Transformation towards smart factory system: Examining new job profiles and competencies

[1]  Eleftherios Iakovou,et al.  Sustainable supply chain management in the digitalisation era: The impact of Automated Guided Vehicles , 2017 .

[2]  Naihua Duan,et al.  Purposeful Sampling for Qualitative Data Collection and Analysis in Mixed Method Implementation Research , 2015, Administration and Policy in Mental Health and Mental Health Services Research.

[3]  Santosh Devasia,et al.  Mechatronics education in the Department of Mechanical Engineering at the University of Utah , 2003 .

[4]  Francesco Basile,et al.  On the Implementation of Industrial Automation Systems Based on PLC , 2013, IEEE Transactions on Automation Science and Engineering.

[5]  Frank Dürr,et al.  An RFID based consistency management framework for production monitoring in a smart real-time factory , 2010, 2010 Internet of Things (IOT).

[7]  Jay Lee,et al.  A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems , 2015 .

[8]  Jameela Al-Jaroodi,et al.  Middleware for Robotics: A Survey , 2008, 2008 IEEE Conference on Robotics, Automation and Mechatronics.

[9]  Alexandre Dolgui,et al.  A dynamic model and an algorithm for short-term supply chain scheduling in the smart factory industry 4.0 , 2016 .

[10]  R. Pellerin,et al.  The industrial management of SMEs in the era of Industry 4.0 , 2018, Int. J. Prod. Res..

[11]  Aníbal Ollero,et al.  Mechatronics, robotics and components for automation and control: IFAC milestone report , 2006, Annu. Rev. Control..

[12]  Detlef Zühlke,et al.  Future Modeling and Simulation of CPS-based Factories: an Example from the Automotive Industry , 2016 .

[13]  Andre Bester,et al.  Industrial engineering curriculum in industry 4.0 in a South African context , 2016 .

[14]  Jean Macq,et al.  Methodological approach and tools for systems thinking in health systems research: technical assistants’ support of health administration reform in the Democratic Republic of Congo as an application , 2017, Global health promotion.

[15]  Christian N. Madu,et al.  Integrating Total Quality Management in the Adoption of New Technologies , 1994 .

[16]  Anders Skoogh,et al.  Applications of Big Data analytics and Related Technologies in Maintenance—Literature-Based Research , 2018, Machines.

[17]  Albine Moser,et al.  Series: Practical guidance to qualitative research. Part 2: Context, research questions and designs , 2017, The European journal of general practice.

[18]  George Chryssolouris,et al.  On industrial learning and training for the factories of the future: a conceptual, cognitive and technology framework , 2013, J. Intell. Manuf..

[19]  Friedrich Morlock,et al.  Industrie 4.0-Transformation für produzierende Unternehmen , 2016 .

[20]  Josep M. Guerrero,et al.  A knowledge discovery in databases approach for industrial microgrid planning , 2016 .

[21]  Steffen Kinkel,et al.  Critical Competencies for the Innovativeness of Value Creation Champions: Identifying Challenges and Work-integrated Solutions ☆ , 2017 .

[22]  Jiří Tupa,et al.  Requirements for Education and Qualification of People in Industry 4.0 , 2017 .

[23]  K. Stecke,et al.  The evolution of production systems from Industry 2.0 through Industry 4.0 , 2018, Int. J. Prod. Res..

[24]  C. Gatti,et al.  Industry 4.0 in Management Studies: A Systematic Literature Review , 2018, Sustainability.

[25]  Dimitris Mourtzis,et al.  Manufacturing Systems: Skills & Competencies for the Future , 2013 .

[26]  Tauno Otto,et al.  Digital Object Memory Based Monitoring Solutions in Manufacturing Processes , 2014 .

[27]  Vasja Roblek,et al.  The Leadership Competencies and Intuitive Decision-Making of Top and Middle Level Managers in the Automotive Industry , 2018 .

[28]  Davy Preuveneers,et al.  The intelligent industry of the future: A survey on emerging trends, research challenges and opportunities in Industry 4.0 , 2017, J. Ambient Intell. Smart Environ..

