基于强化学习的实时容错框架

Y. Kotb, Mouhammad Alakkoummi, H. Kanj
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引用次数: 3

摘要

智能自治系统是在运行时独立做出决策而不需要人类交互的系统。容错与避免是影响系统自主性的重要因素之一,它是自治系统在不需要监督的情况下,能够适应周围环境状态变化的基本能力。本文提出了一个框架,其中通过基于强化学习的框架来实现容错和避免。当环境状态发生变化时,该框架能够适应变化并学习新的容错和避免过程。该框架有一组预定义的动作和一个可观察的环境。强化学习的应用是为了学习避免或容忍失败所需采取的行动顺序。学习过程的结果是一系列动作,以帮助系统达到期望的状态,同时避免故障状态。当相同的情况发生时,当代理处于类似的环境状态并且具有类似的读数时,这些将用于以后的执行。提出了两个定理和一个引理来定义该框架的有效性和正确性。然后对所提出的框架进行了仿真和测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reinforcement Learning Based Framework for Real Time Fault Tolerance
Smart autonomous systems are system that take decisions independently and on run time without the need for human interaction. One of the most important components that plays a big roll in system autonomy is fault tolerance and avoidance which is a basic capability that autonomous systems should have in order to be able to survive surrounding environment state change without the need for supervision. In this paper, a framework is proposed where fault tolerance and avoidance is achieved through a reinforcement learning based framework. The framework adapts to changes and learns new processes for fault tolerance and avoidance whenever environment states change. The framework has a set of predefined actions and an observable environment. Reinforcement learning is being applied in order to learn the sequence of actions that needs to be taken to avoid or tolerate failure. The outcome of the learning process is a sequence of actions to help the system reach a desired state while avoiding fault states. These are used for later execution when the same situation occurs when the agent is in similar environment state while having the similar readings. Two Theorems and a Lemma are proposed to define the validity and correctness of the framework. The proposed framework is then simulated and tested.
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