Artículos de revistas
A Wind Energy Generator For Smart Grid Applications Using Wireless-coded Neuro-fuzzy Power Control
Registro en:
Computers And Mathematics With Applications. Elsevier Ltd, v. 68, n. 12, p. 2112 - 2123, 2014.
8981221
10.1016/j.camwa.2013.06.030
2-s2.0-84919840848
Autor
Capovilla C.E.
Casella I.R.S.
Sguarezi Filho A.J.
Azcue-Puma J.L.
Jacomini R.V.
Ruppert E.
Institución
Resumen
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Wind energy is the major driver to obtain an optimized and efficient use of renewable energy in smart grids. To provide balanced supply, demand, and storage of energy in a much more efficient manner than is done today, smart grids require the employment of an advanced communication infrastructure associated to a robust power control and real-time monitoring systems. Towards this objective, we present a wireless-coded power control scheme for doubly fed induction generators operating at variable speed. The proposed system employs adaptive neuro-fuzzy control, quaternary phase shift-keying modulation, and low-density parity check coding techniques to improve the system robustness and reliability in different propagation conditions for remotely transmitting the power control references from the control center to a given aerogenerator. 68 12 2112 2123 CAPES; Coordenação de Aperfeiçoamento de Pessoal de Nível Superior Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Ilic, M.D., From hierarchical to open access electric power systems (2007) Proceedings of the IEEE, 95 (5), pp. 1060-1084 Li, F., Qiao, W., Sun, H., Wan, H., Wang, J., Xia, Y., Xu, Z., Zhang, P., Smart transmission grid: Vision and frameworks (2010) IEEE Transactions on Smart Grid, 1 (2), pp. 186-192 Manwell, J.F., McGowan, J.G., Rogers, A.L., (2010) Wind Energy Explained: Theory, Design and Application, , second ed. Wiley Almeida, R.G., Pecas Lopes, J.A., Participation of doubly fed induction wind generators in system frequency regulation (2007) IEEE Transactions on Power Systems, 22 (3), pp. 944-950 Datta, R., Rangathan, V.T., Variable-speed wind power generation using doubly fed wound rotor induction machine - A comparison with alternative schemes (2002) IEEE Transactions on Energy Conversion, 17 (3), pp. 414-421 Tapia, A., Tapia, G., Ostolaza, J.X., Saenz, J.R., Modeling and control of a wind turbine driven doubly fed induction generator (2003) IEEE Transactions on Energy Conversion, 18 (2), pp. 194-204 Shaheen, S.A., Hasanien, H.M., Badr, M.A., Study on doubly fed induction generator control (2010) International Middle East Power Systems Conference, pp. 627-633 Kim, J., Jeon, J., Heo, H., Design of adaptive PID for pitch control of large wind turbine generator (2011) International Conference on Environment and Electrical Engineering, pp. 1-4 Singh, B., Kyriakides, E., Singh, S.N., Intelligent control of grid connected unified doubly-fed induction generator IEEE Power and Energy Society General Meeting, pp. 1-7. , July 2010 Jang, J.-S.R., Anfis: Adaptive-network-based fuzzy inference system (1993) IEEE Transactions on Systems, Man, and Cybernetics, 23 (3), pp. 665-685 Adamowicz, M., Strzelecki, R., Krzeminski, Z., Szewczyk, J., Lademan, L., Application of wireless communication to small wecs with induction generator 15th IEEE Mediterranean Electrotechnical Conference, pp. 944-948. , June 2010 Adamowicz, M., Strzelecki, R., Szewczyk, J., Lademan, L., Wireless short-range device for wind generators 12th Biennial Baltic Electronics Conference, pp. 1736-3705. , November 2010 Anaya-Lara, O., Jenkins, N., McDonald, J.R., Communications requirements and technology for wind farm operation and maintenance IEEE International Conference on Industrial and Information Systems, pp. 173-178. , August 2006 Wanzhi, C., Zhiyong, T., Quangui, Z., Liang, C., Research of wireless communication based on lonworks for wind turbine control system IEEE International Conference on Energy and Environment Technology, pp. 787-789. , October 2009 Li, T.J., (2002) Low Complexity Capacity Approaching Schemes: Design, Analysis and Applications, , Ph.D. Dissertation, Texas