Transit Signal Priority Evaluation and Performance Measures
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Transcript of Transit Signal Priority Evaluation and Performance Measures
Transit Signal Priority Evaluation and Performance Measures
Miguel A. FigliozziProfessor Civil and Environmental EngineeringPortland State University
NITC Webinar - October 26, 2016
BackgroundโTransit Signal Priority
2
Transit signal priority (TSP)* is the process of:- detecting transit vehicles approaching signalized
intersections and- adjusting the signal phasing in real time to reduce
transit delay
*Furth, P. G., and T. H. J. Muller. Conditional Bus Priority at Signalized Intersections: Better Service with Less Traffic Disruption.
In Transportation Research Record: Journal of the Transportation Research Board, No. 1731, TRB, National Research Council, Washington, D.C., 2000, pp. 23โ30.
3
TSP Elements
3
(a) An onboard priority request generator
(b) A detection system that receives the priority request and informs the traffic controller
(c) A priority control strategy at the signal controller
BackgroundโTransit Signal Priority
4
Why TSP ?
Benefits*
- Improve transit reliability- Allow late bus recovery - Speed improvements?- TSP is relatively inexpensive and โeasily
implementedโ
*Albright, E., & Figliozzi, M. (2012). Factors influencing effectiveness of transit signal priority and late-bus recovery at signalized-intersection level. Transportation Research Record: Journal of the Transportation Research Board, (2311), 186-194.
Evaluation? Not so easyโฆ
BackgroundโTransit Signal Priority
5
Evaluation methods
โข Analytic: Lin (2002); Abdy & Hellinga (2011)
โข Simulation: Furth & Muller (2000); Dion et al. (2004)
โข Empirical: Kimpel et al. (2005); Albright & Figliozzi (2012)
Performance measures
โข Bus travel time
โข Schedule adherence
โข Headway variability
โข Delay for other vehicles
โข Lack of effectiveness and efficiency performance
Pre-install
Before / after, using bus data and at the corridor level
Not a comprehensive list !
Why another study?
6
Evaluation methods
โข Real-world data
โข Several intersections
โข Integration of:
โ bus data location with
โ signal timing and phases
Performance measures
โข At the intersection level
โข New PMs to measure TSP effectiveness and
efficiency
โข Comparison of early green (EG) and green
extension (GE) strategies
Study Corridor
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21st 26th 33rd 39th 42nd 50th 52nd 65th 69th 71st, 72nd 82ndMilwaukie
12 SCATS signals
SE Powell Blvd.
Bus Route 9
Bus Route 66
Near-side: 26th EB26th WB
33rd EB 42nd EB43rd WB
72nd EB
Far-side: 50th EB50th WB33rd WB
39th EB39th WB 72nd WB
52nd EB52nd WB
65th EB65th WB
69th EB 71st EB
Far-side (12)
Near-side (6)Stop-to-stop segment
9
TSP in our case study
9
Green extensionEarly Green
Kamila Widulinski and Matthew Lapointe (2013)
TSP request is sent when: 1) on-route,2) doors are closed, and3) >30 seconds late.
(a) An onboard priority request generator
(b) A detection system that receives the priority request and informs the traffic controller
(c) A priority control strategy at the signal controller determines whether to grant a TSP phase, which TSP phase shouldbe granted, and when the TSP phase should start and end
SCATS: adaptive traffic control
10
0
20
40
60
80
100
120
140
E W E W E W E W E W E W E W E W E W E W E W E W
MKE 21st 26th 33rd 39th 42nd 50th 52nd 65th 69th 71st 72nd
Seco
nd
s
Intersections / Directions
Median Cycle Length, Green phase and red phase duration
Red
Green
Data Integration
11
Bus ALV/APC Database
SCATS Vehicle Counts
Database
SCATS Signal Phase Log Database
Bus Stop-to-Stop Trip Database
TSP Performance
Evaluation
Geometry, trajectories
VERY DIFFICULT !!!
