Cyber-physical systems research and education in 2030: Scenarios and strategies

Advanced Functional Materials Congress. (2019). Bridging Functional Materials. https://www.advancedmaterialsseries.com/afmc19/pages/about-afmc-2019. Ahlam Rais. (2018). Next Stop: Industry 4.0 – Three Trends For the Digital Transformation. https://www.process-worldwide.com/next-stop-industry-40-three-trends-for-the-digital-transformation-a-712526/. Biesinger, 2019, A digital twin for production planning based on cyber-physical systems: a Case Study for a Cyber-Physical System-Based Creation of a Digital Twin, Proc. CIRP, 79, 355, 10.1016/j.procir.2019.02.087 Boyd, 2018, Technology, innovation, employment and power: does robotics and artificial intelligence really mean social transformation, J. Sociol., 54, 331, 10.1177/1440783317726591 Chen, 2017, Applications of cyber-physical system: a literature review, J. Ind. Integrat. Manag., 02 Chen, 2017, Theoretical foundations for cyber-physical systems: a literature review, J. Ind. Integrat. Manag., 02 Copigneaux, 2016, Proposal of a European Research and Innovation Agenda on Cyber-physical Syst. Syst., 2016 CPSE-Labs. (2018). Why Are Cyber-Physical Systems important?http://www.cpse-labs.eu. 2016 CyPhERS. (2014a). CPS20 : CPS 20 Years from Now. 2014, Structuring of CPS Domain: Characteristics, trends, Challenges and Opportunities Associated With CPS - Deliverable D2.2, CyPhERS - Cyber-Phys. Eur. Roadmap Strat., 611430, 41 Deloitte Insights. (2019). Government Trends 2020. https://www2.deloitte.com/content/dam/Deloitte/ec/Documents/public-sector/DI_Government-Trends-2020.pdf. Dignum, 2019, AI is multidisciplinary, AI Matters, 5, 18, 10.1145/3375637.3375644 Edelman. (2019). 19th ANNUAL EDELMAN TRUST BAROMETER: Trust in Technology. European Commission. (2009). EU Energy Trends to 2030. Farivar, 2020, Artificial intelligence for detection, estimation, and compensation of malicious attacks in nonlinear cyber-physical systems and industrial IoT, IEEE Trans. Ind. Inf., 16, 2716, 10.1109/TII.2019.2956474 Featherston, 2017, Enabling technologies, lifecycle transitions, and industrial systems in technology foresight: insights from advanced materials FTA, Technol. Forecast Soc. Change, 115, 261, 10.1016/j.techfore.2016.06.025 Fridays for Future. (2018). https://fridaysforfuture.org. Geisberger, E. (2015). Living in a Networked World Integrated research Agenda Cyber-Physical Systems (agendaCPS) (Issue March). Grunwald, A. (2018). Technology Assessment in Practice and Theory. Routledge. https://doi.org/ 10.4324/9780429442643. Gürdür, 2017 Gürdür, 2019 Gürdür, 2018, A systematic review to merge discourses: interoperability, integration and cyber-physical systems, J. Ind. Inf. Integr., 9, 14 Gürdür, 2016, Making interoperability visible: data visualization of cyber-physical systems development tool chains, J. Ind. Inf. Integr., 4, 26 Gürdür, 2019, Digitalizing Swedish industry: what is next?, Comput. Ind., 105, 153, 10.1016/j.compind.2018.12.011 Gürdür, 2018, Visual analytics for cyber-physical systems development: blending design thinking and systems thinking, NordDesign Gürdür, 2018, Knowledge representation of cyber-physical systems for monitoring purpose, Proc. CIRP, 72, 10.1016/j.procir.2018.03.018 Higgins, 2013, The fourth singularity and the future of jobs, World Futures Rev., 5, 11, 10.1177/1946756712473437 Jane Burston. (2016). 