Zusammenfassung
In this paper an investigation of the State of the Art of Industrial Wireless Sensor Networks (IWSNs) is performed. Therefore the given industrial requirements, different wireless communication protocols, the defined basic architecture and open research questions will be analysed. Furthermore, current challenges from the research domain will be discussed and a real use case of IWSNs from a research project in cooperation with a local industrial partner will be evaluated. To conclude this paper an outlook of further developments and possible future applications of IWSNs will be sketched.
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Literatur
1. Waide, P., Brunner, C. U.: Energy Efficiency Series - Energy-Efficiency Policy Opportunities for Electric Motor-Driven Systems. Working Paper of International Energy Agency, 2011.
2. Kumar Somappa, A. A., Øvsthus, K., Kristensen, L. M.: An Industrial Perspective on Wireless Sensor Networks - A Survey of Requirements, Protocols, and Challenges. IEEE Communications Surveys & Tutorials, Volume 16, Issue 3, 2014.
3. Hancke, G. P., and Hancke Jr., G. P.: Industrial Wireless Sensor Networks: A Selection of Challenging Applications. 2012 6th European Conference on Antennas and Propagation (EUCAP), Prague, 2012.
4. Åkerberg, J., Gidlund, M., Bjorkman, M.: Future Research Challenges in Wireless Sensor and Actuator Networks targeting Industrial Automation. 2011 9th IEEE International Conference on Industiral Informatics (INDIN), Caparica, Lisbon, 2011.
5. Hou, L., Bergmann, N. W.: System Requirements for Industrial Wireless Sensor Networks. 2010 IEEE Conference on Emerging Technologies and Factory Automation (ETFA), Bilbao, 2010.
6. Zheng, L.: Industrial Wireless Sensor Networks and Standardizations. Proceedings of SICE Annual Conference 2010, Taipei, 2010.
7. Gungor, V. C., Hancke, G. P.: Industrial Wireless Sensor Networks: Challenges, Design Principles, and Technical Approaches. IEEE Transactions on Industrial Electronics, Volume 56, Issue 10, 2009.
8. Sheng, Z., Mahapatra, C., Zhu, C., Leung, V. C. M.: Recent Advances in Industrial Wireless Sensor Networks Toward Efficient Management in IoT. IEEE Access, Volume 3, 2015.
9. Zand, P., Chatterjea, S., Das, K., Havinga, P.: Wireless Industrial Monitoring and Control Networks: The Journey So Far and the Road Ahead. Journal of Sensor and Actuator Networks, Volume 1, Pages 123-152, 2012.
10. Isaac, S. J., Madhoo, H., Khatri, A., Hancke, G. P.: A Survey of Wireless Sensor Network Applications From a Power Utility’s Distribution Perspective. IEEE Africon 2011, Livingstone, Zambia, 2011.
11. Lee, J.-S., Dong, M.-F., Sun, Y.-H.: A Preliminary Study of Low Power Wireless Technologies: ZigBee and Bluetooth Low Energy. 2015 IEEE 10th Conference on Industrial Electronics and Applications (ICIEA), Auckland, 2015.
12. Agha, K. A., Bertin, M.-H., Dang, T., Guitton, A., Minet, P., Val, T., Viollet, J.-B.: Which Wireless Technology for Industrial Wireless Sensor Networks? The Development of OCARI Technology. IEEE Transactions on Industrial Electronics, Volume 56, Number 10, 2009.
13. Christin, D., Mogre, P. S., Hollick, M.: Survey on Wireless Sensor Network Technologies for Industrial Automation: The Security and Quality of Service Perspectives. Future Internet: Special Issue Security for Next Generation Wireless and Decentralized Systems, Volume 2, Pages 96-125, 2010.
14. ZigBee Alliance, http://www.zigbee.org/, last visited: 10. Oktober 2016
15. HART Communication Foundation, http://www.hartcomm.org/, last visited: 10. Oktober 2016
16. ISA 100 Working Group (Society of Automation), https://www.isa.org/isa100/, last visited: 10. Oktober 2016
17. Bluetooth Special Interest Group, https://www.bluetooth.com/, last visited: 10. Oktober 2016
18. Imtiaz, J., Jasperneite, J.: Scalability of OPC-UA Down to the Chip Level Enables”Internet of Things”. 2013 11th IEEE International Conference on Industrial Informatics (INDIN), Bochum, 2013.
19. Block, D., Meier, U.:Wireless Deterministic Medium Access: A Novel Concept Using Cog-nitive Radio. COCORA 2013: The Third International Conference on Advances in Cogni-tive Radio, Venice, 2013
20. German Federal Ministry of Education and Research (BMBF) 5G: Industrielles Internet, https://www.bmbf.de/foerderungen/bekanntmachung.php?B=1044, last visited: 10. Oktober 2016
21. German Federal Ministry of Education and Research (BMBF) 5G: Taktiles Internet, https://www.bmbf.de/foerderungen/bekanntmachung.php?B=1109, last visited: 10. Oktober 2016
22. Munz, H.: Industry 4.0 - Creating The Future W ith The 4th Industrial Revolution, TSNA Conference, Santa Clara, 2015
23. Leading Edge Cluster its OWL, http://www.its-owl.com, last visited: 10. Oktober 2016
24. Block, D.,Meier, U.: Coexistence Performance of WSAN-FA: Simulative Evaluation Kom-munikation in der Automation - KommA, Magdeburg, 2015
25. Krätzig, M., Rauchhaupt, L.: Koordinierung heterogener, industriellen Funkkommunikation durch ein zentrales Koexistenzmanagement Kommunikation in der Automation - KommA, Magdeburg, 2015
26. Weinand, A., Ambekar, A., Karrenbauer, M., Schotten, H. D.: Providing Physical Layer Security for Mission Critical Machine Type Communication 21th IEEE Conference on Emerging Technologies & Factory Automation (ETFA), Berlin, 2016
27. Mahmood, A., Sauter, T., Trsek, H., Exel, R.: Methods and Performance Aspects for Wire-less Clock Synchronization in IEEE802.11 for the IoT IEEE World Conference on Factory Communication Systems (WFCS), Aveiro, 2016
28. Cena, G., Scanzio, S., Seno, L., Valenzano, A., Zunino, C.: Combining reliability and time-liness in indsutrial wireless networks: an experimental assessment IEEE World Conference on Factory Communication Systems (WFCS), Aveiro, 2016
29. Zou, Y., Zhu, J., Wang, X., Hanzo, L.: A Survey on Wireless Security: Technical Chal-lenges, Recent Advances, and Future Trends Proceedings of the IEE, Vol. 104, No. 9, 2016 Begleitforschung BZKI IKT-2020: Zuverlassige, drahtlose Kommunikation in der Indus-trie, http://www.industrialradio.de/, last visited: 10. Oktober 2016
30. Begleitforschung BZKI IKT-2020: Zuverlässige, drahtlose Kommunikation in der Industrie, http://www.industrialradio.de/, last visited: 10. Oktober 2016
31. IEEE 802 LAN/MAN Standards Comittee IEEE 802 Standards, http://www.ieee802.org/, last visited: 10. Oktober 2016
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Ehrlich, M., Wisniewski, L., Jasperneite, J. (2018). State of the Art and Future Applications of Industrial Wireless Sensor Networks. In: Jasperneite, J., Lohweg, V. (eds) Kommunikation und Bildverarbeitung in der Automation. Technologien für die intelligente Automation. Springer Vieweg, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-55232-2_3
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DOI: https://doi.org/10.1007/978-3-662-55232-2_3
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