[29]  Jose Barata,et al.  Big Data Analysis in Smart Manufacturing: A Review , 2017 .

[30]  S. Ong,et al.  New opportunities for materials informatics: Resources and data mining techniques for uncovering hidden relationships , 2016 .

[31]  Elena Losina,et al.  Evaluation of exposure-specific risks from two independent samples: A simulation study , 2011, BMC medical research methodology.

[32]  Alexander Robitzsch,et al.  Multiple Imputation of Multilevel Missing Data , 2016, 1611.03112.

[33]  Wilfried Sihn,et al.  Tangible Industry 4.0: A Scenario-Based Approach to Learning for the Future of Production , 2016 .

[34]  Suk-Hwan Suh,et al.  A conceptual framework for the ubiquitous factory , 2012 .

[35]  Abdulrahman Al-Ahmari,et al.  Requirements of the Smart Factory System: A Survey and Perspective , 2018, Machines.

[36]  Detlef Zühlke,et al.  SmartFactory - Towards a factory-of-things , 2010, Annu. Rev. Control..

[37]  C. Emmelmann,et al.  Bauteilbewertung in der Cloud , 2017 .

[38]  Vasja Roblek,et al.  A Complex View of Industry 4.0 , 2016 .

[39]  Marimuthu Palaniswami,et al.  Internet of Things (IoT): A vision, architectural elements, and future directions , 2012, Future Gener. Comput. Syst..

[40]  H. Turunen,et al.  Content analysis and thematic analysis: Implications for conducting a qualitative descriptive study. , 2013, Nursing & health sciences.

[41]  W. Bauer,et al.  Die Digitalisierung der Wertschöpfung kommt in deutschen Unternehmen an , 2015 .

[42]  Alma M. Whiteley,et al.  Emerging and capturing tacit knowledge: a methodology for a bounded environment , 2007, J. Knowl. Manag..

[43]  Sandrine Kergroach Industry 4.0: New Challenges and Opportunities for the Labour Market , 2017 .

[44]  John R. Williams,et al.  A survey of language-based approaches to Cyber-Physical and embedded system development , 2015 .

[45]  Frank Teuteberg,et al.  Understanding the Changing Role of the Management Accountant in the Age of Industry 4.0 in Germany , 2019, HICSS.

[46]  Jagjit Singh Srai,et al.  Exploring Opportunities for Circular Supply Chains Arising from Renewable Chemical Feedstocks , 2016 .

[47]  Zoltán Nyikes Contemporary Digital Competency Review , 2018 .

[48]  Holger Kohl,et al.  Holistic Approach for Human Resource Management in Industry 4.0 , 2016 .

[49]  Sang Do Noh,et al.  Smart manufacturing: Past research, present findings, and future directions , 2016, International Journal of Precision Engineering and Manufacturing-Green Technology.

[50]  Carmen Constantinescu,et al.  Smart Factory - A Step towards the Next Generation of Manufacturing , 2008 .

[51]  Lihui Wang,et al.  Current status and advancement of cyber-physical systems in manufacturing , 2015 .

[52]  Marcel Bogers,et al.  on Intelligent Manufacturing and Automation , 2013 The Smart Factory : Exploring Adaptive and Flexible Manufacturing Solutions , 2014 .

[53]  Erik Hofmann,et al.  Industry 4.0 and the current status as well as future prospects on logistics , 2017, Comput. Ind..

[54]  Katarzyna Antosz,et al.  Maintenance – identification and analysis of the competency gap , 2018, Eksploatacja i Niezawodnosc - Maintenance and Reliability.

[55]  Katarzyna Grzybowska,et al.  Key competencies for Industry 4.0 , 2017 .

[56]  Sangkee Min,et al.  From design for manufacturing (DFM) to manufacturing for design (MFD) via hybrid manufacturing and smart factory: A review and perspective of paradigm shift , 2016 .

[57]  Yan Ze-xian,et al.  A new approach to studying complex systems , 2007 .