- Author:
- William Poundstone
From the Publisher:
Should you watch public television without pledging__ __...Exceed the posted speed limit__ __...Hop a subway turnstile without paying__ __ These questions illustrate the so-called "prisoner's dilemma," a social puzzle that we all face every day. Though the answers may seem simple, their profound implications make the prisoner's dilemma one of the great unifying concepts of science, an idea that has influenced leaders across the political spectrum and informed our views of conflicts ranging from the Cuban missile crisis to the Persian Gulf War. Watching players bluff in a poker game inspired John von Neumann--father of the modern computer and one of the sharpest minds of the century--to construct game theory, a mathematical study of conflict and deception. Game theory was readily embraced at the RAND Corporation, the archetypical think tank charged with formulating military strategy for the atomic age, and in 1950 two RAND scientists made a momentous discovery. Called the "prisoner's dilemma," it is a disturbing and mind-bending game where two or more people may betray the common good for individual gain. Introduced shortly after the Soviet Union acquired the atomic bomb, the prisoner's dilemma quickly became a popular allegory of the nuclear arms race. Intellectuals such as von Neumann and Bertrand Russell joined military and political leaders in rallying to the "preventive war" movement, which advocated a nuclear first strike against the Soviet Union. Though the Truman administration rejected preventive war the United States entered into an arms race with the Soviets and game theory developed into a controversial tool of public policy--alternately accused of justifying arms races and touted as the only hope of preventing them. A masterful work of science writing, Prisoner's Dilemma weaves together a biography of the brilliant and tragic von Neumann, a history of pivotal phases of the cold war, and an investigation of game theory's far-reaching influence on public policy t
Cited By
- Fugate S and Ferguson‐Walter K (2019). Artificial Intelligence and Game Theory Models for Defending Critical Networks with Cyber Deception, AI Magazine, 40:1, (49-62), Online publication date: 1-Mar-2019.
de S. Alves D, Neto M, Ferreira F and Teixeira O SIACO Proceedings of the 2nd International Conference on Machine Learning and Soft Computing, (62-66)- Granatyr J, Botelho V, Lessing O, Scalabrin E, Barthès J and Enembreck F (2015). Trust and Reputation Models for Multiagent Systems, ACM Computing Surveys, 48:2, (1-42), Online publication date: 21-Nov-2015.
- Antony M, Wu D and Szeto K Partial imitation hinders emergence of cooperation in the iterated prisoner's dilemma with direct reciprocity Proceedings of the 16th European conference on Applications of Evolutionary Computation, (92-101)
- Shafi K, Merrick K and Debie E Evolution of Intrinsic Motives in Multi-agent Simulations Simulated Evolution and Learning, (198-207)
- Reed D (2011). Critical thinking and modeling in CS0, Journal of Computing Sciences in Colleges, 26:5, (197-204), Online publication date: 1-May-2011.
- Teixeira O, de Brito F, Lobato W, Teixeira A, Yasojima C and de Oliveira R Fuzzy social interaction genetic algorithm Proceedings of the 12th annual conference companion on Genetic and evolutionary computation, (2113-2114)
- Kibria M and Jamalipour A (2009). Game theoretic outage compensation in next generation mobile networks, IEEE Transactions on Wireless Communications, 8:5, (2602-2608), Online publication date: 1-May-2009.
- Foukia N, Zhou L and Neuman C Multilateral decisions for collaborative defense against unsolicited bulk e-mail Proceedings of the 4th international conference on Trust Management, (77-92)
- Teixeira O, Teixeira A, de Brito F and de Oliveira R Game theory as a new paradigm for phenotype characterization of genetic algorithms Proceedings of the 8th annual conference on Genetic and evolutionary computation, (1431-1432)
- Michiardi P and Molva R (2005). Analysis of coalition formation and cooperation strategies in mobile ad hoc networks, Ad Hoc Networks, 3:2, (193-219), Online publication date: 1-Mar-2005.
- Tropp H Von Neumann, John Encyclopedia of Computer Science, (1842-1843)
- Beroggi G (2019). Dynamic Plots in Virtual Negotiations, Computational & Mathematical Organization Theory, 6:2, (171-190), Online publication date: 1-Jul-2000.
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