level of service
Short Description
level of service...
Description
1.0 INTRODUCTION Level of Service (LOS) is defined as a qualitative measure describing operational conditions within a traffic steam and their perception by motorists and passenger. Six classifications are used to define LOS, designated by the letters A through F. LOS A represents the best conditions, while LOS F represents heavily congested flow with traffic demand exceeding highway capacity.
The prediction of LOS for a multilane highway involves three steps: (1) Determination of free-flow speed (2) Adjustment of volume (3) Determination of level of service Based on our observations at the entrance of UTHM from 8.45am until 9.45am, the majority of the class of vehicle is Class B that is car. From the observations, we saw that the heavy vehicles like buses and van were at the left line while other small vehicles at the right line of the road. The flow of traffic is free flow and no congested were happened. Precaution that we can take during do this survey, we have to wear a safety jacket. It is dangerous if we don’t wear it, because vehicle maybe can’t see us. Lastly, don’t forget to use the safety cone and flags for additional safety. So, the vehicle can more careful.
2.0 OBJECTIVE To determine the capacity and level of service of the UTHM signalized intersection using JKR Arahan Teknik (Jalan) procedure.
3.0 APPARATUS 1. Measuring Tape/Odometer 2. Forms HC1, HC2 and HC3 3. Analog Counter 4. Safety Vest 5. Safety Cones 6. Flags 4.0 PROCEDURE
1) At the UTHM Signalised Intersection, we have to conduct a traffic movement count on all approaches (each line separately) for one hour in four segments of 15 minutes. The data have been recorded in the Tables 1 – 10. 2) The width of lane we measure to get the width, W (in meter) for all approaches and the data have been recorded in the table 11. 3) We also measure the green time, g (sec) and cycle time, C(sec). the data are recorded in table 12 4) Convert the traffic volumes in table 1 -10 to passanger car unit ( p.c.u). This is taken as the design flow, q (pcu/hr) which then be used in Table 11. 5) The saturation flow, S’ (p.c.u/hr) are adjusted for each approach and transfer the value to Table 11 6) By this, the value of y, can be compute, ehich is the ratio of design flow to adjusted saturation flow. Also, Y value, which is the total value of y for each approach. 7) The, calculate the intergreen time, I (sec) and total lost time per cycle L (sec) Y prac 8) The practical capacity, and reserved capacity, RC of the intersection are determined. 9) Lastly, determined the average stopped dealy per vehicle, d (sec) and level of service for each approach.
5.0 DATA ANALYSIS TABLE 1 Approach (Movement): PARIT RAJA (RIGHT-TURN) Day/Date: 4/3/2015 (WEDNESDAY)
Time: 8.45 – 9.45 a.m
Lane: 1 Weather: Good
TRAFFIC COUNT VEHICLE CLASS
TIME 1
2
3
4
8.45-9.00 am
23
61
2
3
9.00-9.15 am
26
77
1
3
9.15-9.30 am
24
54
3
0
9.30-9.45 am
22
65
0
2
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 95 257 6
Factor 0.33 1.00 1.75
31.35 257.00 10.50
Trucks) Class 4 (Heavy Trucks &
8
2.25
18.00
Buses) Total
366 Note: p.c.u passenger car unit
316.85
TABLE 2 Approach (Movement): PARIT RAJA (THROUGH) Day/Date: 4/3/2015 (WEDNESDAY)
Lane: 2
Time: 8.45 – 9.45 am
Weather: Good
TRAFFIC COUNT VEHICLE CLASS
TIME
8.45-9.00 am
1
2
3
5
18
52
6
6
9.00-9.15 am
10
102
7
4
9.15-9.30 am
6
78
6
5
9.30-9.45 am
0
98
12
2
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 34 330 31
Factor 0.33 1.00 1.75
11.22 330.00 54.25
Trucks) Class 4 (Heavy Trucks &
17
2.25
38.25
Buses) Total
412
433.72
Note: p.c.u passenger car unit
TABLE 3 Approach (Movement): PARIT RAJA (THROUGH) Day/Date: 4/3/2015 (WEDNESDAY)
Lane: 3
Time: 8.45 – 9.45 am
Weather: Good
TRAFFIC COUNT VEHICLE CLASS
TIME 1
2
3
5
8.45-9.00 am
15
23
5
12
9.00-9.15 am
26
60
4
25
9.15-9.30 am
18
54
5
16
9.30-9.45 am
27
54
10
26
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 86 191 24
Factor 0.33 1.00 1.75
28.38 191.00 42.00
Trucks) Class 4 (Heavy Trucks &
79
2.25
177.75
Buses) Total
380
439.13
Note: p.c.u passenger car unit
TABLE 5 Approach (Movement): UTHM (RIGHT-TURN) Day/Date: 4/3/2015 (WEDNESDAY)
Lane: 1
Time: 8.45 – 9.45 am
Weather: Good
TRAFFIC COUNT VEHICLE CLASS
TIME 1
2
3
5
8.45-9.00 am
2
10
1
0
9.00-9.15 am
5
12
1
2
9.15-9.30 am
5
20
0
0
9.30-9.45 am
13
27
0
3
Vehicle Class Class 1 (Motorcycles)
Traffic Volume
p.c.u.
