基于自适应代理的社交游戏中的互惠和报复

IEEE Transactions on Autonomous Mental Development Pub Date : 2012-09-01 DOI:10.1109/TAMD.2012.2202658

Derrik E. Asher, Andrew Zaldivar, B. Barton, A. Brewer, J. Krichmar

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引用次数: 22

摘要

博弈论对于理解冒险和合作行为很有用。然而，在对冲突游戏中决策的神经基础的研究中，研究对象通常是用预先确定的策略与对手对抗。本研究提出了一种神经生物学上合理的动作选择和神经调节模型，该模型能适应对手的策略和环境条件。该模型是基于多巴胺能和血清素能系统分别跟踪预期回报和成本的假设。该模型同时控制模拟代理人和机器人代理人与实验对象玩鹰鸽和鸡的游戏。当与该模型的攻击性版本对抗时，受试者的策略发生了重大转变，从“赢-守-输”转变为“以牙还牙”。当面对倾向于冒险行为的代理人时，受试者变得具有报复性。这些结果突出了主体和主体之间利用适应性行为的重要相互作用。此外，它们揭示了产生合作和竞争行为的神经调节机制。

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Reciprocity and Retaliation in Social Games With Adaptive Agents

Game theory has been useful for understanding risk-taking and cooperative behavior. However, in studies of the neural basis of decision-making during games of conflict, subjects typically play against opponents with predetermined strategies. The present study introduces a neurobiologically plausible model of action selection and neuromodulation, which adapts to its opponent's strategy and environmental conditions. The model is based on the assumption that dopaminergic and serotonergic systems track expected rewards and costs, respectively. The model controlled both simulated and robotic agents playing Hawk-Dove and Chicken games against subjects. When playing against an aggressive version of the model, there was a significant shift in the subjects' strategy from Win-Stay-Lose-Shift to Tit-For-Tat. Subjects became retaliatory when confronted with agents that tended towards risky behavior. These results highlight the important interactions between subjects and agents utilizing adaptive behavior. Moreover, they reveal neuromodulatory mechanisms that give rise to cooperative and competitive behaviors.

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来源期刊

IEEE Transactions on Autonomous Mental Development COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-ROBOTICS

自引率

0.00%

发文量

审稿时长

3 months