Résumé
Industry 4.0 brought a new revolution in industries by making them fully automated via innovative technologies, without considering human-power. Industry 4.0 aims to establish 'smart manufacturing industry' by emphasizing on Information Technology (IT), Internet of Things (IOT), Cyber Physical System (CPS), Industrial Internet of Things (IIOT), Artificial Intelligence (AI), Big Data, and Robotics. This highly automated industry neglected human's intellectual and cognitive skills, causing an increase in unemployment rate and devastation of ecosystem. In this paper, we proposed a framework of emerging technologies of Industry 5.0. Here, we examined how Industry 5.0 will further extend the development of Industry 4.0 and how humans can contribute to its manufacturing process. In addition, prestigious and significant skills for workforce in manufacturing industry are also explored. We also investigated how the Covid-19 epidemic was associated to Industry 5.0 and the idea of sustainable development goals (SDGs). Finally, we highlighted some of the challenges facing the industrial sector as research direction of Industry 5.0. © 2022 IEEE.
Résumé
New product development to enhance companies’ competitiveness and reputation is one of the leading activities in manufacturing. At present, achieving successful product design has become more difficult, even for companies with extensive capabilities in the market, because of disorganisation in the fuzzy front end (FFE) of the innovation process. Tremendous amounts of information, such as data on customers, manufacturing capability, and market trend, are considered in the FFE phase to avoid common flaws in product design. Because of the high degree of uncertainties in the FFE, multidimensional and high-volume data are added from time to time at the beginning of the formal product development process. To address the above concerns, deploying big data analytics to establish industrial intelligence is an active but still under-researched area. In this paper, an intelligent product design framework is proposed to incorporate fuzzy association rule mining (FARM) and a genetic algorithm (GA) into a recursive association-rule-based fuzzy inference system to bridge the gap between customer attributes and design parameters. Considering the current incidence of epidemics, such as the COVID-19 pandemic, communication of information in the FFE stage may be hindered. Through this study, a recursive learning scheme is established, therefore, to strengthen market performance, design performance, and sustainability on product design. It is found that the industrial big data analytics in the FFE process achieve greater flexibility and self-improvement mechanism on the evolution of product design.