Abstract
The strategic application domains of Cyber Physical Systems (CPS) [7,6] include health care, transportation, managing large-scale physical infrastructures, and defense systems (avionics). In all these applications there is a need to acquire reliable resources in order to provide trustworthy services at every service request context. Hence we view CPS as a large distributed highway for services and supply chain management. In traditional service-oriented systems service, but not resource, is a first class entity in the architecture model and resources are assumed to be available at run time to provide services. However resource quality and availability are determining factors for timeliness and trustworthiness of CPS services, especially during emergencies. So in the service-oriented view of CPS discussed in this paper we place services around resources, because resource constrain service quality. We investigate a resource-centric, and context-dependent model for service-oriented CPS and discuss 3-tiered architecture for service-oriented CPS in this paper.
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Georgakopolous, D., Papazoglou, M.P.: Service-oriented Computing. The MIT Press (2008)
C.S. Group. Cyber-physical systems: Executive summary. Report (2008), http://varma.ece.cmu.edu/summit/CPS-Executive-Summary.pdf
Zhuge, Y.H., Shi, P.: Resource space model, owl and database: Mapping and integration. ACM Transactions on Internet Technology 8(4) (2008)
Jian Huang, I.-L.Y., Bastani, F., Jeng, J.-J.: Toward a smart cyber-physical space: A context-sensitive resource-explicit service model. In: 33rd Annual IEEE International Computer Software and Applications Conference. IEEE Press (2009)
John, J.J.H., Guttag, V., Wing, J.M.: The larch family of specification languages. IEEE Transactions on Software Engineering
Networking, I.T. Research, and D. Program. High-confidence medical devices: Cyber-physical systems for 21st century health care. Technical report, NITRD (2009)
NSF. Usa nsf program solicitation, nsf-08-611. Report, NSF (2008)
Oracle. Java resources. Web report, Oracle (2003)
Selic, B.: A generic framework for modeling resources with uml. IEEE Computer 33(6), 64–69 (2000)
W3C. W3c recommendation. Technical report
Wan, K.: Lucx: Lucid Enriched with Context. Phd thesis, Concordia University, Montreal, Canada (2006)
Wan, K.: A brief history of context. International Journal of Computer Science Issues 6(2) (2009)
zur Muehlen, M.: Resource modeling in workflow applications. In: Proceedings of Workflow Management Conference
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Wan, K., Alagar, V. (2013). A Resource-Centric Architecture for Service-Oriented Cyber Physical System. In: Park, J.J.(.H., Arabnia, H.R., Kim, C., Shi, W., Gil, JM. (eds) Grid and Pervasive Computing. GPC 2013. Lecture Notes in Computer Science, vol 7861. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-38027-3_74
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DOI: https://doi.org/10.1007/978-3-642-38027-3_74
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