p.c.u.
(Veh/hour) 25
Factor 0.33
8.25
Class 2 (Cars) Class 3 (Vans & Medium
69 2
1.00 1.75
69.00 3.50
Trucks) Class 4 (Heavy Trucks &
5
2.25
11.25
Buses) Total
101
92.00
Note: p.c.u passenger car unit
TABLE 6 Approach (Movement): UTHM (LEFT-TURN)
Lane: 2
Day/Date: 4/3/2015 (WEDNESDAY)
Time: 8.30 am
Weather: Good
TRAFFIC COUNT VEHICLE CLASS
TIME 1
2
3
5
8.45-9.00 am
2
4
1
1
9.00-9.15 am
2
15
2
1
9.15-9.30 am
11
16
2
5
9.30-9.45 am
10
23
0
1
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 25 58 5
Factor 0.33 1.00 1.75
8.25 58.00 8.75
Trucks) Class 4 (Heavy Trucks &
8
2.25
18.00
Buses) Total
96
93.00
Note: p.c.u passenger car unit
TABLE 7 Approach (Movement): BATU PAHAT (U-TURN) Day/Date: 4/3/2015 (WEDNESDAY)
Time: 8.45 – 9.45 am Weather: Good TRAFFIC COUNT VEHICLE CLASS
TIME 1
2
3
5
8.45-9.00 am
1
8
0
0
9.00-9.15 am
2
17
3
0
9.15-9.30 am
4
8
3
0
9.30-9.45 am
8
11
4
1
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 15 44 10
Factor 0.33 1.00 1.75
4.95 44.00 17.50
Trucks) Class 4 (Heavy Trucks &
1
2.25
2.25
Buses) Total
70 Note: p.c.u passenger car unit
68.7
TABLE 8 Approach (Movement): BATU PAHAT (THROUGH) Day/Date: 4/3/2015 (WEDNESDAY)
Lane: 2
Time: 8.45 – 9.45 am
Weather: Good
TRAFFIC COUNT VEHICLE CLASS
TIME 1
2
3
5
8.45-9.00 am
18
31
16
16
9.00-9.15 am
30
40
23
25
9.15-9.30 am
14
59
35
20
9.30-9.45 am
14
54
20
28
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 76 184 94
Factor 0.33 1.00 1.75
25.08 184.00 164.50
Trucks) Class 4 (Heavy Trucks &
89
2.25
200.25
Buses) Total
443
573.83
Note: p.c.u passenger car unit
TABLE 9 Approach (Movement): BATU PAHAT (THROUGH)
Lane: 3
Day/Date: 4/3/2015 (WEDNESDAY)
Time: 8.45 – 9.45 am
Weather: Good
TRAFFIC COUNT VEHICLE CLASS
TIME 1
2
3
5
8.45-9.00 am
3
42
14
7
9.00-9.15 am
0
63
13
5
9.15-9.30 am
0
60
9
1
9.30-9.45 am
0
74
8
4
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 3 239 44
Factor 0.33 1.00 1.75
0.99 239.00 77.00
Trucks) Class 4 (Heavy Trucks &
17
2.25
38.25
Buses) Total
303
355.24
Note: p.c.u passenger car unit
TABLE 10 Approach (Movement): BATU PAHAT (LEFT-TURN) Day/Date: 4/3/2015 (WEDNESDAY)
Time: 8.45 – 9.45 am TRAFFIC COUNT VEHICLE CLASS
Weather: Good
TIME
1
2
3
5
8.45-9.00 am
12
27
1
2
9.00-9.15 am
10
21
1
1
9.15-9.30 am
11
25
0
0
9.30-9.45 am
17
31
0
1
Vehicle Class
Traffic Volume
p.c.u.
p.c.u.
