Search results for "Symmetric game"

showing 4 items of 4 documents

A saturated strategy robustly ensures stability of the cooperative equilibrium for Prisoner's dilemma

2016

We study diffusion of cooperation in a two-population game in continuous time. At each instant, the game involves two random individuals, one from each population. The game has the structure of a Prisoner's dilemma where each player can choose either to cooperate (c) or to defect (d), and is reframed within the field of approachability in two-player repeated game with vector payoffs. We turn the game into a dynamical system, which is positive, and propose a saturated strategy that ensures local asymptotic stability of the equilibrium (c, c) for any possible choice of the payoff matrix. We show that there exists a rectangle, in the space of payoffs, which is positively invariant for the syst…

Computer Science::Computer Science and Game Theory0209 industrial biotechnologyControl and OptimizationSymmetric gameNormal-form gameStochastic gameSymmetric equilibrium02 engineering and technologyPrisoner's dilemma01 natural sciences010104 statistics & probability020901 industrial engineering & automationStrategySettore ING-INF/04 - AutomaticaArtificial IntelligenceRepeated gameDecision Sciences (miscellaneous)Simultaneous gameSettore MAT/09 - Ricerca Operativa0101 mathematicsMathematical economicsGames Sociology Statistics Trajectory Asymptotic stability Jacobian matricesArtificial Intelligence; Decision Sciences (miscellaneous); Control and OptimizationMathematics2016 IEEE 55th Conference on Decision and Control (CDC)
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Pragmatic languages with universal grammars

2012

Abstract This paper constructs the equilibrium for a specific code that can be seen as a “universal grammar” in a class of common interest Sender–Receiver games where players communicate through a noisy channel. We propose a Senderʼs signaling strategy which does not depend on either the game payoffs or the initial probability distribution. The Receiverʼs strategy partitions the set of possible sequences into subsets, with a single action assignment to each of them. The Senderʼs signaling strategy is a Nash equilibrium, i.e. when the Receiver responds best to the Senderʼs strategy, the Sender has no incentive to deviate. An example shows that a tie-breaking decoding is crucial for the block…

Computer Science::Computer Science and Game TheoryEconomics and EconometricsTheoretical computer sciencejel:C61jel:D82Symmetric gamejel:C73TheoryofComputation_GENERALgrammar pragmatic language prototypes separating equilibriasymbols.namesakeNash equilibriumsymbolsCode (cryptography)Probability distributionCommunication sourceSignaling gameSet (psychology)FinanceDecoding methodsComputer Science::Information TheoryMathematicsGames and Economic Behavior
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Advantage of Quantum Strategies in Random Symmetric XOR Games

2013

Non-local games are known as a simple but useful model which is widely used for displaying nonlocal properties of quantum mechanics. In this paper we concentrate on a simple subset of non-local games: multiplayer XOR games with 1-bit inputs and 1-bit outputs which are symmetric w.r.t. permutations of players.

Computer Science::Computer Science and Game TheoryTheoretical computer scienceSequential gameQuantum pseudo-telepathySimple (abstract algebra)Symmetric gameComputingMilieux_PERSONALCOMPUTINGCombinatorial game theoryRepeated gameTheoryofComputation_GENERALScreening gameQuantumMathematics
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On symmetric nonlocal games

2013

Abstract Nonlocal games are used to display differences between the classical and quantum world. In this paper, we study symmetric XOR games, which form an important subset of nonlocal games. We give simple methods for calculating the classical and the quantum values for symmetric XOR games with one-bit input per player. We illustrate those methods with two examples. One example is an N -player game (due to Ardehali (1992) [3] ) that provides the maximum quantum-over-classical advantage. The second example comes from generalization of CHSH game by letting the referee to choose arbitrary symmetric distribution of players’ inputs.

Discrete mathematicsComputer Science::Computer Science and Game TheoryGeneral Computer ScienceQuantum pseudo-telepathyGeneralizationSymmetric gameComputingMilieux_PERSONALCOMPUTINGCombinatorial game theoryTheoryofComputation_GENERALSymmetric probability distributionTheoretical Computer ScienceSimple (abstract algebra)Quantum worldMathematical economicsQuantumMathematicsTheoretical Computer Science
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