Il Digital twin nell’Industria 4.0: connessione tra fisico e virtuale. La bibliografia

Pubblichiamo di seguito la bibliografia completa dell’articolo “Il Digital twin nell’Industria 4.0: connessioni tra fisico e virtuale”, scritto da Vito Del Vecchio, Massimiliano Gervasi, Mariangela Lazoi, Manuela Marra sul numero di settembre 2020 di Sistemi&Impresa.

Cimino C., Negri E., Fumagalli L. (2019), “Review of Digital twin applications in manufacturing”, Computers in industry, 113 (103130).

Gartner (2019), Gartner survey reveals Digital twins are entering mainstream use, https://www.gartner.com/en/newsroom/press-releases/2019-02-20-gartner-survey-reveals-digital-twins-are-entering-mai.

Gartner Glossary (2020), Digital twin, https://www.gartner.com/en/glossary.

Glaessgen E. H., Stargel D. S. (2012), “The Digital twin paradigm for future NASA and U.S. Air Force vehicles”, Paper for the 53rd structures, structural dynamics, and materials conference: special session on the Digital twin.

Greer C., Burns M., Wollman D., Griffor E. (2019), “Cyber-physical systems and Internet of Things”, NIST Special publication1900 (202).

Grieves M. (2006), Product lifecycle management: driving the next generation of lean thinking, McGraw-Hill.

IBM (2017), “Digital twin technologies for high-performance manufacturing”.

Kusiak A. (2017), “Smart manufacturing must embrace big data”, Nature, 544, 23-25.

Lu Y., Liu C., Wang K. I., Huang H., Xu X. (2020), “Digital twin-driven smart manufacturing: connotation, reference model, applications and research issues”, Robotics and computer integrated manufacturing, 61 (1).

Minerva R., Biru A., Rotondi D. (2015), “Towards a definition of the Internet of Things (IoT)”, IEE Internet of Things.

Miorandi D., Sicari S., Pellegrini F., Chlamta I. (2012), “Internet of Things: vision, applications and research challenges”, Ad Hoc Networks, 10 (7),1497-1516.

Rouse M. (2019), “Artificial Intelligence of Things (AIoT)?”, IoT Agenda.

Tao F., Cheng J., Qi Q., Zhang M., Zhang H., Sui F. (2018), “Digital twin-driven product design, manufacturing and service with Big data”, The international journal of advanced manufacturing technology, 94, 3563-3576.

Tao F., Zhang M., Cheng J. F., Qi Q. L. (2017), “Digital twin workshop: a new paradigm for future workshop”, Computer integrated manufacturing systems, 23 (1), 1-9.

Tao F., Zhang H., Liu A., Nee A. Y. C. (2019), “Digital twin in industry: state-of-the-art”, IEEE transactions on industrial informatics, 15 (4), 2405-2415.

Tao F., Zhang M. (2017), “Digital twin shop-floor: a new shop-floor paradigm towards Smart manufacturing”, IEEE access.

Qi Q., Tao F., Zuo Y., Zhao D. (2018), “Digital twin service towards Smart manufacturing”, Procedia CIRP, 72, 237-242.

Wang W., Zhang Y., Zhong R. Y. (2020), “A proactive material handling method for CPS enabled shop-floor”, Robotics and computer integrated manufacturing, 61 (101849).

Wyman O., Digital twins: identical, but different, https://www.oliverwyman.com/our-expertise/insights/2016/oct/digital-twins.html.

 

L’articolo integrale è pubblicato sul numero di settembre 2020 di Sistemi&Impresa.

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