Small Worlds : : The Dynamics of Networks between Order and Randomness /

Small Worlds : : The Dynamics of Networks between Order and Randomness / / Duncan J. Watts.

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Everyone knows the small-world phenomenon: soon after meeting a stranger, we are surprised to discover that we have a mutual friend, or we are connected through a short chain of acquaintances. In his book, Duncan Watts uses this intriguing phenomenon--colloquially called "six degrees of separat...

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Superior document:Title is part of eBook package: De Gruyter Princeton University Press eBook-Package Archive 1927-1999
VerfasserIn:
Watts, Duncan J.,
Place / Publishing House:Princeton, NJ : : Princeton University Press, , [2018]
©1999
Year of Publication:2018
Language:English
Series:Princeton Studies in Complexity ; 36
Online Access:
Physical Description:1 online resource
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245 1 0 |a Small Worlds :  |b The Dynamics of Networks between Order and Randomness /  |c Duncan J. Watts. 
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490 0 |a Princeton Studies in Complexity ;  |v 36 
505 0 0 |t Frontmatter --   |t Contents --   |t Preface --   |t 1. Kevin Bacon, the Small World, and Why It All Matters --   |t Part I. Structure --   |t 2. An Overview of the Small-World Phenomenon --   |t 3. Big Worlds and Small Worlds: Models of Graphs --   |t 4. Explanations and Ruminations --   |t 5. "It's a Small World after All": Three Real Graphs --   |t Part II. Dynamics --   |t 6. The Spread of Infectious Disease in Structured Populations --   |t 7. Global Computation in Cellular Automata --   |t 8. Cooperation in a Small World: Games on Graphs --   |t 9. Global Synchrony in Populations of Coupled Phase Oscillators --   |t 10. Conclusions --   |t Notes --   |t Bibliography --   |t Index 
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520 |a Everyone knows the small-world phenomenon: soon after meeting a stranger, we are surprised to discover that we have a mutual friend, or we are connected through a short chain of acquaintances. In his book, Duncan Watts uses this intriguing phenomenon--colloquially called "six degrees of separation"--as a prelude to a more general exploration: under what conditions can a small world arise in any kind of network? The networks of this story are everywhere: the brain is a network of neurons; organisations are people networks; the global economy is a network of national economies, which are networks of markets, which are in turn networks of interacting producers and consumers. Food webs, ecosystems, and the Internet can all be represented as networks, as can strategies for solving a problem, topics in a conversation, and even words in a language. Many of these networks, the author claims, will turn out to be small worlds. How do such networks matter? Simply put, local actions can have global consequences, and the relationship between local and global dynamics depends critically on the network's structure. Watts illustrates the subtleties of this relationship using a variety of simple models---the spread of infectious disease through a structured population; the evolution of cooperation in game theory; the computational capacity of cellular automata; and the sychronisation of coupled phase-oscillators. Watts's novel approach is relevant to many problems that deal with network connectivity and complex systems' behaviour in general: How do diseases (or rumours) spread through social networks? How does cooperation evolve in large groups? How do cascading failures propagate through large power grids, or financial systems? What is the most efficient architecture for an organisation, or for a communications network? This fascinating exploration will be fruitful in a remarkable variety of fields, including physics and mathematics, as well as sociology, economics, and biology. 
538 |a Mode of access: Internet via World Wide Web. 
546 |a In English. 
588 0 |a Description based on online resource; title from PDF title page (publisher's Web site, viewed 30. Aug 2021) 
650 0 |a Graph theory. 
650 0 |a Network analysis (Planning). 
650 0 |a Social networks  |x Mathematical models. 
650 7 |a MATHEMATICS / Probability & Statistics / General.  |2 bisacsh 
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