3 development of a multi-modal aimsun model for the gta · 2017-08-21 · a mesoscopic dta multi...
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A Mesoscopic DTA Multi Modal Aimsun Model for the GTA
Islam Taha, PhD CandidateBaher Abdulhai, PhDAmer Shalaby, PhD
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Outline
The case for Dynamic
Traffic Assignment
The UofT Aimsun GTA
DTA model
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Why do we need dynamic system representation and modelling? We need accurate representation of cost of travel:
in transportation planning in traffic engineering /operations
Static Network Analysis and Models: variables of interest that are time-invariant the concept of user equilibrium traffic assignment may or may not directly correlate with physical measures describing congestion (e.g. flow
density ..)
Dynamic Network Analysis and Models: more detailed representation of the interaction between travel choices, traffic flows, and
time and cost measures in not only spatially but also temporally coherent manner. Dynamic Traffic Assignment combines time-dependent route choice (assignment) concepts
and traffic flow theory
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Typical VDF (BRP) Simple Traffic Model 4
Modelling Congestion: Static vs. Dynamic Models
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Drawbacks and Limitations of Static Models
Conceptual Drawbacks Allow V/C >1, has no intuitive meaning, does not correspond to reality
or real measurements Restricted to FIFO Cannot model traffic moving in different lanes Inflow = Outflow, i.e.
Single value of link flow Steady state representation only Cannot capture temporal congestion spread and spill-back
Application Limitations: cannot do Signal synchronization HOV and HOT Lanes Evacuation, congestion pricing optimization ITS applications, ATMS, ATIS, RM, Adaptive Control
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Now: What is Dynamic Traffic Assignment (DTA)?
In a network with many OD zones and a time period of interest, for each OD pair and departure time, all used routes have equal and lowest experienced travel time (generalized cost).
Compared with Static Traffic Assignment below:
In a network with many OD zones, for each OD pair, all used routes have equal and lowest travel time (generalized cost).
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Experienced vs Instantaneous Travel Time
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Link travel timewhen entering thelink at each minute
Travel time for departing at min 1 = 3 min
Travel time for departing at min 2 = 6 min
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(a) Instantaneous travel time calculation
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Link travel timewhen entering thelink at each minute
Travel time for departing at min 1 = 9 min
Travel time for departing at min 2 = 8 min
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(b) Experienced travel time calculation
• Note how the modelling period is sliced into assignment intervals• Experienced travel time is much different from instantaneous
and can only be realized after the fact of going through the trip
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Different shortest paths obtained by instantaneous travel time and experienced travel time approaches (departure time 1)
Instantaneous Path Travel Time Calculation
(Shortest Path for Departure Time 1)
Experienced Path Travel Time Calculation
(Shortest Path for Departure Time 1)
(I‐A) Travel time for path 1‐2‐4‐6 = 1+1+1 = 3
(E‐a) Travel time for path 1‐2‐4‐6 = 1+2+6 = 9
(I‐b) Travel time for path 1‐2‐5‐6 = 1+2+1 = 4
(E‐b) Travel time for path 1‐2‐5‐6 = 1+3+1 = 5
(I‐c) Travel time for path 1‐3‐5‐6 = 2+2+1 = 5
(E‐c) Travel time for path 1‐3‐5‐6 = 2+1+1 = 4
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Simulation DUE/DTA Algorithmic Structure
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What to use iterative DTA for:10
Operational planning (or planning for operations) aimed at making planning decisions that are likely to induce a spatio-temporal (temporal, spatial or both) pattern shift of traffic among different roadway facilities at a corridor or network wide level.
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Illustration: Static vs. Dynamic Modelling
Illustrative Example: consider 2 identical O-D pairs with 4000 vph demand 4 identical routes, each with capacity of 2000 vph Routes b and c pass through a bridge with capacity of
4000 vph
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Static vs. Dynamic Modelling
If the capacity of the bridge is or drops to 2000 vph, evaluate the performance of both static and dynamic modelling during the transient and at steady state?
x
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Static vs. Dynamic Modelling
At steady state Static Dynamic
Before capacity drop
All routes carry 2000 vph All routes carry 2000
After capacity drop • Some traffic shifts to outer routes
• On the bridge flows are greater than capacity
• Just before the bridge, flows are less than capacity which implies abnormally high speeds
• Precise amount of traffic shifts to outer routes
• On bridge, flows cannot exceed capacity
• Congestion spills back to the origins affecting all upstream links
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Static vs. Dynamic Modelling
Static Dynamic
Steady state traffic flows at the bridge
Flows greater than capacity on all routes (v/c >1)
Flows limited to the capacity
Steady state traffic flows upstream of bridge
Flows less than capacity and high speeds
Congestion spills back upstream from the bridge
Transient state Cannot be modelled Properly captures gradual congestion spreading on inner routes (time variant travel costs)
Can be modelled in both one-shot and iterative
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Static vs. Dynamic Modelling • Transient state after capacity drop: Congestion
Static:
Dynamic:
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Static vs. Dynamic Modelling • Steady state after capacity drop: Congestion
Static:
Dynamic:
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Policy implications
If the purpose of the analysis is to identify the bridge for expansion (typical planning), both approaches would somewhat do, despite the misrepresentation of static.
If the purpose of the analysis is to adjust the spatio temporalpatterns of traffic (changes in departure time, route choice etc.), which is typical in over congested networks, only dynamic models should be used, static cannot do and can be misleading or even wrong (tolling the outer routes for instance).
