development of a pedestrian demand estimation tool
TRANSCRIPT
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Development of a Pedestrian Demand Estimation Tool
Kelly J Clifton, PhD
Framework and Methods
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Outline
• Background
• Project, methods, zones, & data
• Pedestrian index ofthe environment (PIE)
• I: Trip generation
• II: Walk mode split
• III: Pedestrian destination choice
• Conclusions & future work
2
Adapted from: http://www.flickr.com/photos/takomabibelot/3223617185
Background – Project – PIE – Walk Model – DC Model – Conclusion
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BACKGROUND
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Background
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Why model pedestrian travel?
health & safety
new data
mode shifts
greenhouse gas emissions
plan for pedestrian investments& non-motorized facilities
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Background
Background – Project – PIE – Walk Model – DC Model – Conclusion 5
1. Generation
2. Distribution
3. Mode choice
4. Assignment
Trip-based model sequence
How do travel models estimate walking?
Source: Singleton, P. A., & Clifton, K. J. (2013). Pedestrians in regional travel demand forecasting models: State-of-the-practice.
• Among 48 large MPOs in US:
– 38% did not estimate walking– 33% estimated non-motorized
(walking + bicycling) travel– 29% estimated walking
• Lacking pedestrian built environment measures & small spatial units
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Background
• Walking behavior data– improved travel surveys, pedestrian count data collection
• Built environment data– archived spatial datasets, GIS processing
• Travel demand models– smaller zones, complete networks, computer power
• Walking behavior research– more knowledge and studies
Background – Project – PIE – Walk Model – DC Model – Conclusion 6
What are some opportunities?
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PROJECT, METHODS, ZONES & DATA
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Project overview
• Partnered with Metro: metropolitan planning organization for Portland, OR
• Two research projects• Improve representation of pedestrian
environment in current 4-step method
Background – Project – PIE – Walk Model – DC Model – Conclusion 8
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Current 4-step method
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Trip Distribution or Destination Choice (TAZ)
Mode Choice (TAZ)
Trip Assignment
Pedestrian Trips
All Trips Pedestrian Trips Vehicular Trips
TAZ = transportation analysis zone Trip Generation (TAZ)
Background – Project – PIE – Walk Model – DC Model – Conclusion
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New MoPeD method
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TAZ = transportation analysis zonePAZ = pedestrian analysis zone
Trip Generation (PAZ)
Trip Distribution or Destination Choice (TAZ)
Mode Choice (TAZ)
Trip AssignmentPedestrian Trips
Walk Mode Split (PAZ)
Destination Choice (PAZ)
I
III
All Trips Pedestrian Trips Vehicular Trips
Background – Project – PIE – Walk Model – DC Model – Conclusion
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Utilizes spatially fine-grained archived information on the built environment
MoPeD Contributions
11Background – Project – PIE – Walk Model – DC Model – Conclusion
Operates at a smaller spatial scale, more relevant to pedestrians (PAZ)
Incorporates knowledge of influences on pedestrian travel behavior
Designed to work with regional travel demand model or as standalone tool
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Pedestrian analysis zones
Background – Project – PIE – Walk Model – DC Model – Conclusion 12
264 feet = 80 m ≈ 1 minute walk
Metro: ~2,000 TAZs ~1.5 million PAZs
TAZs PAZs
Home-based work trip productions
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Travel survey data
• Oregon Household Activity Survey (OHAS)– Household-based survey– One-day travel diary
• Portland region dataset (2011)– 6,100 households– 13,400 people– 56,000 trips ÷ 4,500 walk trips
≈ 8% walk mode share
Background – Project – PIE – Walk Model – DC Model – Conclusion 13
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PEDESTRIAN INDEX OF THE ENVIRONMENT (PIE)
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Pedestrian environment
Pedestrian Index of the Environment (PIE)
20–100 score = calibrated ∑(6 dimensions)
Background – Project – PIE – Walk Model – DC Model – Conclusion 15
ULI = Urban Living Infrastructure: pedestrian-friendly shopping and service destinations used in daily life.
