Journal of Industrial Safety Engineering

Advancement of technology is essential requirement for any factory for sustaining in competitive environment. Therefore, some researches have been discussed to identify the best technologies for the betterment of factory. Automation, cloud computing, smart factory, ecofriendly manufacturing concepts can be utilized for the development of factory for the making it productive, safer and secure. Future of factory can be built by taking benefits from these technologies.

Ghadimi, Pouya, Sami Kara, Bernard Kornfeld. Renewable energy integration into factories: Real-time control of on-site energy systems. CIRP Annals-Manufacturing Technology. 2015; 64(1): 443–446p.

Zülch Gert, Sascha Stowasser. The Digital Factory: An instrument of the present and the future. Comput Ind. 2005; 56(4): 323–324p.

Creutznacher T, Berger U, Lepratti R, et al. The transformable factory: adapting automotive production capacities. Procedia CIRP, 2016, 41: 171–176p.

Carpanzano E, Jovane F. Advanced automation solutions for future adaptive factories. CIRP Annals-Manufacturing Technology. 2007; 56(1): 435–438p.

Li Defang. Perspective for smart factory in petrochemical industry. Comput Chem Eng. 2016; 91: 136–148p.

Bracht Uwe, Thomas Masurat. The Digital Factory between vision and reality. Comput Ind. 2005; 56(4): 325–333p.

Woerner Jan, Heinz Woern. A security architecture integrated co-operative engineering platform for organised model exchange in a Digital Factory environment. Comput Ind. 2005; 56(4): 347–360p.

Zülch Gert, Tim Grieger. Modelling of occupational health and safety aspects in the Digital Factory. Comput Ind. 2005; 56(4): 384–392p.

May Gökan, Bojan Stahl, Marco Taisch. Energy management in manufacturing: Toward eco-factories of the future–A focus group study. Appl Energ. 2016; 164: 628–638p.

Chen Toly, Min-Chi Chiu. Development of a cloud-based factory simulation system for enabling ubiquitous factory simulation. Robotics and Computer-Integrated Manufacturing (2016).

Diab Fahd, et al. An environmentally friendly factory in Egypt based on hybrid photovoltaic/wind/diesel/battery system. J Cleaner Production. 2016; 112: 3884–3894p.

Detlef Zuehike. Smart Factory–Towards a Factory of Things, Technology Initiative V Kaiserslautern, Germany, German Research Center for Artificial Intelligence, DFKL. Kaiserslautern. Annual Reviews in Control. 2010; 34(1): 129–138p.

Strijkers R, Makkes MX, de Laat C, et al. Internet factories: Creating application-specific networks on-demand. Comput Netw. 2014; 68: 187–198p.

Wagner U, AlGeddawy T, ElMaraghy H, et al. Developing products for changeable learning factories. CIRP J Manuf Sci Technol. 2015; 9: 146–158p.

Haddara Moutaz, Ahmed Elragal. The Readiness of ERP Systems for the Factory of the Future. Procedia Comput Sci. 2015; 64: 721–728p.

Radziwon A, Bilberg A, Bogers M, et al. The Smart Factory: Exploring adaptive and flexible manufacturing solutions. Procedia Eng. 2014; 69: 1184–1190p.

Charpentier Jean-Claude. What Kind of Modern “Green” Chemical Engineering is Required for the Design of the “Factory of Future”? Procedia Engineering. 2016; 138: 445–458p.

Michalos G, Makris S, Spiliotopoulos J, et al. ROBO-PARTNER: Seamless Human-Robot Cooperation for Intelligent, Flexible and Safe Operations in the Assembly Factories of the Future. Procedia CIRP. 2014; 23: 71–76p.

Caggiano Alessandra, Fabrizia Caiazzo, Roberto Teti. Digital Factory Approach for Flexible and Efficient Manufacturing Systems in the Aerospace Industry. Procedia CIRP. 2015; 37: 122–127p.