Better Performance of New Generation of Digital Video Broadcasting-terrestrial (DVB-T2) Using Alamouti scheme with Cyclic Delay Diversity
محورهای موضوعی : Communication Systems & DevicesBehnam Akbarian 1 , Saeed Ghazi-Maghrebi 2
1 - Islamic Azad University
2 - Islamic Azad University
کلید واژه: Alamouti coding, DVB-T2, MIMO, OFDM, , , , ,
چکیده مقاله :
The goal of the future terrestrial digital video broadcasting (DVB-T) standard is to employ diversity and spatial multiplexing in order to achieve the fully multiple-input multiple-output (MIMO) channel capacity. The DVB-T2 standard targets an improved system performance throughput by at least 30% over the DVB-T. The DVB-T2 enhances the performance using improved coding methods, modulation techniques and multiple antenna technologies. After a brief presentation of the antenna diversity technique and its properties, we introduce the fact of the well-known Alamouti decoding scheme cannot be simply used over the frequency selective channels. In other words, the Alamouti Space-Frequency coding in DVB-T2 provides additional diversity. However, the performance degrades in highly frequency-selective channels, because the channel frequency response is not necessarily flat over the entire Alamouti block code. The objective of this work is to present an enhanced Alamouti space frequency block decoding scheme for MIMO and orthogonal frequency-division multiplexing (OFDM) systems using the delay diversity techniques over highly frequency selective channels. Also, we investigate the properties of the proposed scheme over different channels. Specifically, we show that the Alamouti scheme with using Cyclic Delay Diversity (CDD) over some particular channels has the better performance. Then, we exemplarity implement this scheme to the DVB-T2 system. Simulation results confirm that the proposed scheme has lower bit error rate (BER), especially for high SNRs, with respect to the standard Alamouti decoder over highly frequency-selective channels such as single frequency networks (SFN). Furthermore, the new scheme allows a high reliability and tolerability. The other advantages of the proposed method are its simplicity, flexibility and standard compatibility with respect to the conventional methods.
The goal of the future terrestrial digital video broadcasting (DVB-T) standard is to employ diversity and spatial multiplexing in order to achieve the fully multiple-input multiple-output (MIMO) channel capacity. The DVB-T2 standard targets an improved system performance throughput by at least 30% over the DVB-T. The DVB-T2 enhances the performance using improved coding methods, modulation techniques and multiple antenna technologies. After a brief presentation of the antenna diversity technique and its properties, we introduce the fact of the well-known Alamouti decoding scheme cannot be simply used over the frequency selective channels. In other words, the Alamouti Space-Frequency coding in DVB-T2 provides additional diversity. However, the performance degrades in highly frequency-selective channels, because the channel frequency response is not necessarily flat over the entire Alamouti block code. The objective of this work is to present an enhanced Alamouti space frequency block decoding scheme for MIMO and orthogonal frequency-division multiplexing (OFDM) systems using the delay diversity techniques over highly frequency selective channels. Also, we investigate the properties of the proposed scheme over different channels. Specifically, we show that the Alamouti scheme with using Cyclic Delay Diversity (CDD) over some particular channels has the better performance. Then, we exemplarity implement this scheme to the DVB-T2 system. Simulation results confirm that the proposed scheme has lower bit error rate (BER), especially for high SNRs, with respect to the standard Alamouti decoder over highly frequency-selective channels such as single frequency networks (SFN). Furthermore, the new scheme allows a high reliability and tolerability. The other advantages of the proposed method are its simplicity, flexibility and standard compatibility with respect to the conventional methods.
