Modeling, Simulation and Visual Analysis of Crowds
- Length: 430 pages
- Edition: 2013
- Language: English
- Publisher: Springer
- Publication Date: 2013-12-13
- ISBN-10: 1461484820
- ISBN-13: 9781461484820
- Sales Rank: #6483559 (See Top 100 Books)
Modeling, Simulation and Visual Analysis of Crowds: A Multidisciplinary Perspective (The International Series in Video Computing)
Over the last several years there has been a growing interest in developing computational methodologies for modeling and analyzing movements and behaviors of ‘crowds’ of people. This interest spans several scientific areas that includes Computer Vision, Computer Graphics, and Pedestrian Evacuation Dynamics. Despite the fact that these different scientific fields are trying to model the same physical entity (i.e. a crowd of people), research ideas have evolved independently. As a result each discipline has developed techniques and perspectives that are characteristically their own.
The goal of this book is to provide the readers a comprehensive map towards the common goal of better analyzing and synthesizing the pedestrian movement in dense, heterogeneous crowds. The book is organized into different parts that consolidate various aspects of research towards this common goal, namely the modeling, simulation, and visual analysis of crowds.
Through this book, readers will see the common ideas and vision as well as the different challenges and techniques, that will stimulate novel approaches to fully grasping “crowds.”
Table of Contents
Chapter 1 Modeling, Simulation and Visual Analysis of Crowds: A Multidisciplinary Perspective
Part I Crowd Simulation and Behavior Modeling
Chapter 2 On Force-Based Modeling of Pedestrian Dynamics
Chapter 3 Connection Between Microscopic and Macroscopic Models
Chapter 4 Analysis of Crowd Dynamics with Laboratory Experiments
Chapter 5 Modeling a Crowd of Groups: Multidisciplinary and Methodological Challenges
Chapter 6 Scalable Solutions for Simulating, Animating, and Rendering Real-Time Crowds of Diverse Virtual Humans
Chapter 7 Authoring Multi-actor Behaviors in Crowds with Diverse Personalities
Chapter 8 Virtual Tawaf: A Velocity-Space-Based Solution for Simulating Heterogeneous Behavior in Dense Crowds
Part II Visual Analysis of Crowds
Chapter 9 Crowd Flow Segmentation Using Lagrangian Particle Dynamics
Chapter 10 Modeling Crowd Flow for Video Analysis of Crowded Scenes
Chapter 11 Pedestrian Interaction in Tracking: The Social Force Model and Global Optimization Methods
Chapter 12 Surveillance of Crowded Environments: Modeling the Crowd by Its Global Properties
Chapter 13 Inferring Leadership from Group Dynamics Using Markov Chain Monte Carlo Methods
Chapter 14 Crowd Counting and Profiling: Methodology and Evaluation
Chapter 15 Anomaly Detection in Crowded Scenes: A Novel Framework Based on Swarm Optimization and Social Force Modeling
