Abstract
The chapter presents the data rates measurements of WiMAX operating in 1.5GHz and WLAN 802.11g conducted in a reverberation chamber. The goal of the measurements was to perform a compatibility study between these systems working simultaneously. The motivation to perform the compatibility study was that these systems were chosen for operation in underground mining environment during research on telecommunication system for mine excavations. A short description of these measurments as well as the general concept of the above-mentioned systems are also shown. All tests were performed in the reverberation chamber which is widely used for electromagnetic compatibility studies. Beside the data rates measurement results, the chapter also presents a testbed, procedures for performance tests and a short decription of the reverberation chamber.
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References
Andreev, S., Dubkov, K., Turlikov, A.: IEEE 802.11 and 802.16 Cooperation Within Multi-Radio Stations. Wireless Personal Communications 58, 525–543 (2011) ISSN: 0929-6212, doi:10.1007/s11277-010-0134-1
Backstrom, M., Lunden, O., Kildal, P.S.: Reverberation Chambers for EMC Susceptibility and Emission Analyses. Review of Radio Science 1999-2002, 429–452 (2002)
Belhouji, A., Decroze, C., Carsenat, D., Mouhamadou, M., Reynaud, S., Monediere, T.: A MIMO WiMAX-OFDM based system measurements in real environments. In: Antennas and Propagation, EuCAP 2009, pp. 1106–1109 (2009) E-ISBN: 978-3-00-024573-2
Genender, E., Holloway, C.L., Remley, K.A., Ladbury, J., Koepke, G., Garbe, H.: Use of Reverberation Chamber to Simulate the Power Delay Profile of a Wireless Environment. In: Proceedings IEEE EMC Europe, Hamburg, September 8-12 (2008)
Heinrich, R., Karsten, U.: Reverberation chambers - Design and application for EMC. In: Proc. 17th Int. Zurich Symp. Tech. Exhib. Electromagn. Compat., pp. 190–193 (February 2006)
Hill, D.A.: Electromagnetic Fields in Cavities: Deterministic and Statistical Theories. IEEE Press Series on Electromagnetic Wave Theory. John Wiley & Sons (2009) ISBN: 978-0470465905
Holloway, C.L., Hill, D.A., Ladbury, J.M., Koepke, G.: Requirements for an Effective Reverberation Chamber: Unloaded or Loaded. IEEE Trans. on Electromagnetic Compatibility 48(1) (2006)
Kim, J., Park, S., Rhee, S.H., Choi, Y.-H., Chung, Y.-U., Hwang, H.Y.: Coexistence of WiFi and WiMAX Systems Based on PS-Request Protocols. Sensors 11, 9701–9716 (2011)
Kim, J., Park, S., Rhee, S.H., Choi, Y.-H., Hwang, H.: Energy efficient coexistence of wiFi and wiMAX systems sharing frequency band. In: Kim, T.-h., Lee, Y.-h., Kang, B.-H., Ślęzak, D. (eds.) FGIT 2010. LNCS, vol. 6485, pp. 164–170. Springer, Heidelberg (2010)
Kondo, T., Fujita, H., Yoshida, M., Saito, T.: Technology for WiFi/Bluetooth and WiMAX Coexistence. Fujitsu Sci. Tech. J. 46(1), 72–78 (2010)
Kowal, M., Kubal, S., Piotrowski, P., Zielinski, R.: Real time people location and VOIP services efficiency in underground mining environment. In: Grzech, A., et al. (eds.) Information Systems Architecture and Technology: Service Oriented Distributed Systems: Concepts and Infrastructure, pp. 337–346 (2009) ISBN 978-83-7493-477-0
Kowal, M., Kubal, S., Piotrowski, P., Zielinski, R.: Operational characterictic of wireless WiMax and IEEE 802.11x systems in under-ground mine environments. Electronics and Telecommunications Quarterly (International Journal of Electronics and Telecommunications), 81–86 (2010) ISSN 0867-6747
Olano, N., Orlenius, C., Ishimiya, K., Ying, Z.: WLAN MIMO throughput test in reverberation chamber. In: Antennas and Propagation Society International Symposium, AP-S 2008, pp. 1–4 (2008) E-ISBN: 978-1-4244-2042-1
Orlenius, C., Franzen, M., Kildal, P.S., Carlberg, U.: Investigation of Heavily Loaded Reverberation Chamber for Testing of Wideband Wireless Units. In: IEEE International Symposium on Antenna Propagation, pp. 3567–3572 (2006)
Pomianek, A., Staniec, K., Joskiewicz, Z.: Practical remarks on measurement and simulation methods to emulate the wireless channel in the reverberation chamber. Progress in Electromagnetic Research 105, 49–69 (2010)
Primiani, V.M., Moglie, F., Recanatini, R.: On the use of a reverberation chamber to test the performance and the immunity of a WLAN system. In: Electromagnetic Compatibility (EMC 2010), pp. 668–673 (2010) ISSN: 2158-110X
Rajamani, V., Bunting, C., Freyer, G.: Why consider EMC testing in a reverberation chamber. In: Electromagnetic Interference & Compatibility, INCEMIC 2008, pp. 303–308 (2008) ISBN: 978-81-903575-1-7
Staniec, K., Pomianek, A.: On Simulating the Radio Signal Propagation in the Reverberation Chamber with the Ray Launching Method. Progress in Electromagnetics Research B 27, 83–99 (2011)
Thomas, N.J., Willis, M.J., Craig, K.H.: Analysis of Co-existence between IEEE 802.11 and IEEE 802.16 Systems. In: 2006 3rd Annual IEEE Communications Society on Sensor and Ad Hoc Communications and Networks, SECON 2006, September 28, vol. 2, pp. 615–620 (2006)
Zielinski, R.J., Kowal, M., Kubal, S., Piotrowski, P.: Compatibility study between WiMax 1.5GHz and WLAN systems - selected aspects. In: 14th International Asia Pacific Conference on Computer Aided System Theory, Sydney, Australia, February 6-8 (2012)
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Zieliński, R.J., Kowal, M., Kubal, S., Piotrowski, P. (2014). EMC between WIMAX 1.5GHz and WLAN 2.4GHz Systems Operating in the Same Area. In: Klempous, R., Nikodem, J., Jacak, W., Chaczko, Z. (eds) Advanced Methods and Applications in Computational Intelligence. Topics in Intelligent Engineering and Informatics, vol 6. Springer, Heidelberg. https://doi.org/10.1007/978-3-319-01436-4_16
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DOI: https://doi.org/10.1007/978-3-319-01436-4_16
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