Reducing the Dimension of Online Calibration in Dynamic Traffic Assignment Systems

Prakash, A. Arun; Seshadri, Ravi; Antoniou, Constantinos; Pereira, Francisco C.; Ben‐Akiva, Moshe

doi:10.3141/2667-10

Cited by 16 publications

(19 citation statements)

References 17 publications

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“…Their optimization system predicts significant time savings with the optimal strategies generated by it, but the actual impacts of such strategies are not tested in the real network or in a simulation environment that is different from the DTA system itself. Yang (14) apply a principle components approach to conduct online calibration using the GLS algorithm. By calibrating principle components of parameters instead of original parameters, this method greatly scales down the computation effort of large-scale online calibration problems.…”

Section: Literature Reviewsmentioning

confidence: 99%

Dynamic Toll Pricing using Dynamic Traffic Assignment System with Online Calibration

Zhang

Atasoy

Akkinepally

et al. 2019

Transportation Research Record: Journal of the Transportation R

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The paper presents a toll pricing methodology using a dynamic traffic assignment (DTA) system. This methodology relies on the DTA system’s capability to understand and predict traffic conditions, thus enhanced online calibration methodologies are applied to the DTA system, featuring a heuristic technique to calibrate supply parameters online. Improved offline calibration techniques are developed to apply toll pricing in a real network consisting of managed lanes and general purpose lanes. The online calibration methodologies are tested using real data from this network, and the results find the DTA system able to estimate and predict traffic flow and speed with satisfactory accuracy under congestion. Toll pricing is formulated as an optimization problem to maximize toll revenue, subject to network conditions and tolling regulations. Travelers are assumed to make route choice based on offline calibrated discrete choice models. Toll optimization is applied in a closed-loop evaluation framework where a microscopic simulator is used to mimic the real network. Online calibration of the DTA system is enabled to ensure good optimization performance. Toll optimization is tested under multiple experimental scenarios, and the methodology is found able to increase toll revenue compared with the condition when online calibration is not available. It should be noted that the toll rates and revenues presented in this paper are obtained in a simulation environment based on the calibration and optimization algorithms, and as the work is ongoing these results are far from being a recommendation to operators of managed lanes.

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Section: Literature Reviewsmentioning

confidence: 99%

Dynamic Toll Pricing using Dynamic Traffic Assignment System with Online Calibration

Zhang

Atasoy

Akkinepally

et al. 2019

Transportation Research Record: Journal of the Transportation R

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“…We impose the constraints on the final state estimate by determining the value with the maximal probability in the posteriori distribution subject to the constraints. We determine such estimate by solving the optimality problem defined in equation (22). The constraints in equation (22) ensure that the OD-flows derived from the final state estimate ∆ẑ h|h are non-negative.…”

Section: Algorithm 1 Constrained Extended Kalman Filter In Principal mentioning

confidence: 99%

“…We determine such estimate by solving the optimality problem defined in equation (22). The constraints in equation (22) ensure that the OD-flows derived from the final state estimate ∆ẑ h|h are non-negative. Please refer to [15] for more details regarding the procedure.…”

Section: Algorithm 1 Constrained Extended Kalman Filter In Principal mentioning

confidence: 99%

Improving Scalability of Generic Online Calibration for Real-Time Dynamic Traffic Assignment Systems

Prakash

Seshadri

Antoniou

et al. 2018

Transportation Research Record: Journal of the Transportation R

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Flexible calibration of Dynamic Traffic Assignment (DTA) systems in real-time has important applications in effective traffic management. However, the existing approaches are either limited to small networks or to a specific class of parameters. In this light, this study presents a framework to systematically reduce the dimension of the generic online calibration problem making it more scalable. Specifically, we propose a state-space formulation of the problem in the reduced dimension space. Following which the problem is solved using the Constrained Extended Kalman Filter, which is made tractable because of the low dimensionality of the formulated problem. The effectiveness of the proposed approach is demonstrated using a real-world network leading to better state estimation by 13% and better state predictions by 11%-with a 50 fold dimensionality reduction. Insights into choosing the right degree of dimensionality reduction are also discussed. This work has the potential for a more widespread application of real-time DTA systems in practice.

