This report summarizes the final results of the research effort to develop a freeway traffic simulator with the capability to
evaluate freeway operational strategies, such as traffic-responsive ramp metering and high-occupancy vehicles (HOV) lanes.
Researchers first developed an efficient software data structure by adopting a dynamic memory allocation scheme to use the
available memory as efficiently as possible. That work also included modifying the existing macroscopic, segment-based
modeling structure and developing new types of pipeline segments to facilitate detection modeling and further model
enhancements. Based on the new segment-based modeling structure, researchers developed a new simulation module to handle
HOV lane traffic flows and extended the simulation procedure for an exclusive HOV lane to handle a network of freeways.
Further, the simulation model also incorporates a new module to emulate the traffic-responsive ramp metering algorithm
implemented by the Traffic Management Center since the 1980s. The new software structure developed in this research allows
the future addition of new metering algorithms without major difficulties. To facilitate the data input process for the expanded
simulation features, a new Windows-based user interface was developed using the Delphi software development tool kit. With
the new user interface, most of the data input process can be done without exiting the main menu screen.
Kwon, Eil; Kota, Ramesh; Coyle, Michael; Michalopoulos, Panos; Song, Sejun.
Enhancements of the Kronos Simulation Package and Database for Geometric Design Planning, Operations and Traffic Management in Freeway Networks/Corridors (Phase III).
Minnesota Department of Transportation.
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