We introduce Incentive Design: a new class of problems for equilibrium verification in multi-agent systems. In our model, agents attempt to maximize their utility functions, which are expressed as formulae in LTL[F], a quantitative extension of Linear Temporal Logic with functions computable in polynomial time. We assume agents are rational, in the sense that they adopt strategies consistent with game theoretic solution concepts such as Nash equilibrium. For each solution concept we consider, we analyze the problems of verifying whether an incentive scheme achieves a societal objective and finding one that does so, whether it be social welfare or any other aggregate measure of collective well-being. We study both static and dynamic incentive schemes, showing that the latter are more powerful than the former. Finally, we solve the incentive verification and synthesis problems for all the solution concepts we consider, and analyze their complexity.
Incentive Design for Rational Agents / Hyland, David; Mittelmann, Munyque; Murano, Aniello; Perelli, Giuseppe; Wooldridge, Michael. - (2024), pp. 464-474. (Intervento presentato al convegno International Conference on the Principles of Knowledge Representation and Reasoning tenutosi a Hanoi, Vietnam) [10.24963/kr.2024/44].
Incentive Design for Rational Agents
Perelli, Giuseppe
;
2024
Abstract
We introduce Incentive Design: a new class of problems for equilibrium verification in multi-agent systems. In our model, agents attempt to maximize their utility functions, which are expressed as formulae in LTL[F], a quantitative extension of Linear Temporal Logic with functions computable in polynomial time. We assume agents are rational, in the sense that they adopt strategies consistent with game theoretic solution concepts such as Nash equilibrium. For each solution concept we consider, we analyze the problems of verifying whether an incentive scheme achieves a societal objective and finding one that does so, whether it be social welfare or any other aggregate measure of collective well-being. We study both static and dynamic incentive schemes, showing that the latter are more powerful than the former. Finally, we solve the incentive verification and synthesis problems for all the solution concepts we consider, and analyze their complexity.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
