB_HO-IND message with flag set to Reject. (h) WiMAX Handover Ranging Request This event is triggered when SS transmits RNG REQ message with Handover flag enabled (that is, TLV RangingPurposeIndication = 1). (i) WiMAX Handover Ranging Response This event is triggered when SS receives RNG RSP message which contains BASIC CID and PRIMARY MANAGEMENT CID TLVs. (j) WiMAX Handover Success This event is triggered when there is a match between BSID in HO Indicator Message and the next chip status message. The handover latency associated with this event is measured from the HO-IND to RNG-RSP message (which contains the CID TLVs). (k) WiMAX Handover Failure This event is triggered when there is either a mismatch between BSID in HO Indicator Message and next chip status message OR when the RNG RSP message is not received by MS with BASIC CID and PRIMARY MANAGEMENT CID TLVs and the SS goes to SYNC state. (E) Others (a) WiMAX Data File Start This event is triggered for the first time stamp and location in the drive data. (b) WiMAX Data File End This event is triggered for the last time stamp and location in the drive data.

Appendix H: Event Definitions GSM EVENTS Call Setup GSM Alerting This event is triggered when MSC informs the mobile that the called subscriber is being alerted via a ring.

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GSM Call Start If there is no Call Origination message available and a DCCH, SACCH or FACCH is seen, the event GSM Call Start is generated. GSM Call Start Emergency The Call Start Message when trying to call an emergency number. The mobile phone and the SIM card have a preprogrammed list of emergency numbers. GSM Call Start (Page response) This event is triggered when mobile responds to an incoming call. Mobile receives RR PAGING REQUEST TYPE 3 message and in response it sends a RR CHANNEL REQUEST message on RACH to access a channel. GSM Call Start (Mobile Originated) This event is triggered when mobile initiates a call. This event is triggered by Channel Request message. This message requests the Base Station System (BSS) for allocation for radio resources for the RR connection setup. The mobile now waits for an assignment on the Access Grant Channel (AGCH). GSM Call Start (location Update) In an idle mode whenever the mobile location is updated it establishes a RR connection to send the location update to the network. This event is triggered by the message GSM Call Established This event is triggered by GSM CC Connect Message on SACCH Channel. This message is sent by MSC to inform mobile that the call is connected. GSM Access Failure Call Setup Failure before GSM RR Immediate Assignment message Setup Failure GSM Call Connected This event is triggered as soon as the call is connected and SACCH, FACCH or DCCH is seen of the first time after the Idle mode. Call handover GSM Assignment The event is triggered on GSM RR Assignment command message on DCCH. MSC informs the BSS about the allocated voice circuit. The call is also switched from signaling to voice. The BSS notifies the Mobile about the changeover to voice mode. GSM Assignment Complete The event is triggered on GSM RR Assignment Complete message on DCCH. This is mobile‟s acknowledgement to Assignment message. GSM Assignment Failure The event is triggered if the Assignment is failed.

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GSM Radio Link Failure This event is triggered when the Radio link cannot be established. GSM Handover This event is triggered on GSM RR Handover Command. GSM Handover failure this event is triggered when the handover attempt fails. In reply to Handover Command message if GSM RR handover failure message appears on DCCH. GSM Negative Handover After handover if the Rx Lev of new channel is 3db less than the previous channel, negative handover event is triggered. GSM Ping Pong Handover if the handover is done again within 3 seconds to the previous channel Ping Pong handover event is triggered. Location Update Location Update It is generated when periodic Location update takes place. The event is triggered on GSM MM Location Updating request message. Location Update Rejected The event is triggered when the location update fails i.e. on the generation of the GSM MM Location Updating reject message. Signal Quality GSM High Rx Qual The event is triggered when the Rx Qual Sub in the Measurement Report is greater or equal to 5. Call End GSM Call Dropped This message is triggered when the call is dropped. GSM Call Blocked Call Setup failure after the GSM RR Immediate Assignment message and before Call Established are referred as Blocked Calls. GSM Channel Normal Release This event is triggered when the Channel is released normally.

