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3rd International Conference on Information Technologies in Management

Warsaw, Poland, 26 January 2018

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Wersja polska

Complex Event Processing in Physical Systems: a pragmatic perspective

Rafał Tkaczyk, Mateusz Bonecki, Szymon Bohdanowicz, Maria Ganzha, Marcin Paprzycki


This paper discusses complex event processing solutions developed in two European R&D projects (ACCUS and DEWI). The focus of this work is a comparison of assumptions of complex event processing and cyber-physical systems with solutions actually applied in them.

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  1. Etzion O., Niblett P. (2010). Event processing in action. Stamford, CT: Manning Publications.

Chapters in publications:

  1. Lee E.A. (2008). Cyber Physical Systems: Design Challenges. Electrical Engineering and Computer Sciences, University of California at Berkeley, Berkeley, Technical Report No. UCB/EECS-2008-8.


  1. Talcott C. (2008). Cyber-Physical Systems and Events. Software-Intensive Systems and New Computing Paradigms: 101-115.
  2. Adi A., Botzer D., Nechushtai G., Sharon G. (2006). Complex Event Processing for Financial Services. SCW’06. IEEE: 7-12.
  3. O’Donnella James., Corryb E., Hasanc S., Keaneb M., Curryc E. (2013). Building performance optimization using cross-domain scenario modelling, linked data, and complex event processing. “Building and Environment”. Volume 62: 102-111.
  4. Yaoa W., Chao-Hsien C., Zang L. (2011). Leveraging complex event processing for smart hospitals using RFID. “Journal of Network and Computer Applications”. Volume 34, Issue 3: 799-810.
  5. Zang C., Fan Y., Liu R. (2008). Architecture, implementation and application of complex event processing in enterprise information systems based on RFID. “Information Systems Frontiers”. Volume 10, Issue 5: 543-553.
  6. Wang W., Sung J., Kim D. (2008). Complex Event Processing in EPC Sensor Network Middleware for Both RFID and WSN. 11th IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing (ISORC): 165-169.
  7. Zang C., Fan Y. (2007). Complex event processing in enterprise information systems based on RFID. “Enterprise Information Systems”. Volume 1, Issue 1: 3-23.
  8. Górski K., Groth M., Kulas L. (2014). A multi-building WiFi-based indoor positioning system. 20th International Conference on Microwaves, Radar and Wireless Communications (MIKON).


  1. ACCUS Homepage. (access date – 2016.12.01).
  2. DEWI Homepage. (access date – 2016.12.01).
  3. TDB Homepage. (access date – 2016.12.01).
  4. JENA Homepage. (access date – 2016.12.01).
  5. OrientDB Homepage. (access date – 2016.12.01).
  6. Accessing Relational DBs as Virtual RDF Graphs. (access date – 2016.12.01).
  7. Mike Brock and Various Contributors: MVFLEX Expression Language. (access date – 2016.12.01).
  8. ZigBee Homepage. (access date – 2017.06.22).
  9. CCTV definition. (access date – 2017.06.22).
  10. CEP definition. (access date – 2017.06.22).
  11. CPS definition. (access date – 2017.06.22).
  12. JBoss Drools Homepage. (access date – 2017.06.22).
  13. JSON Homepage. (access date – 2017.06.22).
  14. JSON-LD Homepage. (access date – 2017.06.22).
  15. MVEL definition. (access date – 2017.06.22).
  16. OWL Homepage. (access date – 2017.06.22).
  17. R&D definition. (access date – 2017.06.22).
  18. RDF Homepage. (access date – 2017.06.22).
  19. RFID Homepage. (access date – 2017.06.22).
  20. SOA Homepage. (access date – 2017.06.22).
  21. SPARQL Homepage. (access date – 2017.06.22).
  22. TRISTAR Homepage. (access date – 2017.06.22).
  23. WSN definition. (access date – 2017.06.22).

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