Designing minimal effective normative systems with the help of lightweight formal methods

Jianye Hao, Eunsuk Kang, Jun Sun, D. Jackson
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引用次数: 9

Abstract

Normative systems (i.e., a set of rules) are an important approach to achieving effective coordination among (often an arbitrary number of) agents in multiagent systems. A normative system should be effective in ensuring the satisfaction of a desirable system property, and minimal (i.e., not containing norms that unnecessarily over-constrain the behaviors of agents). Designing or even automatically synthesizing minimal effective normative systems is highly non-trivial. Previous attempts on synthesizing such systems through simulations often fail to generate normative systems which are both minimal and effective. In this work, we propose a framework that facilitates designing of minimal effective normative systems using lightweight formal methods. Given a minimal effective normative system which coordinates many agents must be minimal and effective for a small number of agents, we start with automatically synthesizing one such system with a few agents. We then increase the number of agents so as to check whether the same design remains minimal and effective. If it is, we manually establish an induction proof so as to lift the design to an arbitrary number of agents.
在轻量级形式化方法的帮助下设计最小有效的规范系统
规范系统(即一套规则)是在多智能体系统中实现(通常是任意数量的)智能体之间有效协调的重要方法。规范系统应该有效地确保满足理想的系统属性,并且最小化(即,不包含不必要地过度约束代理行为的规范)。设计甚至自动合成最小有效的规范系统是非常重要的。以前通过模拟综合这些系统的尝试往往不能产生既最小又有效的规范系统。在这项工作中,我们提出了一个框架,该框架有助于使用轻量级形式化方法设计最小有效的规范系统。给定一个协调多个agent的最小有效规范系统,对于少数agent必须是最小有效的,我们从自动合成一个这样的系统开始。然后,我们增加代理的数量,以检查相同的设计是否仍然是最小和有效的。如果是,我们手动建立归纳证明,从而将设计提升到任意数量的代理。
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