Abstract
A synergic framework for cyber-physical production systems in the context of Industry 4.0 and beyond
Highlights
Industry 4.0 is known as the fourth industrial revolution globally (Gilchrist, 2016; Liao et al, 2017; Lu, 2017)
The aim of this paper is to present a generalized synergic framework between different production facilities locating at different geographical locations to realize an energy-saving and efficient cyber-physical production system for the production of different types of jobs in the context of the industry 4.0 and beyond
The machines used in the industry 4.0 can be referred to as cyber-physical production systems (CPPS), which are developed by integration of mechanical engineering, computer science, electronics engineering and information technology altogether (Verl et al, 2012; Vogel et al, 2014; Vogel et al, 2015)
Summary
Industry 4.0 is known as the fourth industrial revolution globally (Gilchrist, 2016; Liao et al, 2017; Lu, 2017). The aforesaid decision support system is observed to work on a multi-layer service-oriented architecture that integrates different sub-systems, sensors, information and data with each other. The authors focused on the integration of CPPS and social media and proposed effective production strategies. The authors worked on the logistics management aspect associated with industry 4.0 and described different logistics issues and their impact on the functioning of industry 4.0. Very limited research work is found in the development of an integrated framework for the production of different jobs at more than one production facility operating at different geographic locations. The proposed framework is highly efficient in utilizing cyber-physical production systems for the production of different types of jobs
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