Asymptotic approximations of transient behaviour for day-to-day traffic models

•Transient behaviour of traffic systems reacting to change is critical for network management.•Stochastic models of day-to-day dynamics of traffic systems can describe such transience.•Asymptotic results provide tractable approximations to properties of these models.•Theoretical results hold for bot...

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Published in	Transportation research. Part B: methodological Vol. 118; pp. 90 - 105
Main Authors	Watling, David P., Hazelton, Martin L.
Format	Journal Article
Language	English
Published	Oxford Elsevier Ltd 01.12.2018 Elsevier Science Ltd
Subjects	Approximation Asymptotic properties Computer simulation Data processing Information processing Markov process Mathematical analysis Monte Carlo simulation Network change Route choice Routes Stochastic models Stochastic process Stochastic processes Stochastic user equilibrium Traffic congestion Traffic information Traffic models Transportation network Markov process Network change Stochastic user equilibrium Stochastic process Route choice Transportation network
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Abstract	•Transient behaviour of traffic systems reacting to change is critical for network management.•Stochastic models of day-to-day dynamics of traffic systems can describe such transience.•Asymptotic results provide tractable approximations to properties of these models.•Theoretical results hold for both stationary and transient periods for the system.•Numerical studies illustrate the theory. We consider a wide class of stochastic process traffic assignment models that capture the day-to-day evolving interaction between traffic congestion and drivers’ information acquisition and choice processes. Such models provide a description of not only transient change and ‘steady’ behaviour, but also represent additional variability that occurs through probabilistic descriptions. They are therefore highly suited to modelling both the disturbance and subsequent ‘drift’ of networks that are subject to some systematic change, be that a road closure or capacity reduction, new policy measure or general change in demand patterns. In this paper we derive analytic results to probabilistically capture the nature of the transient effects following such a systematic change. This can be thought of as understanding what happens as a system moves from varying about one equilibrium state to varying about a new equilibrium state. The results capture analytically the changes over time in descriptors of the system, in terms of link flow means, variances and covariances. Formally, the analytic results hold asymptotically as approximations, as we imagine demand increasing in tandem with capacities; however, our interest is in general cases where such tandem increases do not occur, and so we provide conditions under which our approximations are likely to work well. Numerical results of applying the methods are reported on several examples. The quality of the approximations is assessed through comparisons with Monte Carlo simulations from the true underlying process .
AbstractList	We consider a wide class of stochastic process traffic assignment models that capture the day-to-day evolving interaction between traffic congestion and drivers’ information acquisition and choice processes. Such models provide a description of not only transient change and ‘steady’ behaviour, but also represent additional variability that occurs through probabilistic descriptions. They are therefore highly suited to modelling both the disturbance and subsequent ‘drift’ of networks that are subject to some systematic change, be that a road closure or capacity reduction, new policy measure or general change in demand patterns. In this paper we derive analytic results to probabilistically capture the nature of the transient effects following such a systematic change. This can be thought of as understanding what happens as a system moves from varying about one equilibrium state to varying about a new equilibrium state. The results capture analytically the changes over time in descriptors of the system, in terms of link flow means, variances and covariances. Formally, the analytic results hold asymptotically as approximations, as we imagine demand increasing in tandem with capacities; however, our interest is in general cases where such tandem increases do not occur, and so we provide conditions under which our approximations are likely to work well. Numerical results of applying the methods are reported on several examples. The quality of the approximations is assessed through comparisons with Monte Carlo simulations from the true underlying process. •Transient behaviour of traffic systems reacting to change is critical for network management.•Stochastic models of day-to-day dynamics of traffic systems can describe such transience.•Asymptotic results provide tractable approximations to properties of these models.•Theoretical results hold for both stationary and transient periods for the system.•Numerical studies illustrate the theory. We consider a wide class of stochastic process traffic assignment models that capture the day-to-day evolving interaction between traffic congestion and drivers’ information acquisition and choice processes. Such models provide a description of not only transient change and ‘steady’ behaviour, but also represent additional variability that occurs through probabilistic descriptions. They are therefore highly suited to modelling both the disturbance and subsequent ‘drift’ of networks that are subject to some systematic change, be that a road closure or capacity reduction, new policy measure or general change in demand patterns. In this paper we derive analytic results to probabilistically capture the nature of the transient effects following such a systematic change. This can be thought of as understanding what happens as a system moves from varying about one equilibrium state to varying about a new equilibrium state. The results capture analytically the changes over time in descriptors of the system, in terms of link flow means, variances and covariances. Formally, the analytic results hold asymptotically as approximations, as we imagine demand increasing in tandem with capacities; however, our interest is in general cases where such tandem increases do not occur, and so we provide conditions under which our approximations are likely to work well. Numerical results of applying the methods are reported on several examples. The quality of the approximations is assessed through comparisons with Monte Carlo simulations from the true underlying process .
Author	Watling, David P. Hazelton, Martin L.
Author_xml	– sequence: 1 givenname: David P. surname: Watling fullname: Watling, David P. email: d.p.watling@its.leeds.ac.uk organization: Institute for Transport Studies, University of Leeds, U.K – sequence: 2 givenname: Martin L. surname: Hazelton fullname: Hazelton, Martin L. email: m.hazelton@massey.ac.nz organization: Institute of Fundamental Sciences, Massey University, Private Bag 11222, Palmerston North 4442, New Zealand
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Keywords	Markov process Network change Stochastic user equilibrium Stochastic process Route choice Transportation network
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Snippet	•Transient behaviour of traffic systems reacting to change is critical for network management.•Stochastic models of day-to-day dynamics of traffic systems can... We consider a wide class of stochastic process traffic assignment models that capture the day-to-day evolving interaction between traffic congestion and...
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SubjectTerms	Approximation Asymptotic properties Computer simulation Data processing Information processing Markov process Mathematical analysis Monte Carlo simulation Network change Route choice Routes Stochastic models Stochastic process Stochastic processes Stochastic user equilibrium Traffic congestion Traffic information Traffic models Transportation network
Title	Asymptotic approximations of transient behaviour for day-to-day traffic models
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