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Minimizing Total Delay in Fixed-Time Controlled Traffic Networks
Author(s) -
Ekkehard Köhler,
Rolf H. Möhring,
Gregor Wünsch
Publication year - 2005
Publication title -
operations research proceedings
Language(s) - English
Resource type - Book series
eISSN - 2197-9294
pISSN - 0721-5924
DOI - 10.1007/3-540-27679-3_24
Subject(s) - vissim , integer (computer science) , computer science , discrete time and continuous time , mathematical optimization , control theory (sociology) , real time computing , mathematics , engineering , transport engineering , statistics , microsimulation , artificial intelligence , control (management) , programming language
We present two different approaches to minimize total delay in signalized fixed-time controlled inner city traffic networks. Firstly, we develop a time discrete model where all calculations are done pathwise and vehicles move on “time trajectories” on their routes. Secondly, an idea by Gartner, Little, and Gabbay (GLG) is extended to a continuous, linkwise operating model using “Link Performance Functions” to determine delays. Both models are formulated as mixed-integer linear programs and are compared and evaluated by PTV AG’s simulation tool VISSIM 3.70.

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