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ESTIMATION OF DRIVERS ROUTE CHOICE USING MULTI-PERIOD MULTINOMIAL CHOICE MODELS

ESTIMATION OF DRIVERS ROUTE CHOICE USING MULTI-PERIOD MULTINOMIAL CHOICE MODELS. Stephen Clark and Dr Richard Batley Institute for Transport Studies University of Leeds , U.K.

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ESTIMATION OF DRIVERS ROUTE CHOICE USING MULTI-PERIOD MULTINOMIAL CHOICE MODELS

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  1. ESTIMATION OF DRIVERS ROUTE CHOICE USING MULTI-PERIOD MULTINOMIAL CHOICE MODELS Stephen Clark and Dr Richard Batley Institute for Transport Studies University of Leeds, U.K.

  2. Where ‘panel’ data is available on choices made by individuals, it is reasonable to assume that previous experiences somehow condition these choices Introduction

  3. Number plate matching exercise conducted in the City of York, U.K. 100% survey 08:00 to 09:00 27, 28 June; 7, 8, 9, 11, 13, 27 September; 18 October, 2000 Data set 1

  4. Of the vehicles observed on 2 ‘adjacent’ survey days, over 50% used the same route on both days As the period between 2 survey days increased, this percentage dropped e.g. for 2 survey days 14 working days apart, the percentage was 35%-40% Repetition and contiguity

  5. For a particular O-D movement on 4 ‘consecutive’ days: 3 vehicles travelled O-D on all 4 days 8 vehicles travelled O-D on any 3 ‘consecutive’ days 28 vehicles travelled O-D on any 2 ‘consecutive’ days Of these 39 repeat vehicles, only on 3 occasions out of the 53 possibilities did they follow a different route on a ‘consecutive’ day Repetition and O-D pairs

  6. Suggests route choice data contains a high degree of habitual information If habitual behaviour is explicitly modelled, then its strength can be estimated Failure to account for repetition and route experience may undermine the validity of any models Habit

  7. Random effects probit

  8. LIMDEP failed to estimate a  parameter in the range 1 GAUSS code applying Chamberlain’s conditional maximum likelihood estimation detected lack of variability in explanatory variables unable to estimate model Modelling problems

  9. Autoregressive structure, correlations between alternatives and time periods, unobserved heterogeneity across individuals, differential variances across alternatives Multinomial multi-period probit

  10. Multinomial multi-period probit AR(1) errors for each choice Individual-specific random effects for each choice Two estimation methods Method of Simulated Moments Simulated Maximum Likelihood Geweke’s GAUSS code

  11. Both methods failed to estimate a model Presence of singular matrix Again, suspected artefact of lack of variability in explanatory variables Modelling problems

  12. Stated preference study of route and departure time choice in City of York, U.K. How do people respond to an increase in travel time and/or travel time variability? 2-stage study, involving customisation 5 cards Data set 2

  13. Stage 1

  14. ‘get off earlier’ time (G) journey time (Q) journey time variability (S) late time (L) Derived time variables

  15. Stage 2

  16. Members of staff at the York Health Services Trust Prize draw incentive 165 usable first stage questionnaires 56 usable second stage questionnaires 34% response rate for second stage Ranked data ‘exploded’ into binary choice data 840 binary choice observations Field study

  17. MNL

  18. Random parameters logit

  19. Random parameters logit

  20. RPL 1

  21. RPL 2

  22. Where ‘panel’ data is available on choices made by individuals, it is reasonable to assume that previous experiences somehow condition these choices Data set 1: RP route choice data Random effects probit Multi-period multinomial probit Data set 2: SP route and departure time choice Pseudo-panel Random parameters logit Evidence of repeated observations effects Summary

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