[1] A. Omri, R. Hamila, A. Hazmi, R. Bouallegue, A. Al-Dweik, "Enhanced Alamouti Decoding Scheme for DVB-T2 Systems in SFN Channels", IEEE Conf. PIMRC, Toronto, 2011, pp.1626–1630.#
[2] G. Bauch, "Aspects of Delay Diversity in OFDM", African Journal of Information and Communication Technology, vol.2, no.1, 2006, pp.12-20. #
[3] J.S. Baek, J.S. Seo, "Effective Symbol Timing Recovery Based on Pilot-Aided Channel Estimation for MISO", IEEE Transaction on Broadcasting, 2010,vol. 56, no. 2. #
[4] E. Biglier, R. Calderk, A. Conestantinides, A. Goldsmith, A. Paulra, A. Poor, "MIMO Wireless Communications", Cambridge University Press, New York, 2005.#
[5] S.H. Ahmed, S.M. Umar Talha, A. Khan, "Performance Evaluation of DVB-T Based OFDM over Wireless Communication Channels", Proceedings of the International Multi Conference of Engineer and Computer Scientists, IEEE, Hong Kong, vol.1, 2012, pp.1-4,. #
[6] M. Tormos, C. Tanougast, A. Dandache, D. Masse, P. Kasser, "Modeling and performance evaluations of Alamouti technique in a single frequency network for DVB-T2", EURASIP Journal on Wireless Communications and Networking, no.1, 2013, pp.1499-2013.#
[7] N. Cornillet, M. Crussi`ere, J.F. H´elard, "Performance of the DVB-T2 System in a Single Frequency Network: Analysis of the Distributed Alamouti Scheme", BMSB, IEEE, Nuremberg, 2011, pp.1–4.#
[8] A. Dammann, S. Kaiser, "Low complex standard conformable antenna diversity techniques for OFDM systems and its application to the DVB-T system", ITG FACHBERICHT, 2002,pp. 253- 260.#
[9] Z. Chen, J. Yuan, B. Vucetic, Z. Zhou, "Performance of Alamouti scheme with transmit antenna selection", Electronic Letters, 2003, vol. 39, pp.1666–1668.#
[10] S M. A. "Alamouti, Simple Transmit Diversity Technique for Wireless Communications", IEEE Journal, Selected Areas in Communications, 1998,vol.16, pp.1451 – 1458.#
[11] D. Gozálvez, D. Gómez- Barquero, D. Vargas, N. Cardona , "Time Diversity in Mobile DVB-T2 Systems", IEEE Transaction on Broadcasting, 2011, vol.57, no.3, pp.617-628.#
[12] S. Kaiser, "Spatial Transmit Diversity Techniques for Broadband OFDM Systems", IEEE. GLOBECOM, 2002, vol.3, no.1, pp.1824-1828.#
[13] Y. Zhang, J. Cosmas, K. Loo, M. Bard, R.D. Bari, "Analysis of Cyclic Delay Diversity on DVB-H Systems over Spatially Correlated Channel", IEEE Tra. Broadc, 2007, vol. 53, no. 1, pp- 247 – 255.#
[14] S. Plass, A. Dammann, "Channel Correlation Properties in OFDM by using Time-Varying Cyclic Delay Diversity", Journal of Communication,2008, vol. 3, no1.3,pp.19-26.#
[15] M. Liu,M. Crussi`ere, M. H´elard, J.F. H´elard, "Enhanced Mobile Digital Video Broadcasting with Distributed Space-Time Coding", ICC Workshop on Telecommunications: From Research to Standards, Ottawa Canada, 2012, vol.1, pp.6971 - 6976.#
[16] S. Plass, A. Dammann, S. Sand, "An Overview of Cyclic Delay Diversity and its Applications", Vehicular Technology Conference (VTC), IEEE 68th, Calgary, BC, 2008, pp.1 – 5.#
[17] ETSI, ‘Digital Video Broadcasting (DVB); "Implementation guidelines for a second generation digital terrestrial television broadcasting system (DVB-T2)", ETSI, TS 102 831 V1.2.1, 2012.#
[18] A. Dammann, R. Raulefs, S. Plass, "Soft Cyclic Delay Diversity and its Performance for DVB-T in Ricean Channels", GLOBECOM '07. IEEE, 2007,pp . 4210 -4214.#
[19] A. Dammann, S. Plass, S. Sand, "Cyclic Delay Diversity — A Simple, Flexible and Effective Multi-Antenna Technology for OFDM", Spread Spectrum Techniques and Applications, IEEE 10th International Symposium, Bologna, Italy, 2008, pp.550 - 554.#
[20] C.G. Calero, L.C. Navarrete, L.de Haro, R. Martínez, "A 2×2 MIMO DVB-T2 System: Design, New Channel Estimation Scheme and Measurements with Polarization Diversity", IEEE Transaction on Broadcasting, 2011, vol. 57, no. 2, pp. 184 -192.#
[21] A. Dammann, S. Plass, "Cyclic delay diversity: Effective channel properties and applications." Proceedings IEEE International Conference on Communications (ICC)", Glasgow, Scotland, vol. 1, pp. 1-4.#
[22] H.Schulze, "A Comparison between Alamouti Transmit Diversity and (Cyclic) Delay Diversity for a DRM+ System."proceeding of international OFDM workshop, 2006,vol 1. Pp.1-6#