Scheduling non-enforceable contracts among autonomous agents

Proceedings. 3rd IFCIS International Conference on Cooperative Information Systems (Cat. No.98EX122) Pub Date : 1998-08-20 DOI:10.1109/COOPIS.1998.706187

T. Tesch, K. Aberer

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引用次数: 8

Abstract

With the emergence of fast and standardized communication infrastructures over which separately designed agents of different organizations can interact in real-time, there is an increasing demand for cooperation mechanisms that allow to carry out inter-organizational cooperations in a safe way. The lack of external control over an agent's decisions, resources and actions hamper the usage of traditional transaction and workflow technology to make self-interested agents cooperate, i.e., agents cannot not be forced from a mediating cooperation instance to continue a cooperation. The challenge is, therefore, to design a cooperation mechanism that motivates cooperating agents to carry out a specified contract and, in case of unilateral defection, ensures that none of the cooperators can benefit from the situation. In this paper we present a domain independent framework how non-enforceable cooperations can be made safe against unilateral defection. We have developed a utility-based scheduling algorithm that keeps a cooperation in equilibrium and that motivates agents to continue a cooperation as long as it is for all participants beneficial.

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在自治代理之间调度不可执行的契约

随着快速和标准化的通信基础设施的出现，不同组织的单独设计的代理可以实时交互，对允许以安全的方式进行组织间合作的合作机制的需求不断增加。由于缺乏对代理决策、资源和行为的外部控制，传统的事务和工作流技术难以使自利代理进行合作，即不能强迫代理从一个协调的合作实例中继续合作。因此，挑战在于设计一种合作机制，激励合作的代理人执行特定的合同，并在发生单边背叛的情况下，确保没有任何一个合作者能从这种情况中获益。在本文中，我们提出了一个领域无关的框架，如何使非强制合作能够安全地防止单边背叛。我们开发了一种基于效用的调度算法，该算法使合作处于均衡状态，并激励代理继续合作，只要对所有参与者都有利。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings. 3rd IFCIS International Conference on Cooperative Information Systems (Cat. No.98EX122)

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