Abstract
In this paper, we evaluate error-rate (ER) performance of downlink turbo coded interleave division multiple access scheme using dual-polarized space–time transmit diversity. We realize STBC architecture using dual-polarized antenna at base station. At each mobile station (MS), we implement dual-polarized structure to obtain compact destination devices. Further, we model polarizing system considering transmit and receive correlations and cross-polarization discrimination. We incorporate log-MAP decoding algorithm at each MS to offer better BER performance. In particular, we explicate STBC-IDMA system’s performance with polarization diversity for a genuine channel model using Stanford University Interim model and long-term evolution channel specifications. From our simulation results, we observe that even though our considered system with dual-polarized antenna require higher SNR to produce the same ER as compared to the spatially-separated antenna, it achieves the advantage of MIMO gain with compact size of MS.
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Ping, L., Liu, L., Wu, K., Leung, W.K.: Interleave-division multiple-access. IEEE Trans. Wirel. Commun. 5(4), 938–947 (2006)
Ping, L., Liu, L., Wu, K.Y., Leung, W.K.: Interleave-division multiple-access (IDMA) communications. In: 3rd International Symposium on turbo codes and related Topics ‘03, pp. 173–180 (2003)
Rong, Z., Hanzo, L.: Iteratively detected multi-carrier interleave division multiple access. In: International conference MICROC0LL’07. BUDAPEST, Hungary (2007)
Partibane, B., Nagarajan, V., Vishvaksenan, K.S., Kalidoss, R.: Performance of multi-user transmitter pre-processing assisted multi-cell IDMA System for downlink transmission. Fluct. Noise Lett. 14(3), 1550030 (2015)
Telatar, I.E.: Capacity of multi-antenna Gaussian channels. AT&T Bell Labs., Internal Tech. Memo (1995)
Foschini, G.J.: Layered space-time architecture for wireless communications in a fading environment when using multi-element antennas. Bell Labs. Tech. J. 1(2), 41–59 (1996)
Foschini, G.J., Gans, M.J.: On limits of wireless communication in a fading environment when using multiple antennas. Wireless Pers. Commun. 6, 311–355 (1998)
Alamouti, S.M.: A simple transmitter diversity scheme for wireless communications. IEEE J. Sel. Areas Commun. 16(8), 1451–1458 (1998)
Tarokh, V., Jafarkhani, H., Calderbank, A.R.: Space–time block codes from orthogonal designs. IEEE Trans. Inf. Theory 45(5), 1456–1467 (1999)
Femenias, G.: BER performance of linear STBC from orthogonal designs over MIMO correlated nakagami-\(m\) fading channels. IEEE Trans. Veh. Technol. 53(2), 307–317 (2004)
Abdaoui, A., Ikki, S.S., Ahmed, M.H., Chatelet, E.: On the performance analysis of a MIMO-relaying scheme with space–time block codes. IEEE Trans. Veh. Technol. 59(7), 3604–3609 (2010)
Stephen, L., Plataniotis, K.N., Pasupathy, S.: Self-Matching space-time block codes for matrix Kalman estimator-based ML detector in MIMO fading channels. IEEE Trans. Veh. Technol. 56(4), 2130–2142 (2007)
Li, Z., Xia, X.-G.: Single-symbol ML decoding for orthogonal and Quasi-orthogonal STBC in clipped MIMO-OFDM systems using a clipping noise model with Gaussian approximation. IEEE Trans. Commun. 56(7), 1127–1136 (2008)
Vishvaksenan, K.S., Seshasayanan, R., Krishnamoorthy, Y.: Performance of joint transmit scheme assisted multiple-input multiple-output multi-carrier IDMA system. J. Comput. Electr. Eng. 39(3), 984–995 (2013)
Vishvaksenan, K.S., Seshasayanan, R., Subramanian, S.: Performance of Dual-Polarized DSTTD-IDMA system over correlated frequency selective channels. J. Comput. Electr. Eng. 40, 1296–1305 (2014)
Swaminathan, S., Stuber, G.L.: Performance of precoding assisted dual-polarized multi-cell MIMO downlink communications. IEEE Glob. Commun. Conf. 2012, 4624–4628 (2012)
Nagaradjane, P., Sarathy, S.K.V., Rajan, Y.A., Muralidharan, P.: Performance of MUTP-aided MIMO systems over correlated frequency-selective wireless communication channels: a multi-cell perspective. EURASIP J. Wirel. Commun. Netw. doi:10.1186/1687-1499-2012-194 (2010)
Wolkerstorfer, M., Statovci, D., Nordstrom, T.: Enabling Greener DSL access networks by their stabilization with artificial noise and SNR margin. J. Cluster Comput. 16, 407–419 (2013)
Habib, A.: Receive antenna selection in diversely polarized MIMO transmissions with convex optimization. Phys. Commun. 5(4), 328–337 (2012)
Karthipan, R., Vishvaksenan, K.S., Kalidoss, R., Krishnan, A.: Performance of turbo coded triply-polarized MIMO-CDMA system for downlink communication. J. Comput. Electr. Eng. 56, 182–192 (2016)
Vasanth Raj, P.T., Vishvaksenan, K.S.: System analysis of DSTTD-CDMA system with polarization diversity for frequency-selective channel. J. Comput. Electr. Eng. doi:10.1016/j.compeleceng.2016.11.027 (2016)
Verdu, S.: Multiuser Detection. Cambridge University Press, Cambridge (1998)
Maucher, J., Furrer, J.: IEEE Standard for WIMAX 802.16. Heise, Hannover (2007)
3GPPP (TR 30.803): Evolved universal Terrestrial radio access (E-UTRA); user equipment (UE) radio transmission and reception (Release 8). Technical specification, Sophia Antipolis, France (2007)
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Mithra, K., Vishvaksenan, K.S. Performance of coded STBC-IDMA system using polarization diversity for downlink transmission. Cluster Comput 20, 1615–1623 (2017). https://doi.org/10.1007/s10586-017-0831-6
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DOI: https://doi.org/10.1007/s10586-017-0831-6