5 Predictions For Energy in 2030 | World Economic Forum. https://www.weforum.org/agenda/2016/11/5-predictions-for-energy-in-2030/. Karen Harris, Austin Kimson, & Andrew Schwedel. (2018). Labor 2030: The Collision of Demographics, Automation and Inequality - Bain & Company. https://www.bain.com/insights/labor-2030-the-collision-of-demographics-automation-and-inequality/. Klotzer, 2017, The Evolution of cyber-physical systems as a driving force behind digital transformation, 2, 5 Komiyama, 2018 Konrad, 2019, Socio-technical futures and the governance of innovation processes—An introduction to the special issue, Futures, 109, 101, 10.1016/j.futures.2019.03.003 Kurzweil, 2005 Lasi, 2014, Industry 4.0, Bus. Inf. Syst. Eng., 6, 239, 10.1007/s12599-014-0334-4 Lee, 2016 Lee, 2006, Cyber-Physical Systems - Are Computing Foundations Adequate?, 2, 1 Lee Rainie, & Janna Anderson. (2017). The Future of Jobs and Jobs Training. http://www.pewinternet.org/2017/05/03/the-future-of-jobs-and-jobs-training/. Lei, 2020, BIM based cyber-physical systems for intelligent disaster prevention, J. Ind. Inf. Integr., 20 Len Calderone. (2018). AI Could Beat Humans at Everything by 2030 | RoboticsTomorrow. https://www.roboticstomorrow.com/article/2018/09/ai-could-beat-humans-at-everything-by-2030/12536. Lieu Tran, 2019, Trends in preparing cyber-physical systems engineers, Cyber-Phys. Syst., 5, 65, 10.1080/23335777.2019.1600034 Lindgren, 2009, Scenario Planning - Revised and Updated: the Link Between Future and Strategy, Scenar. Plann. Rev. Updat. Future Strat., 1 Lomas, N. (2018). Gartner Picks Digital Ethics and Privacy As a Strategic Trend For 2019 | TechCrunch. https://techcrunch.com/2018/10/16/gartner-picks-digital-ethics-and-privacy-as-a-strategic-trend-for-2019/?guccounter=1&guce_referrer_us=aHR0cHM6Ly93d3cuZ29vZ2xlLmNvbS8&guce_referrer_cs=CQaA9EsJmZJPrdKkXZA6yg. Louis Columbus. (2018). 10 Charts That Will Change Your Perspective of Big Data's Growth. https://www.forbes.com/sites/louiscolumbus/2018/05/23/10-charts-that-will-change-your-perspective-of-big-datas-growth/#5dfd9b272926. Lu, 2017, Cyber Physical System (CPS)-Based Industry 4.0: a Survey, J. Ind. Integrat. Manag., 02 Makio-Marusik, 2018, Competences of cyber physical systems engineers - Survey results, 491 Margolies, 2018, Tech Trends 2018: the symphonic enterprise, Deloitte Insights, 162 Marwedel, 2020, Survey on education for cyber-physical systems, IEEE Des. Test, 2356, 1 2018, Insights on best practices for paving the road for mass-market electric vehicles, Trends Electric Vehicle Design, 1 Meinert, 2014 Miles, 2010, The development of technology foresight: a review, Technol. Forecast. Soc. Change, 77, 1448, 10.1016/j.techfore.2010.07.016 Musselin, 2018, New forms of competition in higher education, Sci. Econ. Rev., 16, 657 National Academies of Sciences Engineering and Medicine. (2016). A 21st Century Cyber-Physical Systems Education. https://doi.org/ 10.17226/23686. Pew Research Center. (2018). The Generation Gap in American Politics: wide and growing divides in views of racial discrimination. Philbeck, T., Davis, N., & Larsen, A.M.E. (2018). Values, Ethics and Innovation: Rethinking Technological Development in the Fourth Industrial Revolution (Issue August). http://www3.weforum.org/docs/WEF_WP_Values_Ethics_Innovation_2018.pdf. Platforms4CPS. (2017). Creating the Cyber-Physical Systems Vision, Strategy, Technology Building Blocks and Supporting Ecosystem For Future CPS Platforms. https://platforum.proj.kth.se/tiki-index.php?page=HomePageExternal. Porter, 1985 Ringland, 1998 Robotics Business Review. (2019). 