Class 1 (Motorcycles) Class 2 (Cars) Class 3 (Vans & Medium
(Veh/hour) 50 104 2
Factor 0.33 1.00 1.75
16.50 104.00 3.50
Trucks) Class 4 (Heavy Trucks &
4
2.25
9.00
Buses) Total
160
133.00
Note: p.c.u passenger car unit
TABLE 11
PHASE Movement W (m) S’ (pcu/hr) q(pcu/hr) y= q/S’ y
I
PT 2
PT 3
II
PT 4 B T 2
BT3
PT 2
III
PT 3
PT 4 PR 1
IV
PR 1
BU 1
UR 1
U R 1,2
4m
4m
-
4m
4m
4m
4m
-
4m
4m
4m
4m
9m
1603.4 4 433.72
1603.4 4 439.13
-
1603.4 4 355.24
1603.4 4 433.72
1603.4 4 439.13
-
1603.4 4 316.85
1603.4 4 316.85
1603.4 4 68.70
1603.4 4 92.00
428.40
-
1603.4 4 573.83
0.27
0.27
-
0.36
0.22
0.27
0.27
-
0.20
0.20
0.04
0.06
0.22
0.28
0.25
0.12
93.00
0.14
Key: P = Parit Raja Approach; B = Batu Pahat Approach; U = UTHM Approach T = Through; R = Right-turn; L = Left-turn 1 = Lane 1; 2 = Lane 2; 3 = Lane 3; 4 = Lane 4
Example calculation of adjusted saturation flow S’
S’ = S ×
Fg
×
Fr
×
Fl
×
Ft
S’ = 1965 × 1.00 × 0.96 × 1.00 × 0.85 = 1603.44 (pcu/hr)
Y=
y1
+
y2
+
y3
+
y4
= 0.27 + 0.27 + 0.36 + 0.22
= 0.28
Amber time, a
= 3 sec
All-red period, R
= 2 sec
Intergreen time, I
= a + R = 5 sec
Drivers’ reaction time, l = 2 sec Number of phases, n = 4 Total lost time, L
= n(I – a) + nl = 4(2-3) + (4)(2)
= 4 sec
Practical capacity, Yprac
= 0.9 – 0.0075L = 0.9 – 0.0075(4) = 0.87
Reserve capacity, RC = 100% × ( Yprac – Y ) / Y
= 100% × (0.87-0.28) / 0.28 = 210.71
TABLE 12 phase movemen t C (sec) g (sec)
λ=g /C S’ (pcu/hr) q (pcu/hr)
q s =(p cu/sec) x= q/λ S’ d (sec)
I
PT 2
PT 3
II
PT 4 B T 2
BT3
PT 2
III
PT 3
PT 4 PR 1
PR 1
IV
BU 1
UR 1
U R 1,2
112 90 0.80
112 90 0.80
-
112 90 0.80
112 90 0.80
112 90 0.80
112 90 0.80
-
110 17 0.15
110 17 0.15
80 32 0.40
80 32 0.40
80 32 0.40
1603. 44
1603. 44
-
1603. 44
1603. 44
1603. 44
1603. 44
-
1603. 44
1603. 44
1603. 44
1603. 44
428. 40
433.7 2 0.12
439.1 3 0.12
355.2 4 0.10
433.7 2 0.12
439.1 3 0.12
316.8 5 0.09
92.00
-
316.8 5 0.09
68.70
-
573.8 3 0.16
0.02
0.03
93.0 0 0.03
0.34 3.43
0.34 3.43
-
0.45 4.19
0.28 3.09
0.34 3.43
0.34 3.43
-
1.32 17.37
1.32 17.37
0.11 13.86
0.14 14.07
0.54 26.0
-
-
4
LOS
A
A
-
A
A
A
A
-
C
C
B
B
D
Example calculation for delay and determination of LOS
d=
=
9 10
9 10
2
(
C (1− λ) 2(1− λx)
(
1−(0.8)(0.34) 2¿ 112(1−0.8)2 ¿
+
x2 ¿ 2 q s (1−x )
+
0.34 2 ¿ (2)(0.12)(1−0.34)
= 3.43 sec (LOS = A (
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