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Potentials for the Integration of Design Thinking along Automotive Systems Engineering Focusing Security and Safety

  • Julian Tekaat (a1), Aschot Kharatyan (a1), Harald Anacker (a1) and Roman Dumitrescu (a1)

Abstract

The increasingly intelligent, highly complex, technical systems of tomorrow - for instance autonomous vehicles - result in the necessity for a systematic security- and safety-oriented development process that starts in the early phases of system design. Automotive Systems Engineering (ASE) as one approach is increasingly gaining ground in the automotive industry. However, this approach is still in a prototype stage. The consideration of security and safety within the early stages of systems design leads to so- called ill-defined problems. Such are not covered by ASE, but can be addressed by means of Design Thinking. Therefore we introduce an approach to combine both approaches. Based on this combination, we derive potentials in the context of the consideration of security and safety. Essential advantages are the possibility to think ahead of threat scenarios at an early stage in system design. Due to an incomplete database, this is not supported or only partially supported by conventional approaches. The resulting potentials are derived based upon a practical example.

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Copyright

This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (http://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is unaltered and is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use or in order to create a derivative work.

Corresponding author

Contact: Tekaat, Julian, Fraunhofer Research Institute for Mechatronic Systems Design IEM, Product Engineering, Germany, julian.tekaat@iem.fraunhofer.de

References

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Bakirtzis, G., Simon, B.J., Fleming, C.H. and Elks, C.R. (2018), Looking for a Black Cat in a Dark Room: Security Visualization for Cyber-Physical System Design and Analysis, available at: http://arxiv.org/pdf/1808.08081v2.
Blessing, L.T.M. and Chakrabarti, A. (2009), DRM, a design research methodology, Springer, London.
Brenner, W. and Uebernickel, F. (Eds.) (2016), Design Thinking for Innovation: Research and Practice, 1st ed. 2016, Springer International Publishing, Cham.
Checkoway, S., McCoy, D., Kantor, B., Anderson, D., Shacham, H., Savage, S., Koscher, K., Czeskis, A., Roesner, F., Kohno, T. and others (2011), “Comprehensive experimental analyses of automotive attack surfaces”.
Conway, R., Masters, J. and Thorold, J. (2017), “From Design Thinking to Systems Change”, Royal Society of Arts (London, UK).
Gausemeier, J., Rammig, F.J. and Schäfer, W. (Eds.) (2014), Design Methodology for Intelligent Technical Systems: Develop Intelligent Technical Systems of the Future, Lecture Notes in Mechanical Engineering, Springer Berlin Heidelberg, Berlin, Heidelberg.
German Association of the Automotive Industry (VDA) (2015), Automation: From Driver Assistance Systems to Automated Driving, Magazine - Automation, Berlin.
ISO 26262 (2011), Road vehicles: Functional safety, ICS 01.040.43; 43.040.10 No. International Organization for Standardization.
Israilidis, J., Lock, R. and Cooke, L. (2013), “Ignorance Management”, Management Dynamics in the Knowledge Economy, Vol. 1 No. 1, pp. 7185.
Koscher, K., Czeskis, A., Roesner, F., Patel, S., Kohno, T., Checkoway, S., McCoy, D., Kantor, B., Anderson, D., Shacham, H. and Savage, S. (2010), “Experimental Security Analysis of a Modern Automobile”, in IEEE Symposium on Security and Privacy (SP), 2010: 16 - 19 May 2010, Berkeley/Oakland, California, Oakland, CA, USA, 5/16/2010 - 5/19/2010, IEEE, Piscataway, NJ, pp. 447462.
Lewrick, M., Patrick, L. and Leifer, L. (2018), The Design Thinking Playbook: Mindful Digital Transformation of Teams, Products, Services, Businesses and Ecosystems, John Wiley and Sons, Hoboken, New Jersey.
Lukei, M., Hassan, B., Dumitrescu, R., Sigges, T. and Derksen, V. (2016), “Requirement analysis of inspection equipment for integrative mechatronic product and production system development: Model-based systems engineering approach”, in 10th Annual International Systems Conference proceedings, April 18-21, 2016, Hyatt Regency Grand Cypress, Orlando, Florida, USA, Orlando, FL, USA, 4/18/2016 - 4/21/2016, IEEE, Piscataway, NJ, pp. 17.
Macher, G., Sporer, H., Berlach, R., Armengaud, E. and Kreiner, C. (2015), “SAHARA: A security-aware hazard and risk analysis method”.
Maurer, M. and Winner, H. (2013), Automotive Systems Engineering, Springer Berlin Heidelberg, Berlin, Heidelberg.
Miller, C. and Valasek, C. (2013), “Adventures in automotive networks and control units”, Def Con, Vol. 21, pp. 260264.
Miller, C. and Valasek, C. (2015), “Remote Exploitation of an Unaltered Passenger Vehicle”, available at: http://www.ioactive.com/labs/resources-white-papers.html5 (accessed 7 March 2019).
Nourian, A. and Madnick, S. (2018), “A Systems Theoretic Approach to the Security Threats in Cyber Physical Systems Applied to Stuxnet”, IEEE Transactions on Dependable and Secure Computing, Vol. 15 No. 1, pp. 213.
Plattner, H., Meinel, C. and Leifer, L. (Eds.) (2016), Design thinking research: Making design thinking foundational, Understanding innovation, Springer, Cham, Heidelberg, New York, Dordrecht, London.
Strafaci, A. (2008), “What does BIM mean for civil engineers”, CE News, Tranportation, No. 127.
Tomita, Y., Watanabe, K., Shirasaka, S. and Maeno, T. (2017), “Applying design thinking in systems engineering process as an extended version of DIKW model”.
VDI 2206 (2004), Design methodology for mechatronic systems, Vol. 03.100.40; 31.220, Beuth Verlag, Düsseldorf.
Walden, D.D., Roedler, G.J., Forsberg, K., Hamelin, R.D. and Shortell, T. M. (Eds.) (2015), Systems engineering handbook: A guide for system life cycle processes and activities ; INCOSE-TP-2003-002-04, 2015, 4. edition, Wiley, Hoboken, NJ.
Winner, H. (2013), “Challenges of automotive systems engineering for industry and academia”, in Automotive Systems Engineering, Springer, pp. 315.
Zhao, Y.-Y. (2015), “Towards innovative system development: A joint method of design thinking and systems thinking”.

Keywords

Potentials for the Integration of Design Thinking along Automotive Systems Engineering Focusing Security and Safety

  • Julian Tekaat (a1), Aschot Kharatyan (a1), Harald Anacker (a1) and Roman Dumitrescu (a1)

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