Convex formulations of dynamic network traffic assignment for control of freeway networks
Author
Summary, in English
We study System Optimum Dynamic Traffic Assignment (SO-DTA) for realistic traffic dynamics controlled by variable speed limits, ramp metering, and routing controls. We consider continuous-time cell-based Dynamic Network Loading models that include as special cases the Cell Transmission Model (CTM) with FIFO rule at the diverge junctions as well as non-FIFO diverge rules. While a straightforward consideration of traffic dynamics and control variables in the SO-DTA is known to lead to a non-convex program, and hence is computationally expensive for real-time applications, we consider SO-DTA formulations in which the total inflow into and the total outflow from the cells are independently constrained to be upper bounded by concave supply and demand functions, respectively, thus preserving convexity. We then design open-loop controllers that guarantee that the optimal solutions under the relaxed constraints are feasible with respect to realistic traffic dynamics. We develop this methodology for three variations of the SO-DTA problem that impose constraints on turning ratios to varying degrees.
Department/s
Publishing year
2016-04-04
Language
English
Pages
755-762
Publication/Series
2015 53rd Annual Allerton Conference on Communication, Control, and Computing, Allerton 2015
Document type
Conference paper
Publisher
IEEE - Institute of Electrical and Electronics Engineers Inc.
Topic
- Control Engineering
Conference name
53rd Annual Allerton Conference on Communication, Control, and Computing, Allerton 2015
Conference date
2015-09-29 - 2015-10-02
Conference place
Monticello, United States
Status
Published
Research group
- LCCC
ISBN/ISSN/Other
- ISBN: 9781509018239