Parameter Optim 2

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optimization in LTE...

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8) Set Adaptive RBG Allocation Strategy Set Adaptive RBG Allocation Strategy : MOD CELLDLSCHALGO: LocalCellId=x, RbgAllocStrategy=ADAPTIVE

If this parameter is set to ROUND_DOWN, all allocated RBs are fully utilized, spectral efficiency is high, but cell throughput is relatively low. If this parameter is set to ROUND_UP, a few allocated RBs are not utilized, spectral efficiency is low, but cell throughput is relatively high. Compared with setting this  parameter to ROUND_UP,setting ROUND_UP,setting this parameter to ADAPTIVE does not waste waste RBs when the number of required RBGs is less than 1. 



9) Set Adaptive Enhanced CFI Set Adaptive Enhanced CFI :MOD CELLPDCCHALGO:PdcchSymNumSwitch=ECfiAdaptionON If this parameter is set to OFF, the number of OFDM symbols occupied by the PDCCH is fixed and cannot be dynamically adjusted. If this parameter is set to ON, the number of OFDM symbols occupied by the PDCCH is dynamically adjusted based on the number of r equired CCEs, and therefore cell downlink throughput increases. If this parameter is set to ECFIADAPTIONON, ECFIADAPTIONON, the dynamic adjustment of the number of OFDM symbols occupied by the PDCCH considers cell downlink throughput, throughput, and therefore can reach higher throughput when downlink frequency selective scheduling is enabled. 





10) Activate PDCCH Capacity improvement Switch Activate PDCCH Capacity improvement switch : MOD CELLPDCCHALGO: LocalCellId=0, PdcchCapacityImproveSwitch=ON; Setting this parameter to ON offers the following benefits:

PDCCH capacity is expanded, and therefore cell throughput increases; the uplink CCE allocation success rate increases, and therefore the access success rate increases and service drop rate decreases; the CCE allocation success rate increases, and therefore cell throughput increases.  



11) UL Interference Randomization Set Adaptive Interference Randomizatio Randomization n : MOD CELLULSCHALGO: CELLULSCHALGO: LocalCellId=x LocalCellId=x,, UlRbAllocationStrategy=FS_INRANDOM_ADAPTIVE; If this parameter is set to FS_INRANDOM_ADAPTIVE, FS_INRANDOM_ADAPTIVE, inter-cell interference decreases. Both throughput of cell edge users (CEUs) and the total cell throughput increase when the cell is lightly loaded, and throughput of CEUs increases but the total cell throughput may decrease 

When the cell is heavily loaded. Setting this parameter to the default value FS_NONFS_ADAPTIVE has no impact on network performance 

12) Activate DMRS Scheduling for Uplink timing Activate the mechanism of optimized demodulation reference signal (DMRS) scheduling for uplink timing : MOD TATIMER: LocalCellId=0, TimingResOptSwitch=ON

If this parameter is set to OFF, more DMRS resources are consumed for uplink timing when sounding reference signal (SRS) resources are not configured for UEs in heavily loaded cells where there is a large number of UEs. As a result, the access success rate and uplink and downlink throughput decrease, and the service drop rate increases. If this parameter is set to ON, DMRS resources used for uplink timing decrease. As a result, the access success rate and the uplink and downlink throughput do not decrease, and the service drop rate does not increase in heavily loaded cells where there is a large number of UEs. However, the uplink and downlink throughput of UEs that move faster than 120 km/h decreases because of delayed uplink timing. 



13) Deactivate UL Pre-allocation Deactivate UL Pre-allocation : MOD CELLALGOSWITCH: LocalCellId=0, UlSchSwitch=PreAllocationSwitch-0;

if preallocation is enabled, the delay of uplink data transmisstion is shortened, but the uplink interference and UE power comsumption are increased. if preallocation is disabled, the delay of uplink data transmission is increased, but the uplink interference and UE power consumption are decreased. 



14) Activate Special Signaling Re-transmission Enable Special Signaling Re-transmission : MOD ENODEBALGOSWITCH: HighLoadNetOptSwitch=SPECSIGRETRANSOPTSWITCH-1;

15) PDCCH & PDSCH Downlink Scheduling Balance If this switch is on and the number of UEs in the cell is large, the number of retransmitted inter-RAT handover commands and the RRC Connection Release messages decreases, and less air interface resources are consumed. 

If this switch is off, some UEs may not reply to HARQs/ARQs of inter-RAT handover commands, which causes the eNodeB to retransmit inter-RAT handover commands repeatedly. In addition, some UEs may not send ACK to the eNodeB in response to the RRC Connection Release messages, which causes the eNodeB to retransmit the RRC Connection Release messages repeatedly. When one of the preceding conditions is met, uplink and downlink throughput in the cell may decrease. 

16) DataThdInPdcchPdschBal : DL Scheduling : MOD CELLDLSCHALGO: LocalCellId=0, DataThdInPdcchPdschBal= 17000, UeNumThdInPdcchPdschBal=100;

Setting this parameter to 0 has no impact on network performance. Setting this parameter to a non-zero value increases the physical resource block (PRB) usage in the PDSCH and downlink throughput in large traffic volume scenarios. A smaller value of this parameter results in a higher probability of a bearer being determined as a bearer with large packets. A larger value of this parameter results in a lower probability of a bearer being determined as a bearer with large packets.  





17) UeNumThdInPdcchPdschBal : If the number of synchronized UEs in the cell is less than this parameter value, the network performance is not affected. If the number of synchronized UEs in the cell is greater than or equal to this parameter value, PDCCH and PDSCH resources are balanced, increasing PRB usage in the PDSCH and downlink throughput in large traffic volume scenarios. 



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