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GSM Channel Abnormal Release This event is triggered when the channel is abnormally released. GSM Channel Release without Call release This event is triggered when the channel is released without the call being released. GSM Call End The event comes when the call is released. The event is triggered on the Channel Release Message on GMS RR DCCH. GPRS Event Connection Setup MM Attach Request: This event is triggered by GPRS MM –Attach Request Message. It is the request by UE to start the Data session. MM Attach Accept If the attached request is accepted this event is generated. The event is triggered by GPRS MM –Accept Request Message MM Attach Complete When the Attach is accepted, the MM Attach Complete message is sent by the UE. It is triggered by GPRS MM –Attach Complete Message MM Attach reject If the attached request is rejected this event is generated. MM Detach Request When the session is completed, detach is requested to finish the connection. It is triggered by GPRS MM – Detach Request Message. MM Detach Accept This event is generated when the detach request is acknowledged and accepted by the UE. It is triggered by GPRS MM – Detach Accept Message. Call Start – GPRS Connection This event is triggered when the channel is requested by UE. It is triggered on GSM RR – Channel Request Message. GSM Call Start Retry If the Channel request by UE is not acknowledged first time and channel is requested again by UE this event is generated. GSM Immediate Assignment-Dedicated mode This event is triggered on GSM RR – Immediate Assignment Message with Mode defined as Dedicated. GSM Immediate Assignment-TBF Page 176

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This event is triggered on GSM RR – Immediate Assignment Message with Mode defined as BF i.e. Temporary Data Flow. A TBF is temporary and is maintained only for the duration of the data transfer GPRS Packet Downlink Assignment This event is generated when the Packet is ready to be sent on the downlink. GPRS Packet Uplink Assignment This event is generated when the Packet is ready to be sent on the uplink. Activate PDP Context request This event is triggered by GPRS SM –Active PDP Context Request message. It is the request by UE to start the Data session. Deactivate PDP Context request When the session is completed, Deactivate PDP Context is requested to finish the connection. It is triggered by GPRS SM – Deactivate PDP Context Request message. Deactivate PDP Context request-Abnormal Cause When the Deactivate PDP Context is requested due to session being ended abnormally, this event is generated. Call End Activate PDP Context Accept If the Activate PDP Context request is accepted this event is generated. The event is triggered by GPRS SM – Active PDP Context Accept message. Activate PDP Context Reject If the Activate PDP Context request is rejected this event is generated. Modify PDP Context Accept If the Activate PDP Context request is accepted with some conditions this event is generated. Deactivate PDP Context Accept This event is generated when the Deactivate PDP Context request is acknowledged and accepted by the UE. It is triggered by GPRS SM – Deactivate PDP Context Accept Message. UMTS Events Call Setup UMTS Connection Request This event Is triggered when UMTS Connection request is made. It is triggered by RRC Connection Request on CCCH. Page 177

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UMTS Connection Rejected This event is triggered when UMTS Connection Request is rejected UMTS Connect request retry It is triggered when the second or onward Connection requests are made. UMTS Connection Access Failure It is the Setup failure before RRC Setup Connection Complete UMTS RRC Established This event is generated when the RRC connection is established. This is generated by RRC UMTS Alerting This event is triggered when MSC informs the mobile that the called subscriber is being alerted via a ring. It is generated when GSM CC Alerting message is triggered UMTS Radio Link Failure This event is triggered when the Radio link cannot be established. UMTS Call established This event is generated when the Call is established. It is triggered by GSM CC-Connect message. State Transition UMTS Cell Update request The event is generated when the UE requests a Cell Update procedure. The event is triggered by Cell Update Message. UMTS Cell Update Retry The event is generated if the Cell Update request of UE is not acknowledged by the RNC and it sends the Cell Update Request again. Active Set Update The event is generated when the UTRAN/RNC sends the Active Set Update message to update the UE‟s active set while in the Cell DCH state. Active Set Update Complete The event is triggered when the Active set Update is completed on the UE. The event is triggered by Active Set Update Complete Message. UMTS directed retry Attempt Directed retry re-directs the traffic to neighboring cells in case of congestion in Call Setup. This event is generated when the attempt to Direct Retry is made. UMTS directed retry success Directed retry re-directs the traffic to neighboring cells in case of congestion in Call Setup. This event is generated when the attempt to Direct Retry is successful. UMTS Directed Retry Failure Page 178

