Random Channel Generator for Indoor Power Line Communication

[1] Gellings, C.W. (2009). The Smart Grid: EnablingEnergy Efficiency and Demand Response. CRC Press.Search in Google Scholar

[2] Trulove, J.G. (2003). The Smart House. Collins Design.Search in Google Scholar

[3] Oksa, P., Soini, M., Sydanheimo, L., Kivikoski, M. (2006). Considerations of using power line communication in the AMR system. In IEEEInternational Symposium on Power LineCommunications and Its Applications. IEEE, 208-211.Search in Google Scholar

[4] Havelka, J., Malarić, R., Frlan, K. (2012). Staged-fault testing of distance protection relay settings. Measurement Science Review, 12 (3), 111-120.10.2478/v10048-012-0014-9Search in Google Scholar

[5] Pang, Q., Liu, X., Sun, B., Ling, Q. (2012). Approximate entropy based fault localization and fault type recognition for non-solidly earthed network. Measurement Science Review, 12 (6), 213-313.10.2478/v10048-012-0043-4Search in Google Scholar

[6] Cortés, J., Díez, L., Cañete, F., Sánchez-Martínez, J. (2010). Analysis of the indoor broadband power-line noise scenario. IEEE Transactions on ElectromagneticCompatibility, 52 (4), 849-858.10.1109/TEMC.2010.2052463Search in Google Scholar

[7] Galli, S. (2010). A simple two-tap statistical model for the power line channel. In IEEE InternationalSymposium on Power Line Communications and itsApplications (ISPLC), 28-31 March 2010. IEEE, 242-248.10.1109/ISPLC.2010.5479916Search in Google Scholar

[8] Hasirci, Z., Cavdar, I.H., Suljanović, N., Mujčić, A. (2013). An application of the broadband PLC for smart homes in Turkey. In 36th International Conference onTelecommunication and Signal Processing (TSP), 2-4 July 2013. Budapest: Asszisztencia Szervezo Kft., 222-226.10.1109/TSP.2013.6613924Search in Google Scholar

[9] International Telecommunication Union. G.9960 :Unified high-speed wire-line based home networkingtransceivers - system architecture and physical layerspecification. www.itu.int/rec/T-REC-G.9960/en.Search in Google Scholar

[10] Roka, R. (2012). Fixed transmission media. In Technology and Engineering Applications of Simulink. Rijeka, Croatia: InTech, 27.Search in Google Scholar

[11] Mlynek, P., Misurec, J., Koutny, M. (2012). Noise modeling for power line communication model. In 35th International Conference on Telecommunicationsand Signal Processing (TSP), 3-4 July 2012. IEEE, 282-286.10.1109/TSP.2012.6256299Search in Google Scholar

[12] Mlynek, P., Misurec, J., Koutny, M., Slavicek, K. (2012). Modelling of part medium access methods in the HomePlug. Przeglad Elektrotechniczny, 1, 91-94.Search in Google Scholar

[13] Mlynek, P., Koutny, M., Misurec, J. (2010). Model of power line communication system. In 33rdInternational Conference on Telecommunication andSignal Processing (TSP), 17-20 August 2010. Budapest: Asszisztencia Szervezo Kft., 406-410.Search in Google Scholar

[14] Galli, S., Scaglione, A., Wang, Z. (2011). For the grid and through the grid: The role of power line communications in the smart grid. Proceedings of theIEEE, 99 (6), 998-1027.10.1109/JPROC.2011.2109670Search in Google Scholar

[15] Bestak, I., Orgon, M. (2011). Performance measurement of encryption algorithms used in PLC devices. International Journal of Research andReviews in Computer Science, 2 (5), 1218-1221.Search in Google Scholar

[16] Philipps, H. (1999). Modeling of power line communication channels. In Int. Symposium on PowerLine Communications and Its Applications (ISPLC), 30 March - 1 April 1999. Shannon Foundation, 14-21.Search in Google Scholar

[17] Dostert, K. (2005). Propagation channel characterization and modeling: Outdoor power supply grids as communication channels. In InternationalSymposium on Power Line Communications and ItsApplications (ISPLC), 6-8 April 2005. IEEE.Search in Google Scholar

[18] Zimmermann, M., Dostert, K. (2002). A multipath model for the powerline channel. IEEE Transactionson Communications, 50 (4), 553-559.10.1109/26.996069Search in Google Scholar

[19] Esmailian, T., Kschischang, F., Gulak, G. (2002). An in-building power line channel simulator. In International Symposium on Power LineCommunications and Its Applications (ISPLC), 27-29 March 2002. IEEE, 1-5.Search in Google Scholar

[20] Galli, S., Banwell, A. (2005). A novel approach to accurate modeling of the indoor power line channel- Part II: Transfer function and channel properties. IEEETransactions on Power Delivery, 20 (3), 1869-1878.10.1109/TPWRD.2005.848732Search in Google Scholar

[21] Ferreira, H., Lampe, L., Newbury, J., Swart, T.G. (2010). Power Line Communications: Theory andApplications for Narrowband and Broadband OverPower Lines. John Wiley.Search in Google Scholar

[22] Sancha, S., Canete, J.F., Diez, L., Entrambasaguas, T. (2007). A channel simulator for indoor power-line communications. In IEEE International Symposium onPower Line Communications and Its Applications(ISPLC ‘07), 26-28 March 2007. IEEE, 104-109.10.1109/ISPLC.2007.371106Search in Google Scholar

[23] Corripio, F.J.C., Arrabal, J.A.C., del Rio, L.D., Munoz, J.T.E. (2006). Analysis of the cyclic shortterm variation of indoor power-line channels. IEEEJournal on Selected Areas in Communications, 24 (7), 1327-1338.10.1109/JSAC.2006.874402Search in Google Scholar

[24] Mlynek, P., Misurec, J., Koutny, M., Silhavy, P. (2012). Two-port network transfer function for power line topology modeling. Radioengineering, 21 (1), 356-363.Search in Google Scholar

[25] Mlynek, P., Koutny, M., Misurec, J. (2011). Power line cable transfer function for modelling of power line communication systems. Journal of ElectricalEngineering, 2, 1-4.10.2478/v10187-011-0017-zSearch in Google Scholar

[26] Proakis, J.G. (2001). Digital Communications, 4th ed. McGraw-Hill.Search in Google Scholar

[27] CENELEC. (2008). Signalling on low-voltageelectrical installations in the frequency range 3 kHz to 148.5 kHz. EN50065-1.Search in Google Scholar

[28] Papaleonidopoulos, I., Karagiannopoulos, C., Theodorou, N., Anagnostopoulos, C., Anagnostopoulos, I. (2002). Modelling of indoor low voltage power-line cables in the high frequency range. In International Symposium on Power LineCommunications and Its Applications (ISPLC), 27-29 March 2002. IEEE.Search in Google Scholar

[29] Draka kabely, s.r.o. (2007). Power cables and flexiblecables. www.draka.cz/images/stories/katalog/silove_kabely/1-silove-cz-web.pdf.Search in Google Scholar

[30] Cataliotti, A., Daidone, A., Tine, G. (2008). Power line communication in medium voltage systems: Characterization of MV cables. IEEE Transactions onPower Delivery, 23 (4), 1896-1902.10.1109/TPWRD.2008.919048Search in Google Scholar

[31] Roka, R. (2012). Verification of characteristics of the parametric model for the RC4 reference channel. In 35th International Conference on Telecommunicationsand Signal Processing (TSP), 3-4 July 2012. IEEE, 136-140. 10.1109/TSP.2012.6256268Search in Google Scholar