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An Algorithm for the Minimum Robust Cost Path on Networks with Random and Correlated Link Travel Times

In: Network Reliability in Practice

Author

Listed:
  • Ravi Seshadri

    (Indian Institute of Technology)

  • Karthik K. Srinivasan

    (Indian Institute of Technology)

Abstract

Transportation networks are subject to a large degree of uncertainty due to traveler behavior, recurring congestion, capacity variability (construction zones, traffic incidents), variation in demands, etc.. resulting in unstable and unpredictable trip travel times. This has led to an emphasis on travel time reliability as a key determinant of route choice and an important measure of system performance, thus motivating research on optimizing travel time reliability on such stochastic networks. In this context, this work proposes an algorithm to compute the path of minimum robust cost (defined as a weighted combination of mean squared and variance of path travel time) on a network with stochastic and correlated link travel times.The proposed approach involves transforming the robust cost objective to a link separable or sum of squares form. Based on this formulation, a related multiple objective optimization problem is defined, and it is shown that the optimal robust cost path must lie in the non-dominated solution set of the multiple objective problem. Thus, a label correcting procedure for the multicriteria shortest path problem is applied to compute the non-dominated set and hence, the path of minimum robust cost. In addition, a new criterion of dominance is proposed (permutation invariant non-dominance or PIND) to reduce the size of the non-dominated path set while maintaining optimality with respect to the robust path problem. An approximate label correcting type procedure is developed to compute this reduced path set. Empirical experiments on a real-world network indicate that the PIND path set is significantly smaller than the corresponding ND set (between 60% and 95% on tested networks). In addition, computational tests on synthetic networks of size up to 1,500 nodes (7,500 links) demonstrate the efficiency of the proposed heuristic (computational time

Suggested Citation

  • Ravi Seshadri & Karthik K. Srinivasan, 2012. "An Algorithm for the Minimum Robust Cost Path on Networks with Random and Correlated Link Travel Times," Transportation Research, Economics and Policy, in: David M. Levinson & Henry X. Liu & Michael Bell (ed.), Network Reliability in Practice, edition 1, chapter 0, pages 171-208, Springer.
    • Handle: RePEc:spr:trachp:978-1-4614-0947-2_11
    DOI: 10.1007/978-1-4614-0947-2_11
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    Citations

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    Cited by:

    1. Srinivasan, Karthik K. & Prakash, A.A. & Seshadri, Ravi, 2014. "Finding most reliable paths on networks with correlated and shifted log–normal travel times," Transportation Research Part B: Methodological, Elsevier, vol. 66(C), pages 110-128.
    2. Zhang, Yuli & Max Shen, Zuo-Jun & Song, Shiji, 2017. "Lagrangian relaxation for the reliable shortest path problem with correlated link travel times," Transportation Research Part B: Methodological, Elsevier, vol. 104(C), pages 501-521.
    3. A. Arun Prakash & Karthik K. Srinivasan, 2018. "Pruning Algorithms to Determine Reliable Paths on Networks with Random and Correlated Link Travel Times," Transportation Science, INFORMS, vol. 52(1), pages 80-101, January.
    4. Borzou Rostami & Guy Desaulniers & Fausto Errico & Andrea Lodi, 2021. "Branch-Price-and-Cut Algorithms for the Vehicle Routing Problem with Stochastic and Correlated Travel Times," Operations Research, INFORMS, vol. 69(2), pages 436-455, March.
    5. Ahmad Hosseini & Mir Saman Pishvaee, 2022. "Capacity reliability under uncertainty in transportation networks: an optimization framework and stability assessment methodology," Fuzzy Optimization and Decision Making, Springer, vol. 21(3), pages 479-512, September.
    6. Shen, Liang & Shao, Hu & Wu, Ting & Fainman, Emily Zhu & Lam, William H.K., 2020. "Finding the reliable shortest path with correlated link travel times in signalized traffic networks under uncertainty," Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 144(C).

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