Evolution of agents' dynamics of multiagent systems under consensus protocol in the face of jamming attacks is discussed, where centralized parties are able to influence the control signals of the agents. In this paper we focus on a game-theoretical approach of multiagent systems where the players have incomplete information on their opponents' strength. We consider repeated games with both simultaneous and sequential player actions where players update their beliefs of each other over time. The effect of the players' optimal strategies according to Bayesian Nash Equilibrium and Perfect Bayesian Equilibrium on agents' consensus is examined. It is shown that an attacker with incomplete knowledge may fail to prevent consensus despite having sufficient resources to do so.
翻译:讨论在遇到干扰攻击时,根据共识协议的多试剂系统代理人动态的演变,中央集权方能够影响代理人的控制信号。在本文中,我们侧重于多试剂系统的游戏理论方法,即玩家对其对手的实力有不完全的信息。我们考虑同时和相继的玩家行动反复游戏,让玩家随时更新彼此的信念。根据Bayesian Nash Equiblium和完美Bayesian Equiquilium,对玩家的最佳战略对代理人的共识的影响进行了研究。我们发现,一个知识不完整的攻击者尽管拥有足够资源,但仍可能无法阻止达成共识。