SMART FACTORIES
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DOI:
https://doi.org/10.15637/jlecon.270Keywords:
Industry 4.0, Smart Factories, İoTsAbstract
The effect of technological developments, İoTs and Cyber-Physical Systems are begun to use at manufacturing. This alteration led to the start of the revolution Industry 4.0. (Wang and Zhou, 2015). In other words, the main elements of Industry 4.0 are İoTs and Cyber-Physical Systems. The smart factory is born with the integration of these applications (Bartodziej, 2017:35).
The smart factory is called aU-Factory (ubiquitous factory), a factory-of-things, a real-time factory, or an intelligent factory of the future also. Like it’s name, there is no consensus about a clear definition of the smart factory. Combinations of the definitions there occurs a definition as "a factory system which is combining ubiquitous computing technology as autonomous, sustainable and reconfigurable production, by using software, hardware with networked; to solve problems dynamic, agile and flexible style (Radziwona etc,2014:1185-1188).
The aim of the study, to explain what the smart factory concept is and how useful it is. Therefore, many international studies are sought to clarify the core of smart factories.
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References
ALÇIN, Sinan, 2016. Üretim İçin Yeni Bir İzlek: Sanayi 4.0. Journal of Life Economics, 3(2): 19-30.
BADZAR, Amina, 2016. “Blockchain For Securing Sustainable Transport Contracts And Supply Chain Transparency”. Helsingborg, Sweden,
BAHETI, Radhakisan; GILL, Helen, 2011. Cyber-physical systems. The Impact of Control Technology, 12: 161-166.
BARRETO, L., AMARAL, A., PEREİRA, T. 2017. Industry 4.0 İmplications İn Logistics: An Overview. Procedia Manufacturing, 13, 1245-1252.
BARTODZIEJ, Christoph Jan 2017. The Concept İndustry4.0. In: The Concept Industry 4.0. Springer Gabler, Wiesbaden, 27-50.
CHİU, Y. C., CHENG, F. T., HUANG, H. C., 2017, Developing a factory-wide intelligent predictive maintenance system based on Industry 4.0. Journal of the Chinese Institute of Engineers, Cilt: 40, Sayı: 7, 562-571. doi: 10.1080/02533839.2017.1362357
DAVUTOĞLU, Naci Atalay, Birol Akgül, Erşan Yıldız. (2017) “İşletme Yönetiminde sanayi 4.0 Kavramı ile Farkındalık Oluşturarak Etkin Bir Şekilde Değişimi Sağlamak” (ASOS JOURNAL- Akademik Sosyal Araştırmalar Dergisi, s.52.
ERCAN, Tuncay, KUTAY, Mahir, 2016. “Endüstride Nesnelerin Interneti (IoT) Uygulamaları”, Afyon Kocatepe Üniversitesi Fen ve Mühendislik Bilimleri Dergisi, AKÜ FEMÜBİD 16 (2016) 035102 (599-607), DOI: 10.5578/fmbd.43411
ERTURAN, İlkay Ejder; ERGIN, Emre, 2017. Muhasebe Denetiminde Nesnelerin İnterneti: Stok Döngüsü. Muhasebe ve Finansman Dergisi, 75.
GENTNER, S., 2016, Industry 4.0: Reality, Future or just Science Fiction? How to Convince Today’s Management to Invest in Tomorrow’s Future! Successful Strategies for Industry 4.0 and Manufacturing IT. Chimia, 70(9): 628-633. doi: 10.2533/chimia.2016.628
GÖKREM, Levent; BOZUKLU, Mehmet, 2016. Nesnelerin İnterneti: Yapılan Çalışmalar ve Ülkemizdeki Mevcut Durum. Gaziosmanpaşa Bilimsel Araştırma Dergisi, 13: 47-68.
GUBÁN, Miklós; KOVÁCS, György 2017. Industry 4.0 Conception. Acta Technica Corviniensis-Bulletin of Engineering, 10(1): 111.
HERMANN, Mario; PENTEK, Tobias; OTTO, Boris, 2016. Design principles for industrie 4.0 scenarios. In: System Sciences (HICSS), 49th Hawaii International Conference on. IEEE,. p. 3928-3937.