TSP Phases
12
โข An early green phase truncates a red phase and begins the green phase early to help transit vehicles begin moving early
โข A green extension phase extends a green phase to speed bus passage through an intersection before the signal turns red
13
EG Phase: trajectories and probabilities
๐1
Arrival time
Departure time
๐ ๐๐
๐ ๐๐ = ๐ธ๐บ๐
๐
๐๐ก๐
๐๐ก๐
๐ ๐+1๐ ๐ ๐+1
๐
๐ฃ๐๐๐ฅ
๐2 ๐ฃ๐๐๐ฅ๐ก๐๐ก๐
๐ธ๐บ๐๐
EB Mke_21st
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 26th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0EB 33rd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 39th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 42nd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 50th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 52nd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 65th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 69th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
EB 71st
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0EB 72nd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 21st_Mke
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 26th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 33rd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 39th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 42nd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 50th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 52nd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0WB 65th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 71st_69th
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
WB 72nd
speed (mph)
Density
0 5 15 25 35
0.0
00.1
00.2
0
am
We know bus times and locations before/after crossing the intersection We know signal timing and phases
We do not know bus arrival time at the intersection
GE Phase : trajectories and probabilities
14
๐1
Arrival time
Departure time
๐ ๐๐ ๐ ๐
๐
๐๐ก๐
๐๐ก๐
๐บ๐ธ๐๐ = ๐ ๐+1
๐ = ๐ก๐
๐ ๐+1๐
๐ฃ๐๐๐ฅ
๐2๐ก๐
๐บ๐ธ๐๐
Forensic work: many potential cases depending on the stop departure and arrival times, timing of the phases, and bus speed probability distribution
Research Objectives/Questions
15
โข Define performance measures
โข Green extension (GE) vs. early green (EG)? Which one is more effective?
โข Time savings tradeoffs: buses, passengers, main arterial, and cross streets
Proposed Performance Measures
16
โ TSP Frequencyโข Is TSP working properly?
โ TSP Responsiveness โข Are TSP phases granted after a request?
โ TSP Timeliness โข From the bus point of view
โข What is the probability of benefiting from a TSP phase request?
โข What is the expected time saved per request?
โ TSP Efficiency โข From the traffic signal system point of view
โข What is the expected bus/passenger time saved per phase granted?
โข Normalized to seconds per second of TSP phase duration
TSP Frequency
17
0102030405060708090
26th 33rd 39th 42nd 50th 52nd 65th 69th 71st 72nd
Average number of bus trips per day
requested TSP did not request TSP
0102030405060708090
26th 33rd 39th 42nd 50th 52nd 65th 69th 71st 72nd
Average number of TSP phases per day
Green Extension (GE) Early Green (EG)
Is the system working?
Responsiveness: Actual Outcomes of TSP Requests
18
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
EB WB EB WB EB WB EB WB EB WB EB WB EB WB EB WB
39th 42nd 50th 52nd 65th 69th 71st 72nd
Neither GE nor EG EG Both GE and EG GE
near
near
near
Granted within a cycle
TSP Timeliness: GE
19
a b cd
ne
ar
ne
ar
ne
ar
0%10%20%30%40%50%60%70%80%90%
100%
EB WB EB WB EB WB EB WB EB WB EB WB EB WB EB WB
39th 42nd 50th 52nd 65th 69th 71st 72nd
d: no GE a: late GE b: on time GE c: early GE
20
TSP Timeliness: EG
