SVD-Aided, Iteratively Detected Spatial Division Multiplexing Using Long-Range Channel Prediction

In this contribution iteratively detected spatial division multiplexing is investigated under the constraint of a fixed data throughput. Existing bit loading and transmit power allocation techniques are often optimized for maintaining both a fixed transmit power and a fixed target bit-error rate, while attempting to maximize the overall data-rate, albeit delay-critical real-time interactive applications, such as voice or video transmission, may require a fixed data rate. As an alternative design option, in addition to sophisticated joint bit- and power loading, in this contribution we invoke both coded modulation as well as channel prediction and identify the most beneficial number of modulation signalling levels, while minimizing the bit-error ratio under the constraints of a given fixed throughput. Our performance results show the superiority of bit-interleaved coded modulation using iterative decoding (BICM-ID) against turbo trellis-coded modulation (TTCM), regardless of using idealistic perfect or realistic imperfect channel state information (CSI).

[1]  Irving Kalet Optimization of Linearly Equalized QAM , 1987, IEEE Trans. Commun..

[2]  H. Hallen,et al.  Long Range Prediction of Fading Signals : Enabling Adaptive Transmission for Mobile Radio Channels , 2000 .

[3]  Irving Kalet,et al.  The multitone channel , 1989, IEEE Trans. Commun..

[4]  A. Glavieux,et al.  Near Shannon limit error-correcting coding and decoding: Turbo-codes. 1 , 1993, Proceedings of ICC '93 - IEEE International Conference on Communications.

[5]  John M. Cioffi,et al.  Joint Tx-Rx beamforming design for multicarrier MIMO channels: a unified framework for convex optimization , 2003, IEEE Trans. Signal Process..

[6]  Gottfried Ungerboeck,et al.  Channel coding with multilevel/phase signals , 1982, IEEE Trans. Inf. Theory.

[7]  Yuanan Liu,et al.  Robust pilot-symbol-aided MIMO channel estimation and prediction , 2004, IEEE Global Telecommunications Conference, 2004. GLOBECOM '04..

[8]  Andreas Ahrens,et al.  Transmit power allocation in SVD equalized multicarrier systems , 2007 .

[9]  G. David Forney,et al.  Efficient Modulation for Band-Limited Channels , 1984, IEEE J. Sel. Areas Commun..

[10]  Hans D. Hallen,et al.  Long-range prediction of fading signals , 2000, IEEE Signal Process. Mag..

[11]  Olav Tirkkonen,et al.  Multi-Antenna Transceiver Techniques for 3G and Beyond: Hottinen/Multi-antenna , 2003 .

[12]  Soon Xin Ng,et al.  Quadrature Amplitude Modulation: From Basics to Adaptive Trellis-Coded, Turbo-Equalised and Space-Time Coded OFDM, CDMA and MC-CDMA Systems , 2004 .

[13]  Lizhong Zheng,et al.  Diversity and multiplexing: a fundamental tradeoff in multiple-antenna channels , 2003, IEEE Trans. Inf. Theory.

[14]  J.E. Mazo,et al.  Digital communications , 1985, Proceedings of the IEEE.

[15]  Patrick Robertson,et al.  Bandwidth-Efficient Turbo Trellis-Coded Modulation Using Punctured Component Codes , 1998, IEEE J. Sel. Areas Commun..

[16]  Sinem Coleri Ergen,et al.  Channel estimation techniques based on pilot arrangement in OFDM systems , 2002, IEEE Trans. Broadcast..

[17]  James A. Ritcey,et al.  Design, analysis, and performance evaluation for BICM-ID with square QAM constellations in Rayleigh fading channels , 2001, IEEE J. Sel. Areas Commun..