Istota i założenia koncepcji Przemysł 4.0 w aspekcie jej implementacji w firmach Dolnego Śląska

• Autorzy: Andrzej Bujak , Marek Gurak

Warianty tytułu

The Essence and Assumptions of the Industry 4.0 Concept in the Aspect of its Implementation in Companies in Lower Silesia

• Języki publikacji: PL

Abstrakty

EN

The modern world and the global economy undergo numerous and rapid trans- formations whose main driving force is the development of new technologies. New, pro- spective concepts for the functioning of industry and logistics are emerging, such as: Indu- stry 4.0 or Logistics 4.0. They assume an increase in robotization, extensive data exchange as well as automation and optimization of many real time processes. The effectiveness of implementing new business models and solutions in the field of digital transformation requires, above all, a full identification and understanding of their ideas and assumptions. An essential element of the conducted analyses is also to answer the question: how to introduce specific solutions and in what order, how to build these modern systems? In this sense, it seems to be reasonable to ask about new possibilities and functionalities which should be generated by prospective solutions implemented in industry, in order to fully secure the pragmatic implementation of these latest concepts. The article attempts to identify and holistically approach the factors determining the emergence of such solutions and their consequences. The aim of the study is also to indicate the trends and directions of changes in the functioning of modern companies related to the implementation of the latest technological solutions and emerging concepts. The reflections, confronted with the state of knowledge and involvement of Lower Silesian companies in the transformation associated with the Industry 4.0 paradigm, are designed to help these companies make rational decisions regarding the manner and scope of implementation of solutions resulting from digital transformation. (original abstract)

Słowa kluczowe

PL

Logistyka; Przemysł 4.0; Przemysł

EN

Logistics; Industry 4.0; Industry

• Czasopismo: Przedsiębiorczość i Zarządzanie
• Rocznik: 2018
• Numer: t. 19, z. 12, cz. 2 Współczesne problemy zarządzania publicznego
• Strony: 9--25