People & job density
Transit access
Block size
Sidewalk extent
Comfortable facilities
Urban living infrastructure
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Visualizing PIE
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100 – Downtown core
80 – Major neighborhood centers
Downtown
Lloyd District
Background – Project – PIE – Walk Model – DC Model – Conclusion
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Visualizing PIE
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70 – Suburban downtowns
60 – Residential inner-city neighborhoods Laurelhurst
Gresham
Background – Project – PIE – Walk Model – DC Model – Conclusion
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Visualizing PIE
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50 – Suburban shopping malls
40 – Suburban neighborhoods/subdivisions
Clackamas Town Center
Aloha
Background – Project – PIE – Walk Model – DC Model – Conclusion
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Visualizing PIE
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30 – Isolated business and light industry
20 – Rural, undeveloped, forested Forest Park
N. Marine Drive
Background – Project – PIE – Walk Model – DC Model – Conclusion
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I. TRIP GENERATION
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TAZ = transportation analysis zonePAZ = pedestrian analysis zone
Trip Generation (PAZ)
Trip Distribution or Destination Choice (TAZ)
Mode Choice (TAZ)
Trip AssignmentPedestrian Trips
Walk Mode Split (PAZ)
Destination Choice (PAZ)
I
III
All Trips Pedestrian Trips Vehicular Trips
Background – Project – PIE – Walk Model – DC Model – Conclusion
Trip Generation
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Trip Generation
23Background – Project – PIE – Walk Model – DC Model – Conclusion
Metro currently has 8 trip production models applied to ~2,000 TAZs:
– HBW – Home-based work; – HBshop – Home-based shopping; – HBrec – Home-based recreation; – HBoth – Home-based other (excludes school and college); – NHBW – Non-home-based work; – NHBNW – Non-home-based non-work; – HBcoll – Home-based college; and– HBsch – Home-based school.
After testing for scalability, we applied the same modelsto our pedestrian scale ~1.5M PAZs
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II. WALK MODE SPLIT
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TAZ = transportation analysis zonePAZ = pedestrian analysis zone
Trip Generation (PAZ)
Trip Distribution or Destination Choice (TAZ)
Mode Choice (TAZ)
Trip AssignmentPedestrian Trips
Walk Mode Split (PAZ)
Destination Choice (PAZ)
I
III
All Trips Pedestrian Trips Vehicular Trips
Background – Project – PIE – Walk Model – DC Model – Conclusion
Walk mode split
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Walk mode split
Prob(walk) = f(traveler characteristics, PIE)
Data: 2011 OHAS, Production trip ends,90% sample
Method: binary logit modelSpatial unit: pedestrian analysis zone (PAZ)
Background – Project – PIE – Walk Model – DC Model – Conclusion 27
Walk Mode Split (PAZ)
Pedestrian Trips
Vehicular Trips
II
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Walk mode split modelsII
Background – Project – PIE – Walk Model – DC Model – Conclusion
Traveler characteristics: Household size, income, age, # of workers, # children, # vehicles
Built environment: PIE
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Walk model results
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II
Background – Project – PIE – Walk Model – DC Model – Conclusion
Traveler characteristics:+ positively related to walking – negatively related to walking
number of children in HH age of household head
HH vehicle ownership
Ped. Environment: ∆ odds of choosing to walk
+ 10 points PIE 43% increase (HBW)
54% increase (HBNW)
67% increase (NHB)
Pseudo R2 0.137 (HBNW) – 0.253 (NHB)
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Mode Split Validation
ModelHBW HBO NHB
Observed Walk Mode Share 2.9% 9.4% 6.7%
Predicted Walk Mode Share 3.0% 9.5% 8.6%
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1. Apply the final model equations to trips in the validation sample (10% of data) and calculate the walk probability for each trip;
2. Average the probabilities to get the predicted walk mode share of trip ends (called sample enumeration)
Background – Project – PIE – Walk Model – DC Model – Conclusion
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31Background – Project – PIE – Walk Model – DC Model – Conclusion
Walk model application
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TAZ = transportation analysis zonePAZ = pedestrian analysis zone
Trip Generation (PAZ)
Trip Distribution or Destination Choice (TAZ)
Mode Choice (TAZ)
Trip AssignmentPedestrian Trips
Walk Mode Split (PAZ)
Destination Choice (PAZ)
I
III
All Trips Pedestrian Trips Vehicular Trips
Walk mode split
Background – Project – PIE – Walk Model – DC Model – Conclusion
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III. DESTINATION CHOICE
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TAZ = transportation analysis zonePAZ = pedestrian analysis zone
Trip Generation (PAZ)
Trip Distribution or Destination Choice (TAZ)
Mode Choice (TAZ)