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Directed retry re-directs the traffic to neighboring cells in case of congestion in Call Setup. This event is generated when the attempt to Direct Retry is failed. UMTS DCH to FACH Transition The event is triggered when transition from Dedicated Channel to Forward Access Channel is made. UMTS DCH to PCH transition The event is triggered when transition from Dedicated Channel to Paging Channel is made. UMTS DCH to URA_PCH Transition The event is triggered when transition from Dedicated state to URA_PCH(UTRAN Registration Area _ Paging Channel) state is made. In URA_PCH state the UE will perform CELL UPDATE only when the URA is changed for a UE. UMTS FACH to DCH transition The event is triggered when transition from Forward Access Channel to Dedicated Channel is made UMTS FACH to PCH transition The event is triggered when transition from Forward Access Channel to Paging Channel is made UMTS FACH to URA_PCH Transition The event is triggered when transition from Forward Access Channel to URA_PCH is made. UMTS PCH to FACH transition The event is triggered when transition from Paging Channel to Forward Access Channel is made UMTS URA_PCH to FACH transition The event is triggered when transition from URA_PCH to Forward Access Channel is made. UMTS FACH to Idle Mode Transition The event is triggered when transition from Forward Access Channel Idle mode is made. UMTS Inter Frequency Handover Directed The event is triggered on the Inter Frequency Handover Command. UMTS Inter Frequency Handover Success The event is generated if the Inter frequency handover is successful. UMTS Inter Frequency Handover Failure The event is generated if the Inter frequency handover fails. HSDPA Serving Cell Repoint For Data when the Cell is changed this event is triggered. UMTS to GSM Transition

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The event is generated when the transition from UMTS to GSM is made GSM to UMTS transition The event is generated when the transition from GSM to UMTS is made Inter-RAT Handover GSM to UTRAN Directed The event is triggered when the handover is directed from GSM to UMTS. The event is triggered by handover to UTRAN Message Inter-RAT Handover GSM to UTRAN Complete The event is triggered when the handover is successfully completed from GSM to UMTS. The event is triggered by Handover Complete Message Inter-RAT Handover UTRAN to GSM Directed The event is triggered when the handover is directed from UMTS to GSM. The event is triggered by handover from UTRAN Message Inter-RAT Handover UTRAN to GSM Complete The event is triggered when the handover is successfully completed from UMTS to GSM. The event is triggered by Handover Complete Message Inter-RAT Handover GSM to UTRAN Failure The event is triggered when the handover from GSM to UMTS is not successful. Inter-RAT Handover UTRAN to GSM Failure The event is triggered when the handover from UMTS to GSM is not successful GSM Monitoring UMTS The event is generated when the UE is on GSM network and UMTS network is being monitored UMTS Monitoring GSM The event is generated when the UE is on UMTS network and GSM network is being monitored Inter-RAT Cell Change Order from UTRAN The event is triggered when the Cell Change order is directed from UMTS to GPRS/EGPRS for Data. The event is triggered by Cell Change Order from UTRAN Message Inter-RAT Cell Change Order from UTRAN Failure The event is triggered when the Cell Change Order from UMTS to GPRS/EGPRS is not successful. Inter-RAT Cell Change Order to UTRAN The event is triggered when the Cell Change order is directed from GPRS/EGPRS to UMTS for Data. The event is triggered by Cell Change Order to UTRAN Message Inter-RAT Cell Change Order to UTRAN Failure

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The event is triggered when the Cell Change order from GPRS/EGPRS to UMTS is not successful. UMTS Compressed Mode Start Compressed mode is needed if the UE needs to perform Inter-Frequency or Inter-RAT measurements. This event is triggered when the Compressed Mode Starts. UMTS Compressed Mode End Compressed mode is needed if the UE needs to perform Inter-Frequency or Inter-RAT measurements. This event is triggered when the Compressed Mode Ends. HSDPA Started The event is triggered when the HSDPA Session starts. It is triggered by Radio Bearer Setup Complete Message. HSDPA Stopped This event is triggered when HSDPA session stops HSUPA Started The event is triggered when the HSUPA Session starts. HSUPA Stopped This event is triggered when HSUPA session stops Signal Quality UMTS High BLER This event is generating when the BLER is higher than a specific threshold. Call End UMTS Dropped Call Drop Calls are triggered after CC Alerting (CS) or SM Activate PDP Context Accept (PS) UMTS Call blocked Setup Failures after RRC Connection Setup Complete and before CC Alerting (CS) or SM Activate PDP Context Accept (PS) are categorized as Block Calls UMTS Abnormal End The event is generated when there is any abnormal call end. UMTS UE Release The event is generated when the user end the call. UMTS Ran Release The event is generated when the system releases the call. This is triggered by RRC Connection Released Message.

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