Twórcy

autor

Andrzej Bujak

• Wyższa Szkoła Bankowa we Wrocławiu

autor

Marek Gurak

• MG4 Sp. z.o.o Malin

Bibliografia

• Bagheri B., Yang S., Kao H-A., Lee J. (2015), Cyberphysical Systems Architecture for Self-Aware Machines in Industry 4.0 Environment, "IFAC-PapersOnLine" 48(3), ss. 1622-1627.
• Chen D. (2005), Enterprise-control system integration - an International standard, "International journal of production research", nr 43(20), ss. 4335-4357.
• Davis J., Edgar T., Porter J., Bernaden J., Sarli M. (2012), Smart manufacturing, manufactur- ing intelligence and demand-dynamic performance, "Computers & Chemical Engineering", 47, 20 grudnia 2012, ss. 145-156.
• Dmowski J., Jędrzejewski M., Libucha J., Owerczuk M., Suffczyńska-Hałabuz N., Pławik K., Iwasieczko M., Kowalska I. (2016), Przemysł 4.0 PL. Szansa czy zagrożenie dla rozwoju innowacyjnej gospodarki?, The Boston Consulting Group.
• Gaub H. (2016), Customization of mass-produced parts by combining injection molding and addi- tive manufacturing with Industry 4.0 technologies, "Reinforced Plastics", 60(6), ss. 401-404, listo- pad/grudzień.
• Kagermann H., Wahlster W., Johannes H. (2013), Recommendations for implementing the stra- tegic initiative Industrie 4.0. Retrieved October 5th, 2016, from http://www.acatech.de/fileadmin/ user_upload/Baumstruktur_nach_Website/Acatech/root/de/Material_fuer_Sonderseiten/In- dustrie_4.0/Final_report__Industrie_4.0_accessible.pdf.
• Kang H.S., Lee J.Y., Choi S., Kim H., Park J.H., Son J.Y., Kim B.H., Noh S.D. (2016), Smart manu- facturing: past research, present findings, and future directions, "International Journal of Precision Engineering and Manufacturing-Green Technology", nr 3, ss. 111-128.
• Kozik P., Sęp J. (2012), Aircraft Engine Overhaul Demand Forecasting using ANN, "Management and Production Engineering Review", 3(2), June, ss. 21-26.
• Lasi H., Fettke P., Kemper H.G., Feld T., Hoffmann M. (2014), Industry 4.0, "Business & Informa- tion Systems Engineering", nr 6(4), s. 239.
• Lee E.A. (2008), Cyber Physical Systems: Design Challenges, 11th IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing, ss. 363-369.
• Lee J. (2015), Smart Factory Systems, "Informatik-Spektrum", nr 38, ss. 230-235.
• Lee J., Bagheri B. (2015), Cyber-Physical Systems in Future Maintenance, 9th WCEAM Research Papers, Springer International Publishing, ss. 299-305.
• Lee J., Bagheri B., Kao H.-A. (2015), A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems, "Manufacturing Letters", nr 3, ss. 18-23.
• Mazak A., Huemer C. (2015), A standards framework for value networks in the context of Indus- try 4.0, "Industrial Engineering and Engineering Management (IEEM)", 2015 IEEE International Conference on IEEE, ss. 1342-1346.
• Molina A., Rodriguez C.A., Ahuett H., Cortes J.A., Ramirez M., Jimenez G., Martinez S. (2005), Next-generation manufacturing systems: key research issues in developing and integrating reconfi- gurable and intelligent machines, "International Journal of Computer Integrated Manufacturing", nr 18(7), ss. 525-536.
• Molier D.P. (2016), Digital Manufacturing/industry 4.0 [w:] Guide to Computing Fundamentals in Cyber-Physical Systems, Springer International Publishing, ss. 307-375.
• Monostori L. (2014), Cyber-physical Production Systems: Roots, Expectations and R&D Challenges, Procedia CIRP, Variety Management in Manufacturing Proceedings of the 47th CIRP Conference on Manufacturing Systems nr 17, ss. 9-13.
• Mosterman P.J., Zander J. (2015), Industry 4.0 as a Cyber-Physical System study, "Software & Sy- stems Modelling", nr 15, ss. 17-29.
• Sęp J., Budzik G. (2015), Możliwości aplikacyjne technologii Rapid Manufacturing w przemyśle lotniczym, "Mechanik", 12, ss. 169-172.
• Stadnicka D., Antonelli D., Bruno J. (2016), Work sequence analysis and computer simulations of value flow and workers' relocations: a case study. 10th CIRP Conference on Intelligent Computa- tion in Manufacturing Engineering - CIRP ICME '16. 20-22 July 2016, Ischia, Italy.
• Stadnicka D., Antonelli D. (2016), Discussion on lean approach implementation in a collaborative man-robot workstation, Sixth International Conference on Business Sustainability, Management, Technology and Learning for Individuals, Organisations and Society in Turbulent Environment, No- vember 16-18, Póvoa de Varzim, Portugal.
• Stadnicka D., Antonelli D. (2014), Implementation of augmented reality in welding processes, "Technologia i Automatyzacja Montażu", 4, ss. 56-60.
• Stadnicka D., Antonelli D. (2015), Application of Value Stream Mapping and Possibilities of Manu- facturing Processes Simulations in Automotive Industry, "FME Transactions", 43, ss. 279-286.
• Subashini S., Kavitha V. (2011), A survey on security issues in service delivery models of cloud com- puting, "Journal of Network and Computer Applications", 34 (1), January, ss. 1-11.
• Sun D., Chang G., Sun L., Wang X. (2011), Surveying and Analyzing Security, Privacy and Trust Issues in Cloud Computing Environments, "Procedia Engineering", 15, ss. 2852-2856.
• Theorin A., Bengtsson K., Provost J., Lieder M., Johnsson C., Lundholm T., Lennart- son B. (2016), An event-driven manufacturing information system architecture for Industry 4.0, "In- ternational Journal of Production Research", ss. 1-15.
• Toffler A. (1997), Trzecia fala, PIW, Warszawa.
• Valilai O.F., Houshmand M. (2013), A collaborative and integrated platform to support distributed manufacturing system using a service-oriented approach based on cloud computing paradigm, "Robotics and Computer-Integrated Manufacturing", 29(1), February, ss. 110-127.
• Wang S., Wan J., Li D., Zhang C. (2016), Implementing smart factory of industrie 4.0: an outlook, "International Journal of Distributed Sensor Networks", s. 7.
• Yoon J.S., Shin S.J., Suh S.H. (2012), A conceptual framework for the ubiquitous factory, "International Journal of Production Research", nr 50(8), ss. 2174-2189.
• Żmijewski R. (2014), Elementy koncepcji "Industrie 4.0" w praktyce. Systemowe modelowanie produktu w wirtualnym przedsiębiorstwie, Siemens Industry Software, Warszawa, 21.10.2014.