Over the past thirty-five years, a substantial amount of theoretical and empirical scholarly research has been developed across the discipline domains of Transportation. This research has been synthesized into a systematic handbook that examines the scientific concepts, methods, and principles of this growing and evolving field. The Handbook of Transportation Science outlines the field of transportation as a scientific discipline that transcends transportation technology and methods. Whether by car, truck, airplane - or by a mode of transportation that has not yet been conceived - transportation obeys fundamental properties. The science of transportation defines these properties, and demonstrates how our knowledge of one mode of transportation can be used to explain the behavior of another. Transportation scientists are motivated by the desire to explain spatial interactions that result in movement of people or objects from place to place. Its methodologies draw from physics, operations research, probability and control theory.

Handbook of Transportation Science (International Series in Operations Research & Management Science) | Randolph Hall (Editor) | Springer

Table of Contents
Chapter 1: Transportation Science
Chapter 2: Discrete Choice Models with Applications to Departure Time and Route Choice
Chapter 3: Activity-Based Modeling of Travel Demand
Chapter 4: Transportation Safety
Chapter 5: Transportation Queueing
Chapter 6: Traffic Flow and Capacity
Chapter 7: Automated Vehicle Control
Chapter 8: Traffic Control
Chapter 9: Continuous Space Modelling
Chapter 10: Location Models in Transportation
Chapter 11: Network Equilibrium and Pricing
Chapter 12: Street Routing and Scheduling Problems
Chapter 13: Long-Haul Freight Transportation
Chapter 14: Airline Crew Scheduling
Chapter 15: Supply Chains
Chapter 16: Revenue Management
Chapter 17: Spatial Interaction Modeling
Chapter 18: Principles of Transport Economics