Non-Coherent Open-Loop MIMO Communications Over Temporally-Correlated Channels

This paper investigates the use of non-coherent communication techniques for open-loop transmission over temporally-correlated Rayleigh-fading MIMO channels. These techniques perform data detection without knowing the instantaneous channel coefficients. Three non-coherent Multiple Input Multiple Output (MIMO) schemes, namely, differential unitary space-time modulation, differential space-time block code, and Grassmannian signaling, are compared with several state-of-the-art training-based coherent schemes. This paper shows that the non-coherent schemes are meaningful alternatives to training-based communication, specially as the number of transmit antennas increases. In particular, for more than two transmit antennas, non-coherent communication provides a clear advantage in medium to high mobility scenarios.

[1]  Yahong Rosa Zheng,et al.  Improved models for the generation of multiple uncorrelated Rayleigh fading waveforms , 2002, IEEE Communications Letters.

[2]  J. Cavers An analysis of pilot symbol assisted modulation for Rayleigh fading channels (mobile radio) , 1991 .

[3]  Hamid Jafarkhani A quasi-orthogonal space-time block code , 2001, IEEE Trans. Commun..

[4]  Timothy N. Davidson,et al.  Noncoherent MIMO communication: Grassmannian constellations and efficient detection , 2004, International Symposium onInformation Theory, 2004. ISIT 2004. Proceedings..

[5]  Petre Stoica,et al.  Space-Time block codes: A maximum SNR approach , 2001, IEEE Trans. Inf. Theory.

[6]  Marko Beko,et al.  Noncoherent Communication in Multiple-Antenna Systems: Receiver Design and Codebook Construction , 2007, IEEE Transactions on Signal Processing.

[7]  Babak Hassibi,et al.  Cayley differential unitary space - Time codes , 2002, IEEE Trans. Inf. Theory.

[8]  Jose F. Monserrat,et al.  Multi-User Non-Coherent Detection for Downlink MIMO Communication , 2014, IEEE Signal Processing Letters.

[9]  Emanuele Viterbo,et al.  The golden code: a 2×2 full-rate space-time code with nonvanishing determinants , 2004, IEEE Trans. Inf. Theory.

[10]  Halim Yanikomeroglu,et al.  Time-Frequency Grassmannian Signalling for MIMO Multi-Channel-Frequency-Flat Systems , 2015, IEEE Communications Letters.

[11]  J. Belfiore,et al.  The golden code: a 2×2 full-rate space-time code with nonvanishing determinants , 2004, IEEE Trans. Inf. Theory.

[12]  Hamid Jafarkhani,et al.  A differential detection scheme for transmit diversity , 2000, IEEE Journal on Selected Areas in Communications.

[13]  Theodore S. Rappaport,et al.  Wireless Communications: Principles and Practice (2nd Edition) by , 2012 .

[14]  Theodore S. Rappaport,et al.  Wireless communications - principles and practice , 1996 .

[15]  A. Robert Calderbank,et al.  Space-Time block codes from orthogonal designs , 1999, IEEE Trans. Inf. Theory.

[16]  Emanuele Viterbo,et al.  The golden code: a 2 x 2 full-rate space-time code with non-vanishing determinants , 2004, International Symposium onInformation Theory, 2004. ISIT 2004. Proceedings..

[17]  Vahid Tarokh,et al.  Differential space time block codes using nonconstant modulus constellations , 2003, IEEE Trans. Signal Process..

[18]  Bertrand M. Hochwald,et al.  Differential unitary space-time modulation , 2000, IEEE Trans. Commun..

[19]  M. Helard,et al.  Comparison of Coherent and Non-Coherent Space Time Schemes for Frequency Selective Fast-Varying Channels , 2005, 2005 2nd International Symposium on Wireless Communication Systems.

[20]  Siavash M. Alamouti,et al.  A simple transmit diversity technique for wireless communications , 1998, IEEE J. Sel. Areas Commun..

[21]  Babak Hassibi,et al.  How much training is needed in multiple-antenna wireless links? , 2003, IEEE Trans. Inf. Theory.

[22]  소순상,et al.  다중격자부호화된 Differential Unitary Space-Time Modulation , 2003 .

[23]  Lizhong Zheng,et al.  Communication on the Grassmann manifold: A geometric approach to the noncoherent multiple-antenna channel , 2002, IEEE Trans. Inf. Theory.