Lecture 8: Traffic Signal Transportation Engineering.
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Transcript of Lecture 8: Traffic Signal Transportation Engineering.
Lecture 8: Traffic Signal
Transportation Engineering
2
Critical LaneThis concept is used for the allocation of the 3600
seconds in the hour to lost time and to productive movement.
The amount of time required for each signal phase is determined by the most intensely used lane which is permitted to move during the phase.
All other lane movement in the phase require less time than the critical lane.
The timings of any signal phase is based on the flow and lost times of the critical lane.
Each signal phase has one and only one critical lane.
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Capacity (using critical Lane volume)Capacity can be maximum sum of critical lane volumes
that a signal can accommodate.the max. total volume that can be handled on all
critical lanes for a given time budget (within an hour),
tL total lost time per phaseN is total number of phases in a cycle C is cycle length
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1 36003600 ( )( )( )c LV N t
h C
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Capacity (using critical Lane volume)
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•the effect of number of phases and cycle time on Vc
•Lost time remains constant through out (h= 2.15s, lost time = 3s/phase)
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ExampleThe cycle length is 40 sec, 2 phase cycle and saturation headway 2.3sec. What should be the lane numbers for each approach?
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Solution1 3600
3600 (2)(3)( )2.3 40cV
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Adding consideration of v/c ratio and PHF
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(volume-to-capacity) V/C ratio:
flow rate in a period expressed as an hourly equivalent over capacity (saturation flow rate)
the proportion of capacity being utilized
A measure of sufficiency of existing or proposed capacity
V/C ratio = 1.00 is not desirable
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Adding consideration of v/c ratio and PHF
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Peak Hour Factor (PHF) :
To account for flow variation within an hour
PHF
For 15 min. aggregate volume, PHF =
The lower the value, the greater degree of variation in flow during an hour.
hourly volume (vph)
maximum rate of flow (vph)
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V
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Adding consideration of v/c ratio and PHF
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Adding consideration of v/c ratio and PHF
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Min. cycle length,
Considering desired v/c ratio,Considering peaking within hour,
Desirable cycle length,
min
13600
L
c
NtC
Vh
min
1PHF 3600
L
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NtC
Vv c h
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Adding consideration of v/c ratio and PHF
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12Effects of right-turning vehicles Right turns can be made from a
Shared lane operation Exclusive lane operation
Traffic signals may allow permitted or protected right turn
Right-turning vehicles look for a gap in the opposing traffic on a permitted turning movement, which is made through a conflicting pedestrian or an opposing vehicle flow.
Right-turning vehicles consume more effective green time than through vehicles.
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13Effects of right-turning vehicles
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14Effects of right-turning vehiclesThrough Car Equivalent
Example: with an opposing flow of 700 vph which has no platoon structure, it is observed that the right lane of the figure processes two RT vehicles and three TH vehicles in the same time that the left lane processes 17 TH vehicles. What is the “THcar” equivalent of one right-turning vehicle (RT equivalent) in this case?
3 + 2 ERT = 17 or ERT = 7In this situation, 1 RT vehicle is equivalent to 7 TH vehicles in terms of headway.
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15Effects of right-turning vehiclesThrough Car Equivalent
depends on the opposingflows, and the number of opposing lanes
The right turn adjustment factor is related to the fraction of RT vehicles and the TH equivalency
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RTf
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ExampleExample: consider an approach with 10% RT, two
lanes, permitted RT phasing, a RT equivalency factor of 5, and an ideal saturation headway of 2 sec per veh. Determine
(1) the equivalent saturation headway for this case,(2) the saturation flow rate for approach, and (3) the adjustment factor for the sat. flow rate? (adj.
flow rate / sat flow rate of TH vehicles)
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Performance measures
Del
ay
Delay
Queuing
Stops
Delay most directly affects driver experience.
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Performance measures
Del
ay
Stopped Time Delay: time a vehicle stopped waiting to pass the intersection.
Approach Delay:
stopped time + acceleration + deceleration
Travel Time Delay: (actual travel time-desired travel time)
Time-in-queue Delay: Total time from joining a queue to passing the stop line
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Delay
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Webster’s uniform delay (UD) formula
Webster’s Delay Model
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Webster’s Delay Model Webster’s uniform delay (UD) formula
Red time,
Height of the triangle,
Area of the triangle, (UD)
Average delay per vehicle,
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UD=2 1
C g c
v s
Del
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Webster’s optimum cycle length
developed based on minimization of overall delay at intersection
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Webster’s optimum cycle length D
elay
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Notes on cycle length
Optimum cycle length is min. delay point of the suitable curve
Unnecessarily long cycle lengths cause substantial delays; short cycle lengths may cause congestion or violate the pedestrian crossing times.
Cycle lengths between 45 and 180 s are used in the field. All cycle lengths typically end in 0 or 5; thus, if the cycle length estimate is 52s, a cycle equal to 50 or 55s should be selected.D
elay
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Notes on cycle length Optimum cycle length is min. delay point of the
suitable curve
Unnecessarily long cycle lengths cause substantial delays; short cycle lengths may cause congestion or violate the pedestrian crossing times.
Cycle lengths between 45 and 180 s are used in the field. All cycle lengths typically end in 0 or 5; thus, if the cycle length estimate is 52s, a cycle equal to 50 or 55s should be selected.
Del
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ExampleConsider an approach volume of 1000 vph, saturation flow rate of 800vphg, cycle length 90 s and g/C ratio 0.55.What average approach delay per vehicle is expected?
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