AM Univ Proakis, J.G., (2008) Digital Communications, , McGraw-Hill Li, H., Lai, L., Zhang, W., Communication requirement for reliable and secure state estimation and control in smart grid (2011) IEEE Transactions on Smart Grid, 2 (3), pp. 477-486 Jiang, J., Narayanan, K.R., Iterative soft decision decoding of Reed Solomon (2004) IEEE Communications Letters, 8, pp. 244-246 Lin, S., Costello, D.J., (2004) Error Control Coding, , Prentice Hall Berrou, C., Glavieux, A., Thitimajshima, P., Near Shannon limit error-correcting coding and decoding: Turbo-codes (1993) IEEE International Communications Conference, pp. 1064-1070 Chen, J., Abedi, A., Distributed turbo coding and decoding for wireless sensor networks (2011) IEEE Communications Letters, 15, pp. 166-168 Casella, I.R.S., Analysis of turbo coded OFDM systems employing space-frequency block code in double selective fading channels IEEE International Microwave and Optoelectronics Conference, pp. 516-520. , November 2007 Mackay, D.J.C., Neal, R.M., Near Shannon limit performance of low-density parity-check codes (1996) IET Electronics Letters, 32, pp. 1645-1646 Richardson, T., Shokrollahi, A., Urbanke, R., Design of capacity-approaching low-density parity-check codes (2001) IEEE Transactions on Information Theory, 47, pp. 619-637 (2004) Standard for Local and Metropolitan Area Networks, Part 16: Air Interface for Fixed and Mobile Wireless Access Systems, , IEEE IEEE Std. 802.16-2004 Leonhard, W., (1985) Control of Electrical Drives, , Springer-Verlag Berlin, Heidelberg, New York, Tokyo Jang, J.-S.R., Sun, C.-T., Neuro-fuzzy modeling and control (1995) Proceedings of the IEEE, 83 (3), pp. 378-406 Haykin, S., (1998) Neural Networks: A Comprehensive Foundation, , second ed. Prentice Hall Sugeno, M., Kang, G.T., Structure identification of fuzzy model (1988) Fuzzy Sets and Systems, 28 Sguarezi Filho, A.J., Ruppert, E., A deadbeat active and reactive power control for doubly-fed induction generators (2010) Electric Power Components and Systems, 38 (5), pp. 592-602 Gallager, R.G., (1963) Low-Density Parity-Check Codes, , Cambridge Zhang, Y., Ryan, W.E., Toward low LDPC-code floors: A case study (2009) IEEE Transactions on Communications, 57 (6), pp. 1566-1573 Tanner, R.M., A recursive approach to low complexity codes (1981) IEEE Transactions on Information Theory, 27 (5), pp. 533-547 Jin, H., Khandekar, A., McEliece, R.J., Irregular repeat-accumulate codes Proc. Int. Symp. Turbo Codes and Related Topics, pp. 1-5. , September 2000 Yang, M., Ryan, W.E., Lowering the error-rate floors of moderate length high-rate irregular LDPC codes Int. Symp. Information Theory, 2, p. 237. , July 2003 Yang, M., Ryan, W.E., Li, Y., Design of efficiently encodable moderate-length high-rate irregular LDPC codes (2004) IEEE Transactions on Communications, 52 (4), pp. 564-571 Zhang, Y., Ryan, W.E., Li, Y., Structured eIRA codes with low floors Proceedings of the International Symposium on Information Theory, pp. 174-178. , September 2005 Kim, J., Ramamoorthy, A., McLaughlin, S., The design of efficiently-encodable rate-compatible LDPC codes (2009) IEEE Transactions on Communications, 57, pp. 365-375 Barbieri, A., Piemontese, A., Colavolpe, G., On the ARMA approximation for frequency-flat Rayleigh fading channels IEEE International Symposium on Information Theory, pp. 1211-1215. , June 2007 Richardson, T., Urbanke, R., The capacity of low-density parity check codes under message-passing decoding (2001) IEEE Transactions on Information Theory, 47, pp. 599-618 Dinoi, L., Sottile, F., Benedetto, S., Design of versatile eIRA codes for parallel decoders (2008) IEEE Transactions on Communications, 56 (12), pp. 2060-2070 Shuval, B., Sason, I., On the universality of LDPC code ensembles under belief propagation and ML decoding (2010) IEEE 26th Convention of Electrical and Electronics Engineers, pp. 355-359 Dvb-s.2, Standard Specification, pp. 302-307. , ETSI March 2005 Sguarezi Filho, A.J., De Oliveira Filho, M.E., Ruppert, E., A predictive power control for wind energy (2011) IEEE Transactions on Sustainable Energy, 2 (1), pp. 97-105