2 research outputs found
Cooperation Enforcement and Collusion Resistance in Repeated Public Goods Games
Enforcing cooperation among substantial agents is one of the main objectives
for multi-agent systems. However, due to the existence of inherent social
dilemmas in many scenarios, the free-rider problem may arise during agents'
long-run interactions and things become even severer when self-interested
agents work in collusion with each other to get extra benefits. It is commonly
accepted that in such social dilemmas, there exists no simple strategy for an
agent whereby she can simultaneously manipulate on the utility of each of her
opponents and further promote mutual cooperation among all agents. Here, we
show that such strategies do exist. Under the conventional repeated public
goods game, we novelly identify them and find that, when confronted with such
strategies, a single opponent can maximize his utility only via global
cooperation and any colluding alliance cannot get the upper hand. Since a full
cooperation is individually optimal for any single opponent, a stable
cooperation among all players can be achieved. Moreover, we experimentally show
that these strategies can still promote cooperation even when the opponents are
both self-learning and collusive