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“…Thus, Yu & Guo [31] develop a tri-level combined-mode traffic assignment model; Pi et al [32] include heterogeneous traffic on roads, parking availability and travel modes (such as solo-driving, carpooling, ride-hailing, public transit, and park-and-ride); Macedo et al [33] propose an efficient traffic assignment, where users are not only concerned about travel times, but also about global and local pollutant emissions; Jiang et al [34] include the car-truck interaction paradox in assignment problems; and Dimitrov et al [35] model the interaction between buses, passengers and cars on a bus route. Some researchers have applied these methodologies in a specific case study, often with the support of computer simulation [36][37][38][39], while others have attempted to assess different techniques or even propose novel ones [40][41][42][43][44][45]. Among the first ones, Zhang et al [36] integrate an activity-based travel demand model with a dynamic traffic assignment model for the Baltimore Metropolitan Council; Shafiei et al [37] develop a simulationbased dynamic traffic assignment model of Melbourne, Australia; Zhu et al [38] use dynamic traffic assignment for a case study in Maryland; and Kucharski & Gentile [39] apply the Information Comply Model on different situations, including a corridor in the north of Kraków, Poland, and the Sioux-Falls network.…”

Section: Introductionmentioning

confidence: 99%

“…Among the first ones, Zhang et al [36] integrate an activity-based travel demand model with a dynamic traffic assignment model for the Baltimore Metropolitan Council; Shafiei et al [37] develop a simulationbased dynamic traffic assignment model of Melbourne, Australia; Zhu et al [38] use dynamic traffic assignment for a case study in Maryland; and Kucharski & Gentile [39] apply the Information Comply Model on different situations, including a corridor in the north of Kraków, Poland, and the Sioux-Falls network. Within the latter ones, Zhang et al [40] analyze the calibration of dynamic traffic assignment models applying the extended Kalman filter; Prakash et al [41] present a dimensionality reduction of the assignment models calibration problem, based on principal components; Du et al [42] focus on the dynamic traffic assignment problem on large-scale expressway networks especially under the condition of traffic events (such as severe weather, large traffic accidents etc.) and propose an approximate solution algorithm; Lin & Chen [43] develop a simulation-based multiclass, multimodal traffic assignment model for evaluating traffic control plans of planned special events; Batista & Leclercq [44] study a regional dynamic www.videleaf.com traffic assignment framework for macroscopic fundamental diagram considering stochasticity on both the trip lengths and the regional mean speed; and Bagdasar et al [45] examine discrete and continuous optimization and equilibrium-type problems and make a comparison of them with the Beckmann cost function.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Traffic Assignment Models through Simulation

Rojo¹

2020

Prime Archives in Sustainability

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Assignment methodologies attempt to determine the traffic flow over each network arc based on its characteristics and the total flow over the entire area. There are several methodologies, some faster and others that are more complex and require more time to complete the calculation. In this study, we evaluated different assignment methodologies using a computer simulation and tested the results in a specific case study. The results show that the "all-or-nothing" methods and the incremental assignment methods generally yield results with an unacceptable level of error unless the traffic is divided into four or more equal parts. The method of successive averages (MSA) is valid starting from a relatively low number of iterations, while the user equilibrium methodologies (approximated using the Frank & Wolfe algorithm) are valid starting from an even lower number of iterations. These results may be useful to researchers in the field of computer simulation and planners who apply these methodologies in similar cases.

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Reducing the Dimension of Online Calibration in Dynamic Traffic Assignment Systems

Cited by 16 publications

References 17 publications

Dynamic Toll Pricing using Dynamic Traffic Assignment System with Online Calibration

Dynamic Toll Pricing using Dynamic Traffic Assignment System with Online Calibration

Improving Scalability of Generic Online Calibration for Real-Time Dynamic Traffic Assignment Systems

Evaluation of Traffic Assignment Models through Simulation

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