Keywords
innovation strategies
socio-technical systems
complex dynamic systems
inter-disciplinary approach
management of complex structures
cyber-physical systems
How to Cite
Abstract
Information and communication technologies (ICT), which are transforming most areas, develop non-linearly. Failure to take into account the nonlinear principles of complex dynamic systems hinders the development of balanced innovation strategies. Companies and governments lose the ability to effectively respond to “grand challenges”. The linear approach does not allow for covering a wide range of critical areas simultaneously in the scope of Foresight projects, it prevents one from applying an interdisciplinary approach to developing innovation strategies, correcting risk assessments, and making informed decisions.This paper proposes a solution: management based on “cyber-physical systems” (CPS) built on dynamic complexity and nonlinearity principles. Such systems not only integrate computing and physical action but are embedded in the everyday environment. They are more than the sum of multiple intelligent computing devices. CPS transform into collective social systems, integrate information, energy, and material flows, and adapt to physical processes.Cyber-physical systems can offer a sustainable information infrastructure which serves as a prerequisite for building up the innovation potential of a company, region, or country. They make it possible to analyze all stages of an innovation project from the technical and organizational points of view simultaneously, cover all possible social consequences and challenges, and identify unexpected promising developments. CPS have a decentralized structure which allows one to solve complex problems and manage large and complex structures in real time, such as an energy grid, transport, smart city, healthcare, and so on.
References
Acatech (2011) Cyber-Physical Systems. Driving force for innovation in mobility, health, energy and production. Berlin: National Academy of Science and Engineering (ACATECH). Режим доступа: https://www.acatech.de/publikation/cyber-physical-systems/download-pdf?lang=wildcard, дата обращения 15.09.2020.
Acatech (2012) Technology Futures. Anticipation ? Creation - Assessment (English Summary). Berlin: National Academy of Science and Engineering (ACATECH).
Al Dakheel J., Del Pero C., Aste N., Leonforte F. (2020) Smart buildings features and key performance indicators: A review // Sustainable Cities and Society. Vol. 61. Art. 102328. Режим доступа: , дата обращения 19.09.2020. DOI: https://doi.org/10.1016/j.scs.2020.102328
Alegre H., Vitorino D., Coelho S. (2014) Infrastructure value index: A powerful modelling tool for combined long-term planning of linear and vertical assets // Procedia Engineering. Vol. 89. P. 1428-1436. Режим доступа: , дата обращения 06.08.2020. DOI: https://doi.org/10.1016/j.proeng.2014.11.469
Bansraj D.S., Smit H.T.J., Volosovych V. (2018) Can Private Equity Act as Strategic Buyers? Evidence from Serial (Buy-and-Build) Strategies? Paper presented at the 2019 FMA European Conference, 12-14 June 2019, Glasgow, Scotland. Режим доступа: http://www.fmaconferences.org/Glasgow/Papers/Buy_and_Build_FMAEur_2019.pdf, дата обращения 04.07.2020.
Bassett M., Wilkinson S., Mannakkara S. (2017) Legislation for building back better of horizontal infrastructure // Disaster Prevention and Management. Vol. 26. № 1. P. 94-104. DOI: https://doi.org/10.1108/DPM-03-2016-0054
Behymer K.J. Flach J.M. (2016) From Autonomous Systems to Sociotechnical Systems: Designing Effective Collaborations // She Ji: The Journal of Design, Economics, and Innovation. Vol. 2. № 2. P. 105-114.
Berg M. (1998) The politics of technology: On bringing social theory into technological design // Science Technology and Human Values. Vol. 23. № 4. P. 456-490. DOI: https://doi.org/10.1177/016224399802300406
Bezemek C. (2019) The 'Normative Force of the Factual': A Positivist's Panegyric // The Normative Force of the Factual. Legal Philosophy Between Is and Ought / Eds. N. Bersier-Ladavac, C. Bezemek, F. Schauer. Heidelberg, New York, Dordrecht, London: Springer. P. 65-77.