HOFMANN, Erik; RÜSCH, Marco, 2017. Industry 4.0 and the current status as well as future prospects on logistics. Computers in Industry, 2017, 89: 23-34
HÜLSMANN, Thorsten., 2015. Logistics 4.0 And The Internet Of Things «Workshop «Platforms for Connected Factories of theFuture.
HACKIUS, Niels; PETERSEN, Moritz. Blockchain in logistics and supply chain: trick or treat?. In: Proceedings of the Hamburg International Conference of Logistics (HICL). epubli, 2017. p. 3-18.
IVANOV, D., DOLGUİ, A., SOKOLOV, B., WERNER, F., IVANOVA, M., 2016, A dynamic model and an algorithm for short-term supply chain scheduling in the smart factory industry 4.0. International Journal of Production Research, Cilt: 54, Sayı: 2, 386-402. doi: 10.1080/00207543.2014.999958
İÇTEN, T., BAL.G., Artırılmış Gerçeklik Teknolojisi Üzerine Yapılan Akademik Çalışmaların İçerik Analizi. Bilişim Teknolojileri Dergisi, 10(4), 401-415.
KAGERMANN, Henning; LUKAS, Wolf-Dieter; WAHLSTER, Wolfgang, 2015. Industrie 4.0: Mit dem Internet der Dinge auf dem Wegzur 4. industriellenRevolution. VDI nachrichten, 13: 11.
KÖROĞLU, Osman, 2015. Nesnelerin İnterneti, algılayıcı ağları ve medya. İçinde Akademik Bilişim Konferansı. Eskişehir
KUTUP, Nejat. Nesnelerin İnterneti: 4H, Her Yerden, Herkesle, Her Zaman, Her Nesne İle Bağlantı. 16. Türkiye’de İnternet Konferansı inet-tr’11, 2011.
LEE, GyuMyoung, CRESPY, Noel, 2013. Internet of things. In: Evolution of Telecommunication Services. Springer, Berlin, Heidelberg,. p. 257-282.
LEE, In; LEE, Kyoochun, 2015. The Internet of Things (IoT): Applications, investments, and challenges for enterprises. Business Horizons, 58(4): 431-440.
LİAO, Y. X., DESCHAMPS, F., LOURES, E. D. R., RAMOS, L. F. P., 2017, Past, present and future of Industry 4.0-a systematic literature review and research agenda proposal. International Journal of Production Research, Cilt: 55, Sayı: 12, 3609-3629. doi: 10.1080/00207543.2017.1308576
MONOSTORİ, L., KÁDÁR, B., BAUERNHANSL, T., KONDOH, S., KUMARA, S., REİNHART, G., ... & UEDA, K., 2016. Cyber-Physical Systems İn Manufacturing. CIRP Annals, 65(2): 621-641.
ÖZKAZANÇ, Ü. İ., 2010. Malzeme Taşıma ve Depolama Teknolojileri, ÖZTÜRK, G. (ED.), Lojistikte Teknoloji Kullanımı, T.C. Anadolu Üniversitesi Yayını No: 2155, Açık öğretim Fakültesi Yayını No: 1183.
PFOHL, Hans-Christian; YAHSİ, Burak; KURNAZ, Tamer, 2015. The İmpact Of Industry 4.0. On The SupplyChainin W. Kersten, T. Blecker, 31-59.
PREUVENEERS, D., ILİE-ZUDOR, E., 2017, The İntelligent İndustry Of The Future: A Survey On Emerging Trends, Research Challenges And Opportunities İn Industry 4.0. Journal Of Ambient Intelligence And Smart Environments, 9(3): 287-298. doi: 10.3233/ais-170432
PRİNZ, C., MORLOCK, F., FREİTH, S., KREGGENFELD, N., KREİMEİER, D., KUHLENKÖTTER, B., 2016. Learning factory modules for smart factories in industrie 4.0. Procedia CIRP, 54, 113-118.
RADZİWON, A., BİLBERG, A., BOGERS, M., MADSEN, E. S., 2014. The smart factory: exploring adaptive and flexible manufacturing solutions. Procedia engineering, 69, 1184-1190.
RUSHTON, A., CROUCHER, P., BAKER, P., 2010. The Handbook of Logistics and Distribution Management, 4th, ed. Kogan Page, London
SAYER, Sami; ÜLKER, Aydın, 2014. Ürün Yaşam Döngüsü Yönetimi. Engineer & the Machinery Magazine, 657.
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