Abstract We analyse the notion of iterated admissibility, i.e., avoidance of weakly dominated strategies, as a solution concept for extensive games of infinite horizon. This concept is known to provide a valuable criterion for selecting among multiple equilibria and to yield sharp predictions in finite games. However, generalisations to the infinite are inherently problematic, due to unbounded dominance chains and the requirement of transfinite induction. In a multi-player non-zero-sum setting, we show that for infinite extensive games of perfect information with only two possible payoffs (win or lose), the concept of iterated admissibility is sound and robust: all iteration stages are dominated by admissible strategies, the iteration is no...
We present a novel coalgebraic formulation of infinite extensive games. We define both the game tree...
We present a novel coalgebraic formulation of infinite extensive games. We define both the game tree...
Admissible strategies, i.e. those that are not dominated by any other strategy, are a typical ration...
Admissibility, i.e. the deletion of weakly dominated strategies, is a highly controversia1 solution ...
In this invited paper, we study the concept of admissible strategies for two player win/lose infinit...
In this invited paper, we study the concept of admissible strategies for two player win/lose infinit...
International audienceIn this invited paper, we study the concept of admissible strategies for two p...
International audienceIn this paper, we study the notion of admissibility for randomised strategies ...
In this paper, we study the notion of admissibility for randomised strategies in concurrent games. I...
forthcoming in Erkenntnis We analyze common reasoning about admissibility in the strategic and exten...
Admissibility has been studied for games of infinite duration with Boolean objectives. We extend he...
In this paper we analyze two nested iterative solution procedures for infinite, dynamic games of inc...
Admissible strategies, i.e. Those that are not dominated by any other strategy, are a typical ration...
We consider nondeterministic concurrent games played on event structures and study their determinacy...
This paper extends Milgrom and Robert's treatment of supermodular games in two ways. It points ou...
We present a novel coalgebraic formulation of infinite extensive games. We define both the game tree...
We present a novel coalgebraic formulation of infinite extensive games. We define both the game tree...
Admissible strategies, i.e. those that are not dominated by any other strategy, are a typical ration...
Admissibility, i.e. the deletion of weakly dominated strategies, is a highly controversia1 solution ...
In this invited paper, we study the concept of admissible strategies for two player win/lose infinit...
In this invited paper, we study the concept of admissible strategies for two player win/lose infinit...
International audienceIn this invited paper, we study the concept of admissible strategies for two p...
International audienceIn this paper, we study the notion of admissibility for randomised strategies ...
In this paper, we study the notion of admissibility for randomised strategies in concurrent games. I...
forthcoming in Erkenntnis We analyze common reasoning about admissibility in the strategic and exten...
Admissibility has been studied for games of infinite duration with Boolean objectives. We extend he...
In this paper we analyze two nested iterative solution procedures for infinite, dynamic games of inc...
Admissible strategies, i.e. Those that are not dominated by any other strategy, are a typical ration...
We consider nondeterministic concurrent games played on event structures and study their determinacy...
This paper extends Milgrom and Robert's treatment of supermodular games in two ways. It points ou...
We present a novel coalgebraic formulation of infinite extensive games. We define both the game tree...
We present a novel coalgebraic formulation of infinite extensive games. We define both the game tree...
Admissible strategies, i.e. those that are not dominated by any other strategy, are a typical ration...