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Mesoscopic DTA Multi-modal Model for the GTA
Mesoscopic model covers most of the GTA, focusing on freeways,
major arterials, and arterials carrying TTC vehicles
Dynamic traffic assignment captures how congestion evolves over
time
Multi-modal model includes driving, transit (GO, TTC, parts of
MiWay), and park-and-ride
The model simulates AM peak trips
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Model Development
12,986 Nodes29,422 Links26,769 Km
HOV Tolled Freeway
Ramp Arterial
Metering
Signalized
Non-signalized
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Model Development
Destination Zones
1 2 ⋯ 1497
Orig
in Zon
es 1 0 2300 ⋯ 9847
2 9984 2208 ⋯ 0
⋮ ⋮ ⋮ ⋱ ⋮
1497 6788 9188 ⋯ 398
Destination Zones
1 2 ⋯ 1497
Orig
in Zon
es 1 0 2300 ⋯ 9847
2 9984 2208 ⋯ 0
⋮ ⋮ ⋮ ⋱ ⋮
1497 6788 9188 ⋯ 398
Destination Zones
1 2 ⋯ 1497
Orig
in Zon
es 1 0 2300 ⋯ 9847
2 9984 2208 ⋯ 0
⋮ ⋮ ⋮ ⋱ ⋮
1497 6788 9188 ⋯ 398
Destination Zones
1 2 ⋯ 1497
Orig
in Zon
es 1 0 2300 ⋯ 9847
2 9984 2208 ⋯ 0
⋮ ⋮ ⋮ ⋱ ⋮
1497 6788 9188 ⋯ 398
1497 Traffic ZonesTravel Demand
36 Million records
During AM Peak436,000 Hourly Trips
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Model Development
Land Information Ontario (LIO)
GIS database (links, nodes, signals, etc.)
Transportation Tomorrow Survey (TTS)
Travel demand and traffic zones
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Model Development
The GIS model
Auxiliary lanes Speed limits Traffic signals
Travel demand data
Flip-flopping data trend
Background demand
Intra-zonal demand
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Model Development: Travel Demand
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Original Demand Filtered GTA Demand
The GIS model
Auxiliary lanes Speed limits Traffic signals
Travel demand data
Flip-flopping behavior
Background demand
Intra-zonal demand
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Model Development: Travel Demand
The GIS model
Auxiliary lanes Speed limits Traffic signals
Travel demand data
Flip-flopping behavior
Background demand
Intra-zonal demand
05000
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6:00
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Model Development: Travel Demand
The GIS model
Auxiliary lanes Speed limits Traffic signals
Travel demand data
Flip-flopping behavior
Background demand
Intra-zonal demand
0
50000
100000
150000
200000
250000
6:00
6:15
6:30
6:45
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7:15
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Tota
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Time interval
Total GTA and Background Demand
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DTA Setup
• Mesoscopic DUE
• Iterative (30 iterations)
• Experienced travel times
• Road attractiveness:
• Jam density:
• Fixed reaction time:
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DTA Outputs
• Flow, speed, density, queue length, travel time, …
• Network-wide statistics
• Sections, nodes, traffic signals, turns, …
• Vehicle trajectories
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Model Calibration
Observed vs. Simulated
Parameter Tweaking
Simulation
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Calibration: Observed vs Simulated
Observed vs. Simulated
Parameter Tweaking
Simulation
• Loop detectors• Google maps
• 176 loop detectors / updated every 20 sec
0
2000
4000
6000
8000
10000
0 5000 10000
Sim
ulat
ed F
low
s
Observed Flows
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Calibration: Observed vs Simulated
Observed vs. Simulated
Parameter Tweaking
Simulation
• Loop detectors• Google maps
• 176 loop detectors / updated every 20 sec
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Flow
(V
eh/h
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Driving Directions
HWY401 Collector EB
Observed
Simulated
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Calibration: Parameter Tweaking
• Loop detectors• Google maps
• Traffic flow model parameters• Demand tables• Network geometry-related
parameters
• 176 loop detectors / updated every 20 sec
• Jam density, look ahead distance, merging distance, …
• OD pairs travelling over specific corridors• Speed limits, signal timing, number of lanes,
…
020406080
100120140
0 50 100 150
Spee
d (k
m/h
r)
Density (Veh/km/lane)
Density-Speed
Observed Simulated
0
500
1000
1500
2000
2500
0 50 100 150Fl
ow (V
eh/h
r/la
ne)
Density (Veh/km/lane)
Density-Flow
Observed Simulated
Simulation
Parameter Tweaking
Observed vs. Simulated
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Calibration : Demand Tweaking
Observed vs. Simulated
Parameter Tweaking
Simulation
• Loop detectors• Google maps
• Traffic flow model parameters• Demand tables• Network geometry-related
parameters
• 176 loop detectors / updated every 20 sec
• Jam density, look ahead distance, merging distance, …
• OD pairs travelling over specific corridors• Speed limits, signal timing, number of lanes,
…
0
50
100
York St SpadinaAve
BathurstSt
JamesonAve
DowlingAve
Ellis Ave
Speed (kph
)
Travel Direction
Before
Observed Simulated
0
50
100
York St SpadinaAve
BathurstSt
JamesonAve
DowlingAve
Ellis Ave
Spee
d (k
ph)
Travel direction
After
Observed Simulated
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Calibration: Miscellaneous
Observed vs. Simulated
Parameter Tweaking
Simulation
• Loop detectors• Camera feeds• Google maps
• Traffic flow model parameters• Demand tables• Network geometry-related
parameters
• 35 million daily readings / updated every 20 sec
• Jam density, look ahead distance, merging distance, …
• OD pairs travelling over specific corridors• Signal timing, number of lanes, …
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Calibration: GEH34
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Ongoing Work
Transit layers
Joint departure time and mode choice model
Concurrent optimization of dynamic congestion
pricing and variable transit fares
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Demo36
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Thank You!