Ted G. Lewis

Network Science (eBook, ePUB)

Theory and Applications

• Format: ePub

Produktbeschreibung

A comprehensive look at the emerging science of networks Network science helps you design faster, more resilient communication networks; revise infrastructure systems such as electrical power grids, telecommunications networks, and airline routes; model market dynamics; understand synchronization in biological systems; and analyze social interactions among people. This is the first book to take a comprehensive look at this emerging science. It examines the various kinds of networks (regular, random, small-world, influence, scale-free, and social) and applies network processes and behaviors to emergence, epidemics, synchrony, and risk. The book's uniqueness lies in its integration of concepts across computer science, biology, physics, social network analysis, economics, and marketing. The book is divided into easy-to-understand topical chapters and the presentation is augmented with clear illustrations, problems and answers, examples, applications, tutorials, and a discussion of related Java software. Chapters cover: * Origins * Graphs * Regular Networks * Random Networks * Small-World Networks * Scale-Free Networks * Emergence * Epidemics * Synchrony * Influence Networks * Vulnerability * Net Gain * Biology This book offers a new understanding and interpretation of the field of network science. It is an indispensable resource for researchers, professionals, and technicians in engineering, computing, and biology. It also serves as a valuable textbook for advanced undergraduate and graduate courses in related fields of study.

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Produktdetails

• Verlag: John Wiley & Sons
• Seitenzahl: 524
• Erscheinungstermin: 20. September 2011
• Englisch
• ISBN-13: 9781118211014
• Artikelnr.: 37356571

Autorenporträt

T. G. Lewis is Professor of Computer Science at the Naval Postgraduate School, Monterey, CA. He has written over thirty books during the course of his extensive career. Dr. Lewis is the former vice president of development for Eastman Kodak.

Inhaltsangabe

Preface/Foreword ix
1 Origins 1
1.1 What Is Network Science?, 5
1.2 A Brief History of Network Science, 8
1.3 General Principles, 19
2 Graphs 23
2.1 Set-Theoretic Definition of a Graph, 25
2.2 Matrix Algebra Definition of a Graph, 33
2.3 The Bridges of Königsberg Graph, 38
2.4 Spectral Properties of Graphs, 42
2.5 Types of Graphs, 46
2.6 Topological Structure, 54
2.7 Graphs in Software, 63
2.8 Exercises, 68
3 Regular Networks 71
3.1 Diameter, Centrality, and Average Path Length, 74
3.2 Binary Tree Network, 79
3.3 Toroidal Network, 85
3.4 Hypercube Networks, 89
3.5 Exercises, 95
4 Random Networks 97
4.1 Generation of Random Networks, 100
4.2 Degree Distribution of Random Networks, 106
4.3 Entropy of Random Networks, 110
4.4 Properties of Random Networks, 118
4.5 Weak Ties in Random Networks, 125
4.6 Randomization of Regular Networks, 127
4.7 Analysis, 128
4.8 Exercises, 129
5 Small-World Networks 131
5.1 Generating a Small-World Network, 135
5.2 Properties of Small-World Networks, 142
5.3 Phase Transition, 156
5.4 Navigating Small Worlds, 160
5.5 Weak Ties in Small-World Networks, 169
5.6 Analysis, 171
5.7 Exercises, 173
6 Scale-Free Networks 177
6.1 Generating a Scale-Free Network, 180
6.2 Properties of Scale-Free Networks, 190
6.3 Navigation in Scale-Free Networks, 203
6.4 Analysis, 207
6.5 Exercises, 214
7 Emergence 217
7.1 What is Network Emergence?, 219
7.2 Emergence in the Sciences, 223
7.3 Genetic Evolution, 225
7.4 Designer Networks, 233
7.5 Permutation Network Emergence, 243
7.6 An Application of Emergence, 252
7.7 Exercises, 258
8 Epidemics 261
8.1 Epidemic Models, 264
8.2 Persistent Epidemics in Networks, 275
8.3 Network Epidemic Simulation Software, 287
8.4 Countermeasures, 289
8.5 Exercises, 297
9 Synchrony 299
9.1 To Sync or Not to Sync, 300
9.2 A Cricket Social Network, 307
9.3 Kirchhoff Networks, 324
9.4 Pointville Electric Power Grid, 331
9.5 Exercises, 335
10 Influence Networks 337
10.1 Anatomy of Buzz, 340
10.2 Power in Social Networks, 347
10.3 Conflict in I-Nets, 357
10.4 Command Hierarchies, 360
10.5 Emergent Power in I-Nets, 362
10.6 Exercises, 371
11 Vulnerability 375
11.1 Network Risk, 378
11.2 Critical Node Analysis, 382
11.3 Game Theory Considerations, 407
11.4 The General Attacker-Defender Network Risk Problem, 408
11.5 Critical Link Analysis, 410
11.6 Stability Resilience in Kirchhoff Networks, 428
11.7 Exercises, 430
12 NetGain 433
12.1 Classical Diffusion Equations, 436
12.2 Multiproduct Networks, 443
12.3 Java Method for Netgain Emergence, 447
12.4 Nascent Market Networks, 448
12.5 Creative Destruction Networks, 453
12.6 Merger and Acquisition Networks, 463
12.7 Exercises, 466
13 Biology 469
13.1 Static Models, 471
13.2 Dynamic Analysis, 475
13.3 Protein Expression Networks, 481
13.4 Mass Kinetics Modeling, 484
13.5 Exercises, 490
Bibliography 493
About the Author 503
Index 505