Linear Dynamic Logic on finite traces (LDLF) is a powerful logic for reasoning about the behaviour of concurrent and multi-Agent systems. In this paper, we investigate techniques for both the characterisation and verification of equilibria in multi-player games with goals/objectives expressed using logics based on LDLF. This study builds upon a generalisation of Boolean games, a logic-based game model of multi-Agent systems where players have goals succinctly represented in a logical way. Because LDLF goals are considered, in the setting we study-iterated Boolean games with goals over finite traces (iBGf)-players' goals can be defined to be regular properties while achieved in a finite, but arbitrarily large, trace. In particular, using alternating automata, the paper investigates automata-Theoretic approaches to the characterisation and verification of (pure strategy Nash) equilibria, shows that the set of Nash equilibria in games with LDLF objectives is regular, and provides complexity results for the associated automata constructions.
Iterated games with LDL goals over finite traces / Gutierrez, J.; Perelli, G.; Wooldridge, M.. - 2:(2017), pp. 696-704. (Intervento presentato al convegno 16th International Conference on Autonomous Agents and Multiagent Systems, AAMAS 2017 tenutosi a Sao Paulo; Brazil).
Iterated games with LDL goals over finite traces
Perelli G.
;
2017
Abstract
Linear Dynamic Logic on finite traces (LDLF) is a powerful logic for reasoning about the behaviour of concurrent and multi-Agent systems. In this paper, we investigate techniques for both the characterisation and verification of equilibria in multi-player games with goals/objectives expressed using logics based on LDLF. This study builds upon a generalisation of Boolean games, a logic-based game model of multi-Agent systems where players have goals succinctly represented in a logical way. Because LDLF goals are considered, in the setting we study-iterated Boolean games with goals over finite traces (iBGf)-players' goals can be defined to be regular properties while achieved in a finite, but arbitrarily large, trace. In particular, using alternating automata, the paper investigates automata-Theoretic approaches to the characterisation and verification of (pure strategy Nash) equilibria, shows that the set of Nash equilibria in games with LDLF objectives is regular, and provides complexity results for the associated automata constructions.| File | Dimensione | Formato | |
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