2-User multiple access spatial modulation

Spatial modulation (SM) is a recently proposed approach to multiple-input-multiple-output (MIMO) systems which entirely avoids inter-channel interference (ICI) and requires no synchronisation between the transmit antennas, while achieving a spatial multiplexing gain. SM allows the system designer to freely trade off the number of transmit antennas with the signal constellation. Additionally, the number of transmit antennas is independent from the number of receive antennas which is an advantage over other multiplexing MIMO schemes. Most contributions thus far, however, have only addressed SM aspects for a point-to-point communication systems, i.e. the single-user scenario. In this work we seek to characterise the behaviour of SM in the interference limited scenario. The proposed maximum-likelihood (ML) detector can successfully decode incoming data from multiple sources in an interference limited scenario and does not suffer from the near-far problem.

[1]  Lutz H.-J. Lampe,et al.  Multiple-antenna techniques for wireless communications - a comprehensive literature survey , 2009, IEEE Communications Surveys & Tutorials.

[2]  Yeonwoo Lee,et al.  Interchannel Interference Avoidance in MIMO Transmission by Exploiting Spatial Information , 2005, 2005 IEEE 16th International Symposium on Personal, Indoor and Mobile Radio Communications.

[3]  Asst . Prof,et al.  Space-Time Block Coded Spatial Modulation , 2012 .

[4]  Harald Haas,et al.  Reduced Complexity Sphere Decoder for Spatial Modulation Detection Receivers , 2010, 2010 IEEE Global Telecommunications Conference GLOBECOM 2010.

[5]  Daniel W Bliss Multiple-Antenna Techniques for Wireless Communications , 2008 .

[6]  Sergio Verdú,et al.  Computational complexity of optimum multiuser detection , 1989, Algorithmica.

[7]  Ali Ghrayeb,et al.  Spatial modulation: optimal detection and performance analysis , 2008, IEEE Communications Letters.

[8]  Harald Haas,et al.  Trellis Coded Spatial Modulation , 2010, IEEE Transactions on Wireless Communications.

[9]  H Haas,et al.  Performance analysis of Spatial Modulation , 2010, 2010 5th International ICST Conference on Communications and Networking in China.

[10]  A. Goldsmith,et al.  A unified approach for calculating error rates of linearly modulated signals over generalized fading channels , 1998, ICC '98. 1998 IEEE International Conference on Communications. Conference Record. Affiliated with SUPERCOMM'98 (Cat. No.98CH36220).

[11]  Harald Haas,et al.  Improving the performance of space shift keying (SSK) modulation via opportunistic power allocation , 2010, IEEE Communications Letters.

[12]  Harald Haas,et al.  Fractional bit encoded spatial modulation (FBE-SM) , 2010, IEEE Communications Letters.

[13]  Harald Haas,et al.  Spatial modulation with Partial-CSI at the Receiver: Optimal detector and performance evaluation , 2010, 2010 IEEE Sarnoff Symposium.

[14]  Harald Haas,et al.  On the Performance of SSK Modulation over Correlated Nakagami-m Fading Channels , 2010, 2010 IEEE International Conference on Communications.

[15]  Mohamed-Slim Alouini,et al.  A unified approach for calculating error rates of linearly modulated signals over generalized fading channels , 1998, IEEE Trans. Commun..

[16]  Harald Haas,et al.  Sphere Decoding for Spatial Modulation , 2011, 2011 IEEE International Conference on Communications (ICC).

[17]  Joachim Speidel,et al.  BER Analysis and Optimization of Generalized Spatial Modulation in Correlated Fading Channels , 2009, 2009 IEEE 70th Vehicular Technology Conference Fall.

[18]  Harald Haas,et al.  On the Performance of SSK Modulation over Multiple-Access Rayleigh Fading Channels , 2010, 2010 IEEE Global Telecommunications Conference GLOBECOM 2010.

[19]  Harald Haas,et al.  Dual-Hop Spatial Modulation (Dh-SM) , 2011, 2011 IEEE 73rd Vehicular Technology Conference (VTC Spring).

[20]  Jong-Soo Seo,et al.  Soft-output ML detector for spatial modulation OFDM systems , 2009, IEICE Electron. Express.

[21]  Harald Haas,et al.  Spatial Modulation , 2008, IEEE Transactions on Vehicular Technology.