A new approach for combined freeway Variable Speed Limits and Coordinated Ramp Metering

Author

Lu, Xiao-Yun ; Varaiya, Pravin ; Horowitz, Roberto ; Su, Dongyan ; Shladover, Steven E.

Author_Institution

PATH, U. C. Berkeley, Richmond, CA, USA

fYear

2010

fDate

19-22 Sept. 2010

Firstpage

491

Lastpage

498

Abstract

Freeway corridor traffic flow is limited by bottleneck flow. A possible approach for maximizing recurrent bottleneck flow is to create a discharge section immediately upstream of the bottleneck. This paper proposes a control strategy for combining Variable Speed Limits (VSL) and Coordinated Ramp Metering (CRM) design to achieve this objective when the bottleneck can be modeled as a lane drop (or virtual lane drop) and/or weaving section. The control design strategy is to design VSL first and then use Finite Time Horizon Model Predictive Control to design Coordinated Ramp Metering. Microscopic simulation results showed that the control strategy could improve traffic throughput significantly.

Keywords

control system synthesis; predictive control; road traffic; velocity control; bottleneck flow; control design strategy; coordinated ramp metering; finite time horizon model predictive control; freeway corridor traffic flow; freeway variable speed limit; microscopic simulation; recurrent bottleneck flow; variable speed limit; Density measurement; Discharges; Driver circuits; Fluid flow measurement; Q measurement; Safety; Traffic control;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Transportation Systems (ITSC), 2010 13th International IEEE Conference on

Conference_Location

Funchal

ISSN

2153-0009

Print_ISBN

978-1-4244-7657-2

Type

conf

DOI

10.1109/ITSC.2010.5625107

Filename

5625107