Complex Dynamics of Traffic Management / edited by Boris S. Kerner.

Format:

Book

Contributor:

Kerner, Boris S., editor.

SpringerLink (Online service)

Series:

Encyclopedia of complexity and systems science series

Encyclopedia of Complexity and Systems Science Series

Language:

English

Subjects (All):

Traffic engineering.

Sociology, Urban.

Computer simulation.

Engineering mathematics.

Transportation Technology and Traffic Engineering.

Urban Studies/Sociology.

Applications of Graph Theory and Complex Networks.

Transportation.

Simulation and Modeling.

Mathematical and Computational Engineering.

Local Subjects:

Transportation Technology and Traffic Engineering.

Urban Studies/Sociology.

Applications of Graph Theory and Complex Networks.

Transportation.

Simulation and Modeling.

Mathematical and Computational Engineering.

Physical Description:

1 online resource (425 illustrations, 137 illustrations in color. eReference.

Contained In:

Springer eBooks

Place of Publication:

New York, NY : Springer US : Imprint: Springer, 2019.

System Details:

text file PDF

Summary:

This volume in the Encyclopedia of Complexity and Systems Science (ECSS) covers such fascinating and practical topics as (i) Vehicular traffic flow theory, (ii) Studies of real field traffic data, (iii) Complex phenomena of self-organization in vehicular traffic, (iv) Effect of automatic driving (self-driving vehicles) on traffic flow, v) Complex dynamics of city traffic, (vi) Dynamic control and optimization of traffic and transportation networks, including dynamic traffic assignment in the network, (vii) Pedestrian traffic, (viii) Evacuation scenarios, and (ix) Network characteristics of air control. Review articles are written by international experts covering the diverse and complex dynamics of traffic management. Topics new to the Second Edition of ECSS include microscopic traffic flow models, self-driving, complex dynamics of bus, tram and elevator delays, and breakdown minimization.

Contents:

Complex Dynamics of Traffic Management, Introduction to

I - Traffic breakdown and spatiotemporal features of traffic congestion in traffic networks

Traffic Breakdown, Probabilistic Theory of

Traffic Congestion, Modeling Approaches to

Traffic Congestion, Spatiotemporal Features of

Traffic Prediction of Congested Patterns

Microscopic Traffic Flow Models: Stochastic Models in Framework of Three-Phase Theory

Traffic Flow Theory: The Reason for Paradigm Shift

II - Challenges for traffic control and Optimization in traffic and transportation networks

Self-Driving: Challenges for Cooperative and Automatic Driving in Vehicular Traffic

Complex Dynamics of Bus, Tram and Elevator Delays in Transportation Systems

Freeway Traffic Management and Control

Traffic Networks: Dynamic Traffic Assignment and Control Based on Breakdown Minimization (BM) Principle

Traffic Networks: Deterioration of Traffic System through the Use of classical Wardrop's Equilibria

Travel Behavior and Demand Analysis and Prediction

III - Pedestrian traffic and evacuation dynamics

Pedestrian, Crowd and Evacuation Dynamics

Evacuation Dynamics: Empirical Results, Modeling and Applications

Natural Disasters and Evacuations as a Communication and Social Phenomenon

IV - Air traffic

Air Traffic Control, Complex Dynamics of.

Other Format:

Printed edition:

ISBN:

978-1-4939-8763-4

9781493987634

Access Restriction:

Restricted for use by site license.