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Warianty tytułu
Method of measuring communication delays in wireless networks based on IEEE 802.15.4
Języki publikacji
Abstrakty
W artykule omówiono używane obecnie przez autorów metody do pomiaru opóźnień w sieciach bezprzewodowych pracujących w standardzie IEEE 802.15.4 oraz przegląd możliwych innych rozwiązań i zaproponowane wybrane metody możliwe do zastosowania w pomiarach w sieciach wielowęzłowych i na dużych odległościach. Przedstawiono problemy występujące w trakcie prowadzenia takich badań oraz korzyści wybranych metod pomiaru.
The paper discusses the currently used by the authors the methods for measuring the delays in wireless networks based on IEEE 802.15.4 standard and a review of possible alternatives, and proposed methods chosen as applicable in the measurement of a multi-node networks and over long distances. Problems occurring during carring out such research and the advantages and disadvantages of selected measuring methods are outlined.
Wydawca
Czasopismo
Rocznik
Tom
Strony
198--200
Opis fizyczny
Bibliogr. 20 poz., rys., wykr.
Twórcy
autor
- Politechnika Śląska, Instytut Metrologii, Elektroniki i Automatyki, ul. Akademicka 10, 44-100 Gliwice
autor
- Politechnika Śląska, Instytut Metrologii, Elektroniki i Automatyki, ul. Akademicka 10, 44-100 Gliwice
Bibliografia
- [1] Nawrocki W., Rozproszone systemy pomiarowe, Wydawnictwo Komunikacji i Łączności, Warszawa (2006)
- [2] Krupanek B., Innovative control systems for tracked vehicle platforms, Springer, (2014), 175-187
- [3] Krupanek B., Bogacz R., Mathematical model of communication delays in wireless networks, International Journal of Electronics and Telecommunications, 62 (2016) n.1, 61-64
- [4] Akyildiz I. F., Su W., Sankarasubramaniam Y., Cayirci E., Wireless sensor networks: a survey, Elsevier, Computer Networks 38 (2002), 393–422
- [5] Jakubiec J., Krupanek B., Probabilistyczny model opóźnień transmisji w jednorodnym systemie bezprzewodowym poddawanym zaburzeniom, Przegląd Elektrotechniczny, (2014) nr 11, 20-22
- [6] Krupanek B., Bogacz R., Modelling of communication delays in wireless networks. Advances measurement tools in technical diagnostics for systems' reliability and safety, 13th IMEKO TC10 Workshop on Technical Diagnostics, Warsaw, Poland, June 26-27, (2014), Proceedings, 21-26
- [7] Akyildiz L.F., Su W., Sankarasubramanian Y., Cayirci E.: A survey on sensor networks, IEEE Communication Magazine, 40 (2002), 8, 102-114
- [8] Oliver R., Fohler G., Probabilistic Estimation of End-to-End Path Latency in Wireless Sensor Networks, IEEE Conference Mobile Adhoc and Sensor Systems, (2009), 423-431
- [9] Elson J., Estrin D., Time Synchronization for Wireless Sensor Networks, Proceedings of the 15th International Parallel and Distributed Processing Symposium, IEEE Computer Society, April 23-27 (2001)
- [10] Schenato L., Gamba G., A distributed consensus protocol for clock synchronization in wireless sensor network, Procedings of the 48th iEEE Conference on Decision and Control, New Orleans, LA, USA, Dec.12-14 (2007), 2289-2294
- [11] Sundararaman B., Buy U., Kshemkalyani A.D., Clock synchronization for wireless sensor networks: a survey, Ad hoc networks, Elsevier, v.3, (2005), 281-323
- [12] Maróti M., Kusy B., Simon G., Lédeczi A., The Flooding Time Synchronization Protocol, SenSys Proceeding of the 2nd international conference on Embedded network sensor systems, (2004), 39-49
- [13] Behrendt K, Fodero K., The Perfect Time: An Examination of Time-Synchronization Techniques, 60th Annual Georgia Tech Protective Relaying Conference, Atlanta, (2006)
- [14] Ranganathan P., Nygard K, Time synchronization in wireless sensor networks: a survey, International Journal of UbiComp, 1 (2010) n.2, 92-102
- [15] Engeler D., Performance analysis and receiver architectures of DCF77 radio-controlled clocks, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 59, 869–88
- [16] Yin Cheny Qiang Wangz Marcus Changy Andreas Terzisy, Ultra-Low Power Time Synchronization Using Passive Radio Receivers, Information Processing in Sensor Networks, (2011), 1-11
- [17] Michael A Lombardi, How Accurate is a Radio Controlled Clock?, Horological Journal, (2010), 108-111
- [18] Kim R., Nagayama T., Jo H., Spencer B. F. Jr, Preliminary study of low-cost GPS receivers for time synchronization of wireless sensor networks, Proceedings of SPIE, Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems (2012)
- [19] Garin L., Wireless Sensor Network-Based Distributed GNSS Receiver Architecture for Infrastructure Monitoring, Department of Geomatics Engineering, UCGE Reports, n.20302, (2010)
- [20] Schweitzer E. O. Whitehead D., Fodero K., Achanta S., Designing and Testing Precise Time-Distribution Systems, Line Current Differential Protection: A Collection of Technical Papers Representing Modern Solutions, (2014), 1-9
Typ dokumentu
Bibliografia
Identyfikator YADDA
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