Testing Technical Feasibility in CPS Development Projects

Cyber-physical systems (CPSs) are service systems that connect a product’s physical and computational elements through telecommunication networks. Typically, the processes in CPSs are executed on this physical and computational infrastructure. As the developing of new CPS is costly, testing and validating a CPS’s design at an early stage of development is desirable in order to avoid potential bad investments. The high development and potentially high hardware costs, however, make it difficult to create a full CPS prototype only for testing. This work uses Trkman’s critical success factors of business process management (BPM) as a theoretical lens and identifies “technical-feasibility fit” as an additional complementary success factor. Based on these factors, we develop a method for creating CPS testbeds that allow testing of CPSs at lower costs at an early stage of the development. We demonstrate the method’s application by a case in which we develop a testbed for an electric vehicle charging service.

[1]  B. Edvardsson,et al.  Key Concepts for New Service Development , 1996 .

[2]  Siddharth Sridhar,et al.  Cyber–Physical System Security for the Electric Power Grid , 2012, Proceedings of the IEEE.

[3]  Ramin Moshfegh,et al.  Hybrid prototyping , 2004, Int. J. Manuf. Technol. Manag..

[4]  Ariane Hellinger,et al.  > Cyber-physical Systems Driving Force for Innovation in Mobility, Health, Energy and Production Acatech (ed.) , .

[5]  Stefan Holmlid,et al.  Service Prototyping According to Service Design Practitioners , 2010 .

[6]  T. Meiren,et al.  Testing of service concepts , 2010 .

[7]  Aashish Satwani,et al.  Optimization and Control of Cyber-Physical Vehicle Systems , 2017 .

[8]  Johan Blomkvist,et al.  Ways of seeing service: Surrogates for a design material , 2015, Nordic Design Research Conference.

[9]  Wil M. P. van der Aalst,et al.  Business process management as the “Killer App” for Petri nets , 2015, Software & Systems Modeling.

[10]  Dale Goodhue,et al.  Task-Technology Fit and Individual Performance , 1995, MIS Q..

[11]  L. G. Zomerdijk,et al.  NSD processes and practices in experiential services , 2011 .

[12]  Mary Jo Bitner,et al.  Services Marketing: Integrating Customer Focus Across the Firm , 1996 .

[13]  Stephen L. Vargo,et al.  Service-dominant logic: continuing the evolution , 2008 .

[14]  Christian Wietfeld,et al.  Evaluation of OCPP and IEC 61850 for smart charging electric vehicles , 2013, 2013 World Electric Vehicle Symposium and Exhibition (EVS27).

[15]  Wil M. P. van der Aalst,et al.  The Application of Petri Nets to Workflow Management , 1998, J. Circuits Syst. Comput..

[16]  Gregory Tassey,et al.  Prepared for what , 2007 .

[17]  Peter Trkman,et al.  International Journal of Information Management , 2022 .

[18]  Michael R. Bowers,et al.  Developing New Services: Improving the Process Makes it Better , 1989 .

[19]  Ajay K. Kohli,et al.  Rethinking Customer Solutions: From Product Bundles to Relational Processes , 2007 .

[20]  Ing-Ray Chen,et al.  Behavior Rule Specification-Based Intrusion Detection for Safety Critical Medical Cyber Physical Systems , 2015, IEEE Transactions on Dependable and Secure Computing.

[21]  Amy L. Ostrom,et al.  Service Research Priorities in a Rapidly Changing Context , 2015 .

[22]  Scott E. Sampson Visualizing Service Operations , 2012 .

[23]  Jörg Becker,et al.  Bridging the Gap Between Manufacturing and Service Through IT-Based Boundary Objects , 2013, IEEE Transactions on Engineering Management.

[24]  John C. Knight,et al.  Safety critical systems: challenges and directions , 2002, Proceedings of the 24th International Conference on Software Engineering. ICSE 2002.

[25]  G. L. Shostack,et al.  How to Design a Service , 1982 .

[26]  C. L. Wu,et al.  Development of sustainability evaluation model for implementing product service systems , 2012, International Journal of Environmental Science and Technology.

[27]  R. B. Chase,et al.  A Critical Evaluation of the New Service Development Process: Integrating Service Innovation and Service Design , 2000 .

[28]  Remco M. Dijkman,et al.  Semantics and analysis of business process models in BPMN , 2008, Inf. Softw. Technol..

[29]  Danny Hughes,et al.  Specification, Analyzing Challenges and Approaches for Cyber-Physical Systems (CPS) , 2010 .

[30]  A. Johne,et al.  New service development: a review of the literature and annotated bibliography , 1998 .

[31]  Achilleas Boukis,et al.  Service blueprinting effectiveness: drivers of success , 2012 .

[32]  J. Spohrer,et al.  Marketing: a service science and arts perspective , 2014 .

[33]  Colin C.J. Cheng,et al.  Market‐creating service innovation: verification and its associations with new service development and customer involvement , 2012 .

[34]  Young-Gul Kim,et al.  The critical success factors for ERP implementation: an organizational fit perspective , 2002, Inf. Manag..

[35]  Edward A. Lee,et al.  Modeling Cyber–Physical Systems , 2012, Proceedings of the IEEE.

[36]  Chris Storey,et al.  New service development: initiation strategies , 2000 .

[37]  Thomas W. Edgar,et al.  Towards an experimental testbed facility for cyber-physical security research , 2011, CSIIRW '11.

[38]  Toni M. Somers,et al.  The Impact of ERP Implementation on Business Process Outcomes: A Factor-Based Study , 2007, J. Manag. Inf. Syst..

[39]  Edward A. Lee Cyber Physical Systems: Design Challenges , 2008, 2008 11th IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing (ISORC).

[40]  Paulo Augusto Cauchick Miguel,et al.  Product-service systems: a literature review on integrated products and services , 2013 .