Abstract
Technological developments along with the emergence of Industry 4.0 allow for new approaches to solve industrial problems, such as the Job-shop Scheduling Problem (JSP). In this sense, embedding Multi-Agent Systems (MAS) into Cyber-Physical Systems (CPS) is a highly promising approach to handle complex and dynamic JSPs. This paper proposes a data exchange framework in order to deal with the JSP considering the state-of-the-art technology regarding MAS, CPS and industrial standards. The proposed framework has self-configuring features to deal with disturbances in the production line. This is possible through the development of an intelligent system based on the use of agents and the Internet of Things (IoT) to achieve real-time data exchange and decision making in the job-shop. The performance of the proposed framework is tested in a simulation study based on a real industrial case. The results substantiate gains in flexibility, scalability and efficiency through the data exchange between factory layers. Finally, the paper presents insights regarding industrial applications in the Industry 4.0 era in general and in particular with regard to the framework implementation in the analyzed industrial case.
Highlights
IntroductionNew information technologies have given rise to intelligent factories in what is termed as Industry 4.0 (i4.0) [1]
Over the years, industry performance has increasingly benefited from technological developments.More recently, new information technologies have given rise to intelligent factories in what is termed as Industry 4.0 (i4.0) [1]
Job-shop Scheduling Problem (JSP), in order to identify the main characteristics and methods to deal with it; Applications of Multi-Agent Systems (MAS) in Cyber-Physical Systems (CPS), in order to assess the best practices in the development of MAS and technologies currently applied in the implementation of such systems in the CPS domain; Industrial standards, in order to analyze the main standards currently used in the industry, as well as relevant characteristics to be considered for facilitating its implementation
Summary
New information technologies have given rise to intelligent factories in what is termed as Industry 4.0 (i4.0) [1]. The emergence of CPS brings up new solving opportunities to industrial problems since it integrates computational with physical processes [2,4], including coordination, monitoring and control of physical operations and engineering systems [5]. Given the characteristics of complexity, dynamism and stochasticity of industrial environments, the resolution of this type of problem may involve the use of very complex solutions. When considering the industrial job-shop, these characteristics include a diversity of products, processes and unpredictable events such as the arrival of new orders, processing delays, machine failures
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