A framework for an effective virtual commissioning of agent-based cyber-physical production systems integrated into manufacturing facilities

Concurrent Engineering Pub Date : 2022-08-22 DOI:10.1177/1063293X221121819

Abdelhamid Bendjelloul, B. Mihoubi, M. Gaham, M. Moufid, B. Bouzouia

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引用次数: 1

Abstract

The rise of the fourth industrial revolution and the interest in autonomous production led to increased adoption of Cyber-Physical Production Systems (CPPS) in the industry. Due to the significant suitability of Multi-Agent Systems in building cyber-physical production systems compliant with the Reference Architectural Model Industry 4.0 (RAMI 4.0), more CPPS are being realized using Industrial Agents. Because of their complexity, guidelines for conducting virtual commissioning of agent-based CPPS are required. This paper proposes a novel framework for the virtual commissioning of agent-based CPPS. The framework contributions reside in incorporating both high-level and low-level control verification and validation (V&V) and employing two combined SIL and HIL approaches during the virtual commissioning of agent-based CPPS. The feasibility of the framework was demonstrated during the V&V of an agent-based CPPS on an industrial-scale laboratory robotized production cell. The framework had a significant impact on reducing the cost and efforts of the agent-based CPPS virtual commissioning.

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集成到制造设施中的基于代理的网络物理生产系统的有效虚拟调试框架

第四次工业革命的兴起以及人们对自主生产的兴趣，促使业界越来越多地采用网络物理生产系统(CPPS)。由于多代理系统在构建符合工业4.0参考架构模型(RAMI 4.0)的网络物理生产系统方面具有重要的适用性，因此越来越多的CPPS正在使用工业代理来实现。由于其复杂性，需要对基于代理的CPPS进行虚拟调试的指导方针。提出了一种新的基于agent的CPPS虚拟调试框架。该框架的贡献在于，在基于代理的CPPS虚拟调试期间，结合了高级和低级控制验证和验证(V&V)，并采用了两种SIL和HIL相结合的方法。在工业规模的实验室机器人生产单元上，基于agent的CPPS的V&V验证了该框架的可行性。该框架对降低基于代理的CPPS虚拟调试的成本和工作量产生了重大影响。

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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Concurrent Engineering

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