Trip AssignmentPedestrian Trips
Walk Mode Split (PAZ)
Destination Choice (PAZ)
I
III
All Trips Pedestrian Trips Vehicular Trips
Background – Project – PIE – Walk Model – DC Model – Conclusion
Destination choice
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Pedestrian Trips
Destination Choice (PAZ)Prob(dest.) = function of…
– network distance– size / # of destinations– pedestrian environment– traveler characteristics
Data: 2011 OHAS
Method: multinomial logit model
Spatial unit: super-pedestrian analysis zone
Six trip types: home-based: work (HBW), shopping (HBS), recreation (HBR), & other (HBO);
non-home-based: work (NHBW) and non-work (NHBNW)
Destination choice
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III
Background – Project – PIE – Walk Model – DC Model – Conclusion
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Destination choice
Background – Project – PIE – Walk Model – DC Model – Conclusion
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Destination Choice
superPAZ: – a grid of
5 × 5 = 25 PAZs
Choice set generation: – Random sample of 10 superPAZs within 3 miles– 99% of OHAS walk trips < 3 miles (4.8 km)
Background – Project – PIE – Walk Model – DC Model – Conclusion 37
III
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Destination Choice
38Background – Project – PIE – Walk Model – DC Model – Conclusion
Key variables
Impedance Size
Pedestrian supports
Pedestrian barriers
Traveler attributes
Additional variables
network distance btw. zones employment by category, households
PIE, parks slope, freeway, industrial LUs
III
auto own., children
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Destination Choice
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III
Impedance ∆ odds of walking to destination
+ 1 mile of distanceby auto own.: by children:by children:
76–86% decrease (*)
-62% (no), -74% (yes) (HBW)
-78% (no), -83% (yes) (HBR)
-78% (no), -90% (yes) (HBS)
Size ∆ odds of walking to destination
2 × # destinationsminimum: maximum:
28–42% increase (†)
4% increase (HBR)
88% increase (HBS)† Except for HBR and HBS.
Background – Project – PIE – Walk Model – DC Model – Conclusion
* Except for HBW, HBR, and HBS.
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Destination Choice
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III
Ped. supports ∆ odds of walking to destination
+ 10 points PIE: 16–34% increase (*)
presence of park: 58% increase (HBR)
Ped. Barriers ∆ odds of walking to destination
+ 1° mean slope: 14–35% decrease (2,3,4)
presence of freeway: 64% decrease (2)
+ 1% industrial jobs: 33–82% decrease (1,2,3,4)
Pseudo R2 0.416 (HBR) – 0.680 (HBS)
Background – Project – PIE – Walk Model – DC Model – Conclusion
* Except for HBS and HBR.
1 HBW, 2 HBS, 3 HBO, 4 NHBW.
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Destination Choice
Background – Project – PIE – Walk Model – DC Model – Conclusion 41
III
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Destination Choice
Background – Project – PIE – Walk Model – DC Model – Conclusion 42
III
PIE = 75 PIE = 85
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Destination choice
43Background – Project – PIE – Walk Model – DC Model – Conclusion
Model Validation – % Correct Destination
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Destination Choice
44Background – Project – PIE – Walk Model – DC Model – Conclusion
Model Validation – Avg. Distance Walked
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45Background – Project – PIE – Walk Model – DC Model – Conclusion
Destination Choice
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CONCLUSIONS & FUTURE WORK
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Conclusions
• Nests within current model but can be used alone• Pedestrian scale analysis (PAZs) • Pedestrian-relevant variables (PIE)• One of the first studies to examine pedestrian
destination choice in modeling framework• Highlights policy relevant
variables: distance, size, pedestrian supports & barriers
Background – Project – PIE – Walk Model – DC Model – Conclusion 47
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Future work
Before application:• Relate PIE more explicitly to policy changes• Forecasting inputs• Test method in other area(s)/regions
– Examine relationships in other contexts– Assess PIE’s transferability
• Provide agency guidance for implementation
Background – Project – PIE – Walk Model – DC Model – Conclusion 48
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Future work
Research & Model Improvements:
Trip Generation – Multinomial Logit model
• Destination Choice – Allocate from superPAZ to PAZ level– Explore non-linear effects & other interactions
• Route choices or potential pathways– Need fundamental research to improve
understanding
49Background – Project – PIE – Walk Model – DC Model – Conclusion
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Questions?
Project info & reports:http://trec.pdx.edu/research/project/510http://trec.pdx.edu/research/project/677
Kelly J. Clifton, PhD [email protected]
Patrick A. Singleton Portland State University
Christopher Muhs DKS & Associates
Robert Schneider, PhD Univ. Wisconsin–Milwaukee
50Background – Project – PIE – Walk Model – DC Model – Conclusion