a b cd
0%10%20%30%40%50%60%70%80%90%
100%
EB WB EB WB EB WB EB WB EB WB EB WB EB WB EB WB
39th 42nd 50th 52nd 65th 69th 71st 72nd
d: no EG a: late EG b: on time EG c: early EG
ne
ar
ne
ar
ne
ar
TSP Effectiveness
21
0%10%20%30%40%50%60%70%80%90%
100%
EB WB EB WB EB WB EB WB EB WB EB WB EB WB EB WB
39th 42nd 50th 52nd 65th 69th 71st 72nd
on-time EG on-time EG on-time GE on-time GE
near
near
near
Probability that a bus requesting TSP will benefit from a TSP phase
Passengers: avg. time saved per TSP Request
22
ฯ๐ ๐๐๐๐ ๐ ๐๐ฃ๐๐๐ ๐๐๐๐ ๐บ๐ธ๐ฯ๐ ๐๐๐ ๐๐๐๐ข๐๐ ๐ก๐
ฯ๐ ๐๐๐๐ ๐ ๐๐ฃ๐๐๐ ๐๐๐๐ ๐ธ๐บ๐ฯ๐ ๐๐๐ ๐๐๐๐ข๐๐ ๐ก๐
0
5
10
15
20
25
39th 42nd 50th 52nd 65th 69th 71st 72nd
seco
nd
sfrom GE from EG
i = intersection index
Y axis: average total passenger time savings per TSP request
Passengers: Avg. Time Saved per EG phase
23
0
20
40
60
80
100
120
140
EB WB EB WB EB WB EB WB EB WB EB WB EB WB EB WB
39th 42nd 50th 52nd 65th 69th 71st 72nd
seco
nd
snear-side far-side
ฯ๐ ๐๐๐๐ ๐ ๐๐ฃ๐๐๐ ๐๐ ๐ธ๐บ๐
ฯ๐ ๐ธ๐บ๐
Y axis: average total passenger time
per second of granted EG phase
Passengers: Avg. Time Saved per GE phase
24
0
20
40
60
80
100
120
140
EB WB EB WB EB WB EB WB EB WB EB WB EB WB EB WB
39th 42nd 50th 52nd 65th 69th 71st 72nd
seco
nd
s
near-side far-side
ฯ๐ ๐๐๐๐ ๐ ๐๐ฃ๐๐๐ ๐๐ ๐บ๐ธ๐
ฯ๐ ๐บ๐ธ๐
NOTE: same scale for the vertical axis
Y axis: average total passenger time
per second of granted GE phase
TSP Efficiency (Time Saving vs. Delay)
25
TSP phase
Time savings for major street bus and traffic
Delays for vehicles on the minor street
Time savings for major street traffic
GE or EG
Minor streets delay is greatly affected by queue length at the time EG or GE is granted; this is especially important when cross streets have a significant traffic volume.
Summary of Findings
26
Green extension โข Too many late green extension phasesโข Overall time savings โ Delay
Early green โข Overall time savings > Delay
TSP performance โข Vary significantly across intersectionsโข Opportunity: significant gap between actual
and ideal performance
Discussion
27
โข Findings from this study may be site-specific, but the methodology is transferable to other corridors/cities
โข Proposed TSP performance measures can help identify problems/improvement opportunities
โข Laborious and difficult data integration process
โข Importance of synchronization and data accuracy (dealing with a few seconds)
Discussion
28
โข Reliable data transmission, accurate bus location, fast response from the controller
โข Impacts of queuing, bus stop location, and signal detection/communication reliability (check in/out)
โข Too many GE phases? Better location and data transfer technology may be needed for GE
โข SCATS: what is the TSP logic?
โข Glass half full or half empty?
References
โข Feng, W., Figliozzi, M., & Bertini, R. L. (2015). Empirical Evaluation of Transit Signal Priority: Fusion of Heterogeneous Transit and Traffic Signal Data and Novel Performance Measures. Transportation Research Record: Journal of the Transportation Research Board, (2488), 20-31.
โข Albright, E., & Figliozzi, M. (2012). Factors influencing effectiveness of transit signal priority and late-bus recovery at signalized-intersection level. Transportation Research Record: Journal of the Transportation Research Board, (2311), 186-194.
โข Feng, W. (2014). Analyses of bus travel time reliability and transit signal priority at the stop-to-stop segment level. Portland State University, PhD dissertation.
โข Papers can be downloaded from: http://www.pdx.edu/transportation-lab/publications-by-area
โข Report can be downloaded from: http://trec.pdx.edu/research/researcher/Figliozzi/4164/related/products