Biggs M. (2017) Self-fulfilling prophecies // The Oxford Handbook of Analytical Sociology / Eds. P. Bearman, P. Hedstrom. Oxford: Oxford University Press. P. 294-314. DOI: https://doi.org/10.1093/oxfordhb/9780199215362.013.13
Blum C., Zuber C.I. (2016) Liquid democracy: Potentials, problems, and perspectives // Journal of Political Philosophy. Vol. 24. № 2. P. 162-182. Режим доступа: , дата обращения 07.04.2020. DOI: https://doi.org/10.1111/jopp.12065
Boons F., Ludeke-Freund F. (2013) Business models for sustainable innovation: State-of-the-art and steps towards a research agenda // Journal of Cleaner Production. Vol. 45. P. 9-19. Режим доступа: , дата обращения 07.04.2020. DOI: https://doi.org/10.1016/j.jclepro.2012.07.007
Boy G.A. (ed.) (2017) The handbook of human-machine interaction: A human-centered design approach. Burlington, VT: Ashgate Publishing.
Dean J. (2014) Big data, data mining, and machine learning. Value creation for business leaders and practitioneers. Hoboken, NJ: Wiley.
European Commission (2006) European Technology Platform SmartGrids. Vision and Strategy for Europe's Electricity Networks of the Future. Brussels: European Commission. Режим доступа: http://ec.europa.eu/research/energy/pdf/smartgrids_en.pdf, дата обращения 30.07.2020.
Geisberger E., Broy M. (eds.) (2012) Living in a Networked World. Integrated Research Agenda on Cyber-Physical Systems (agendaCPS). Berlin: National Academy of Science and Engineering (ACATECH). Режим доступа: https://www.acatech.de/publikation/agendacps-integrierte-forschungsagenda-cyber-physical-systems/download-pdf?lang=en, дата обращения 19.09.2020.
Giaimo F., Andrade H., Berger C. (2020) Continuous experimentation and the cyber-physical systems challenge: An overview of the literature and the industrial perspective // Journal of Systems and Software. Vol. 170. Art. 110781. Режим доступа: , дата обращения 27.08.2020. DOI: https://doi.org/10.1016/j.jss.2020.110781
Glenn J.C., Gordon T.J. (eds.) (2009) Futures research methodology - Version 3.0 (CD-ROM).Washington, D.C.: The Millennium Project. Режим доступа: http://www.millennium-project.org/millennium/FRM-V3.html#toc, дата обращения 22.11.2019.
Godet M., Roubelat F. (1996) Creating the Future: The Use and Misuse of Scenarios // Long Range Planning. Vol. 29. № 2. P. 164-171. Режим доступа: , дата обращения 22.08.2020. DOI: https://doi.org/10.1016/0024-6301(96)00004-0
Hader M. (ed.) (2002) Delphi Interviews. A Workbook, Heidelberg, New York, Dordrecht, London: Springer.
Hawkins W., Abdelzaher T. (2005) Towards feasible region calculus: An end-to-end schedulability analysis of real-time multistage execution // Proceedings of the 26th IEEE International Real-Time Systems Symposium (RTSS '05). Washington, D.C.: IEEE Computer Society. P. 75-86. Режим доступа: , дата обращения 19.09.2020. DOI: https://doi.org/10.1109/RTSS.2005.42
Isermann R. (2009) Mechatronic Systems - A Short Introduction. Springer Handbook of Automation / Ed. S.Y. Nof. Heidelberg, New York, Dordrecht, London: Springer. P. 317-331.
Jones A.J.I., Artikis A., Pitt J. (2011) The design of intelligent socio-technical systems // Artificial Intelligence Review. Vol. 39. № 1. P. 5-20. DOI: https://doi.org/10.1007/s10462-012-9387-2
Ketchum B.J. (2016) Keeping tabs: When Will TTAB Decisions Have Preclusive Effect? Preclusive Effect of T.T.A.B. Likelihood of Confusion Decisions after B & B v. Hargis Industries // Journal of Intellectual Property. Vol. 15. № 1. P. 141-161.
King A.S. (1973) Self-Fulfilling Prophecies in Organizational Change // Social Science Quarterly. Vol. 54. № 2. P. 384-393.
Lee E.A., Seshia S.A. (2016) Introduction to embedded systems: A cyber-physical systems approach. Cambridge, MA: MIT Press.