10 Trends in Robotics, AI, and Autonomous Systems to Watch in 2019. https://www.roboticsbusinessreview.com/news/automation-business-2019-10-trends/. Roland, T., & Trend, B. (2015). RBI Trend Compendium 2030. May. Roser, C. (2015). Industry 4.0. AllAboutLean.com. Rust, 2013, The Global Competition in Higher Education, World Stud. Edu., 13, 5, 10.7459/wse/13.1.02 Schoemaker, 1995, Scenario planning: a tool for strategic thinking, Sloan Manag. Rev., 12, 25 Schranz, 2021, Swarm Intelligence and cyber-physical systems: concepts, challenges and future trends, Swarm Evol. Comput., 60, 10.1016/j.swevo.2020.100762 Schwab, 2018 Semenova, 2013, Modern Practices of Foresight Research of the Future of Social-Anthropological Systems, Including Ethnical Cultural Populations, 5, 667 Seshia, 2018, Cyber-physical systems education: explorations and dreams, Lecture Notes Comput. Sci., 407, 10.1007/978-3-319-95246-8_24 Shah, 2019, Machine learning based manufacturing control system for intelligent cyber-physical systems, FME Trans., 47, 802, 10.5937/fmet1904802S Stankovic, 2017, A 21st century cyber-physical systems education, Comput. (Long Beach Calif), 50, 82 Straub, 2019, Experiential research education: a report on the first year of a NSF-sponsored cyber-physical system cybersecurity research experience for undergraduates program Swerea A.B. (2016). The Future of Materials. Tamara, 2013 The Society of Motor Manufacturers and Traders. (2016). The future of UK automotive manufacturing in 2025 and beyond. In SMMT Driving the Motor Industry (Issue October). http://www.smmt.co.uk/wp-content/uploads/sites/2/AutoAnalysis-report-the-future-of-UK-automotive-manufactuing-October-2015.pdf. Thompson, H., Reimann, M., Authors, L., Ramos-hernandez, D., Bageritz, S., Brunet, A., Robinson, C., Sautter, B., Linzbach, J., Pfeifer, H., & Aravantinos, V. (2018). Platforms4CPS Key Outcomes and Recommendations. Törngren, 2015, Education and training challenges in the era of Cyber-Physical Systems, 1 Törngren, 2017, Strategies and considerations in shaping cyber-physical systems education, ACM SIGBED Rev., 14, 53, 10.1145/3036686.3036693 Törngren, 2018, How to Deal with the Complexity of Future Cyber-Physical Systems?, Designs, 2, 40, 10.3390/designs2040040 Törngren, 2018, Complexity challenges in development of cyber-physical systems, 1 Trunzer, 2020, Graphical modeling notation for data collection and analysis architectures in cyber-physical systems of systems, J. Ind. Inf. Integr., 19 2012 2015, Introduction: the scope of the inequality discussion in the 2030 Agenda for Sustainable Development, Develop. Issues, 4, 1 United Nations. (2015b). Transforming our world: the 2030 Agenda for Sustainable Development. In The General Assembly. https://doi.org/ 10.1163/157180910 × 12665776638740. United Nations. (2018). World Economic and Social Survey 2018: Frontier technologies For Sustainable Development: Vol. E/2018/50 (Issues 27 July 2017-26 July 2018). http://undocs.org/en/E/2018/50. Wilkinson, 2014 Xu, 2018, Industry 4.0: state of the art and future trends, Int. J. Prod. Res., 56, 2941, 10.1080/00207543.2018.1444806 Yaacoub, 2020, Cyber-physical systems security: limitations, issues and future trends, Microproc. Microsyst., 77, 10.1016/j.micpro.2020.103201