Description:
Longman, 2002-04-03. Paperback. Acceptable. 0.8000 in x 9.3000 in x 6.4000 in. Contains some, or all, of the following: highlights, notes, and underlining. Back cover is creased.
Non-Cooperative Games by NASH, John - 1951: [Within] Annals of Mathematics, Second Series, Volume 54, Number 2.
by NASH, John
Non-Cooperative Games: [Within] Annals of Mathematics, Second Series, Volume 54, Number 2.
by NASH, John
- Used
- first
Princeton, New Jersey: Princeton University Press, 1951. Received October 11, 1950. [Within] Annals of Mathematics, Second Series, Volume 54, Number 2. [pg 286-295]. [Princeton, New Jersey: Princeton University Press], September, 1951.
First edition of John Nash's Nobel Prize winning doctoral thesis on game theory. Found on pages 286-295 within the Princeton University Press's Annals of Mathematics. Octavo (9 1/2 x 6 3/8 inches; 240 x 162 mm). Full journal: 215-402 pp.
Publisher's original printed wrappers, rebacked to style. Previous owner's very light signature on front wrapper. Otherwise about fine.
"In a set of papers in the 1950s, mathematician John Forbes Nash set forth breakthrough ideas that helped transform game theory from an ivory tower abstraction into an indispensable analytical tool used by strategists from Wall Street to the Pentagon. The foundational game theory work of mathematician John von Neumann and economist Oskar Morgenstern, published in 1944, provided a framework for solutions to zero-sum games, where one player's win was the other's loss. Nash, in his dissertation research at Princeton (published in this and three other papers), extended game theory to n-person games in which more than one party can gain, a better reflection of practical situations. Nash demonstrated that 'a finite non-cooperative game always has at least one equilibrium point' or stable solution. This result came to be called the 'Nash equilibrium,' a situation where no one player can get a better payoff by changing strategies, so long as other players also keep their strategies. Using Nash's framework, predictions can be made about the outcomes of strategic interactions. Based on Nash's advances, game theory developed into one of the pre-eminent tools of economics in the second half of the 20th century. In recognition of his breakthrough work, Nash was joint recipient of the Nobel Prize for Economics in 1994 for 'pioneering analysis of equilibria in the theory of non-cooperative games.'... [Russell] Crowe played John Forbes Nash in the 2001 film A Beautiful Mind... Part of the movie takes place at MIT, portraying Nash's years as an instructor in mathematics at the Institute, where he worked from 1951 to 1959, until mental illness curtailed his mathematical career." (MIT Libraries).
HBS 68679.
$4,500.
First edition of John Nash's Nobel Prize winning doctoral thesis on game theory. Found on pages 286-295 within the Princeton University Press's Annals of Mathematics. Octavo (9 1/2 x 6 3/8 inches; 240 x 162 mm). Full journal: 215-402 pp.
Publisher's original printed wrappers, rebacked to style. Previous owner's very light signature on front wrapper. Otherwise about fine.
"In a set of papers in the 1950s, mathematician John Forbes Nash set forth breakthrough ideas that helped transform game theory from an ivory tower abstraction into an indispensable analytical tool used by strategists from Wall Street to the Pentagon. The foundational game theory work of mathematician John von Neumann and economist Oskar Morgenstern, published in 1944, provided a framework for solutions to zero-sum games, where one player's win was the other's loss. Nash, in his dissertation research at Princeton (published in this and three other papers), extended game theory to n-person games in which more than one party can gain, a better reflection of practical situations. Nash demonstrated that 'a finite non-cooperative game always has at least one equilibrium point' or stable solution. This result came to be called the 'Nash equilibrium,' a situation where no one player can get a better payoff by changing strategies, so long as other players also keep their strategies. Using Nash's framework, predictions can be made about the outcomes of strategic interactions. Based on Nash's advances, game theory developed into one of the pre-eminent tools of economics in the second half of the 20th century. In recognition of his breakthrough work, Nash was joint recipient of the Nobel Prize for Economics in 1994 for 'pioneering analysis of equilibria in the theory of non-cooperative games.'... [Russell] Crowe played John Forbes Nash in the 2001 film A Beautiful Mind... Part of the movie takes place at MIT, portraying Nash's years as an instructor in mathematics at the Institute, where he worked from 1951 to 1959, until mental illness curtailed his mathematical career." (MIT Libraries).
HBS 68679.
$4,500.
- Bookseller Heritage Book Shop, LLC (US)
- Book Condition Used
- Quantity Available 1
- Publisher Princeton University Press
- Place of Publication Princeton, New Jersey
- Date Published 1951
- Keywords Games|Gambling|Mathematics