Feedback Control Theory for Dynamic Traffic Assignment: Advances in Industrial Control (2nd Edition)


  • Authors: Pushkin Kachroo, Kaan M. A. Ozbay
  • File Size: 9 MB
  • Format: PDF
  • Length: 272 pages
  • Publisher: Springer; 2nd edition
  • Publication Date: May 16, 2018
  • Language: English
  • ASIN: B07D4B8JK2
  • ISBN-10: 3319692291, 303009877X
  • ISBN-13: 9783319692296, 9783030098773


This ebook Feedback Control Theory for Dynamic Traffic Assignment: Advances in Industrial Control, 2nd edition (PDF) develops a methodology for designing feedback control laws for dynamic traffic assignment (DTA) exploiting the introduction of new sensing and information-dissemination technologies to facilitate the introduction of real-time traffic management in intelligent transportation systems. Three methods of modeling the traffic system are discussed:

  • partial differential equations representing a distributed-parameter setting;
  • discreet-time ODEs representing a discrete-time lumped-parameter setting; and,
  • continuous-time ordinary differential equations (ODEs) representing a continuous-time lumped-parameter setting.

Feedback control formulations for reaching road-user-equilibrium are presented for each setting and advantages and disadvantages of using each are addressed. The closed-loop methods described are proposed expressly to avoid the counter-productive shifting of bottlenecks from one route to another because of driver over-reaction to routing information.

The 2nd edition of Feedback Control Theory for Dynamic Traffic Assignment has been thoroughly updated with completely new chapters:

  • an up-to-date presentation of pertinent traffic-flow theory;
  • a treatment of the mathematical solution to the traffic dynamics; and
  • a review of the DTA problem and emphasizing real-time-feedback-based problems;

Techniques accounting for the importance of entropy are further new inclusions at various points in the textbook.

Researchers working in traffic control will find the theoretical material presented a sound basis for further research; the continual reference to applications will help professionals working in highway administration and engineering with the increasingly important task of maintaining and smoothing traffic flow; the extensive use of end-of-chapter exercises will help the graduate college student and those new to the field to extend their knowledge.