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Thursday, October 23, 2008

A Modeling Approach for Evaluating Network Impacts of Operational-Level Transportation Projects

Type of Document Master's Thesis
Author Diekmann, Joshua James
Author's Email Address jdiekman@hotmail.com
URN etd-05232000-14570051
Title A Modeling Approach for Evaluating Network Impacts of Operational-Level Transportation Projects
Degree Master of Science
Department Civil Engineering
Advisory Committee
Advisor Name Title
Dr. Hesham Rakha Committee Chair
Dr. Antoine Hobeika Committee Member
Dr. Dusan Teodorovic Committee Member
Dr. John Collura Committee Member
Keywords

* Metropolitan Model Deployment Initiative
* Microscopic Simulation
* Intelligent Transportation Systems
* ITS
* Signal Coordination
* INTEGRATION
* Simulation Modeling
* MMDI

Date of Defense 2000-05-10
Availability unrestricted
Abstract

This thesis presents the use of microscopic traffic simulation models to evaluate the effects of operational-level transportation projects such as ITS. A detailed framework outlining the construction and calibration of microscopic simulation models is provided, as well as the considerations that must be made when analyzing the outputs from these models. Two case studies are used to reinforce the concepts presented. In addition, these case studies give valuable insight for using the outlined approach under real-world conditions.

The study indicates a promising future for the use of microsimulation models for the purpose of evaluating operational-level projects, as the theoretical framework of the models is sound, and the computational strategies used are feasible. There are, however, instances where simulation models do not presently model certain phenomena, or where simulation models are too computationally intensive. Comprehensive models that integrate microscopic simulation with land use planning and realistic predictions of human behavior, for instance, cannot practically be modeled in contemporary simulation packages. Other than these instances, the largest obstacles to using simulation packages were found to be the manpower required and the complexity of constructing a model. Continuing research efforts and increasing computer speeds are expected to resolve the former issues. Both of the latter concerns are alleviated by the approach presented herein. Within the approach framework detailed in this thesis, particular emphasis is given to the calibration aspects of constructing a microscopic simulation model. Like the simulation process as a whole, calibration is both an art and a science, and relies on sound engineering judgement rather than indiscriminate, formulaic processes.

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