Lozito G.M., Salvini A. (2020) Swarm intelligence based approach for efficient training of regressive neural networks // Neural Computing and Applications. Vol. 32. № 14. P. 10693-10704. DOI: https://doi.org/10.1007/s00521-019-04606-x
Mainzer K. (2007) Thinking in Complexity. Computational Dynamics of Matter, Mind, and Mankind (5th ed.). Heidelberg, New York, Dordrecht, London: Springer.
Mainzer K. (2019) Artificial Intelligence. When do Machines Take Over? Heidelberg, New York, Dordrecht, London: Springer.
NSF (2008) Cyber-Physical Systems. Program Announcements & Information. Arlington, VA: National Science Foundation.
Nelson R. (2018) Modern Evolutionary Economics - An Overview. Cambridge, MA: Cambridge University Press.
Nelson R., Winter S.G. (1982) An Evolutionary Theory of Economic Change. Cambridge, MA: Harvard University Press.
Pop O.-M. (2015) Self-Fulfilling Prophecies and Innovation Success. Режим доступа: https://blog.hypeinnovation.com/self-fulfilling-prophecies-and-innovation-success, дата обращения 28.09.2020.
Rajkumar R., Lee I., Sha L., Stankovic J. (2010) Cyber-physical systems: The next computing revolution- Design automation // Proceedings of the Design Automation Conference. Piscataway, NJ: IEEE. P. 731-737. DOI: https://doi.org/10.1145/1837274.1837461
Ringland G. (2010) The role of scenarios in strategic foresight // Technological Forecasting and Social Change. Vol. 77. № 9. P. 1493-1498. DOI: https://doi.org/10.1016/j.techfore.2010.06.010
Roth S.(ed.) (2015) Non-technological and non-economic innovations: Contributions to a theory of robust innovation. Kiel (Germany): ZBW - Leibniz Information Centre for Economics.
Sa I., Corke P. (2014) Vertical infrastructure inspection using a quadcopter and shared autonomy control // Field and Service Robotics: Results of the 8th International Conference. Series: Springer Tracts in Advanced Robotics. Vol. 92 / Eds. K. Yoshida, S. Tadokoro. Heidelberg, New York, Dordrecht, London: Springer. P. 219-232.
Schiff J.L. (2007) Cellular Automata: A Discrete View of the World. New Tork: John Wiley & Sons.
Schot J., Geels F.W. (2008) Strategic niche management and sustainable innovation journeys: Theory, findings, research agenda, and policy // Technology Analysis and Strategic Management. Vol. 20. № 5. P. 537-554. Режим доступа: , дата обращения 15.08.2020. DOI: https://doi.org/10.1080/09537320802292651
Tantawi K.H., Sokolov A., Tantawi O. (2019) Advances in Industrial Robotics: From Industry 3.0 Automation to Industry 4.0 Collaboration // Proceedings of the 4th Technology Innovation Management and Engineering Science International Conference (TIMES-iCON 2019). Art. 9024658. Режим доступа: https://ieeexplore.ieee.org/document/9024658, дата обращения 30.05.2020.
Van Kerkhoff L. (2014) Developing integrative research for sustainability science through a complexity principles-based approach // Sustainability Science. Vol. 9. P. 143-155.
Van de Poel I. (2020) Embedding Values in Artificial Intelligence (AI) Systems // Minds and Machines (в печати, впервые опубликовано онлайн 01.09.2020). Режим доступа: https://link.springer.com/article/, дата обращения 14.08.2020. DOI: https://doi.org/10.1007/s11023-020-09537-4
Van der Heijden K. (1996) Scenarios: The Art of Strategic Conversation. New York: Wiley & Sons.
Wayne W. (2008) Computers as Components: Principles of Embedded Computing Systems Design. Amsterdam: Morgan Kaufmann.
Wedde H.E., Lehnhoff S., van Bonn B., Bay Z., Becker S., Bottcher S., Brunner C., Buscher A., Furst T., Lazarescu A.M., Rotaru E., Senge S., Steinbach B., Yilmaz F., Zimmermann T. (2007) Highly dynamic and adaptive traffic congestion avoidance in real-time inspired by honey bee behavior // Mobilitat und Echtzeit / Eds. P. Holleczek, B. Vogel-Heuser. Heidelberg, New York, Dordrecht, London: Springer. P. 21-31. DOI: https://doi.org/10.1007/978-3-540-74837-3_3
This work is licensed under a Creative Commons Attribution 4.0 International License.