Design and analysis of UW-OFDM signals☆

Unique word-orthogonal frequency division multiplexing (UW-OFDM) is a novel signaling concept where the guard interval is implemented as a deterministic sequence, the so-called unique word. The UW is generated by introducing a certain level of redundancy in the frequency domain. Different data estimation strategies and the favourable bit error ratio (BER) performance of UW-OFDM, as well as comparisons to competing concepts have already extensively been discussed in previous papers. This work focuses on the different possibilities on how to generate UW-OFDM signals. The optimality of the two-step over the direct approach in systematic UW-OFDM is proved analytically, we present a heuristic algorithm that allows a fast numerical optimization of the redundant subcarrier positions, and we show that our original intuitive approach of spreading the redundant subcarriers in systematically encoded UW-OFDM by minimizing the mean redundant energy is practically also optimum w.r.t. transceiver based cost functions. Finally, we derive closed form approximations of the statistical symbol distributions on individual subcarriers as well as the redundant energy distribution and compare them with numerically found results.

[1]  Heidi Steendam Analysis of the Redundant Energy in UW-OFDM , 2012, IEEE Transactions on Communications.

[2]  Gene H. Golub,et al.  Matrix computations , 1983 .

[3]  Mario Huemer,et al.  Coded OFDM by unique word prefix , 2010, 2010 IEEE International Conference on Communication Systems.

[4]  Mario Huemer,et al.  Signal Shaping for Unique-Word OFDM by Selected Mapping , 2012, EW.

[5]  Heidi Steendam The Quasi-Uniform Redundant Carrier Placement for UW-OFDM , 2012, 2012 IEEE Vehicular Technology Conference (VTC Fall).

[6]  Marc Moonen,et al.  Efficient equalizers for single and multi-carrier environments with known symbol padding , 2001, Proceedings of the Sixth International Symposium on Signal Processing and its Applications (Cat.No.01EX467).

[7]  R. Blahut Algebraic Codes for Data Transmission , 2002 .

[8]  Mario Huemer,et al.  Non-Systematic Complex Number RS Coded OFDM by Unique Word Prefix , 2012, IEEE Transactions on Signal Processing.

[9]  Heidi Steendam On the redundant carrier distribution for UW-OFDM , 2012, 2012 IEEE Wireless Communications and Networking Conference (WCNC).

[10]  L. Scharf,et al.  Statistical Signal Processing of Complex-Valued Data: The Theory of Improper and Noncircular Signals , 2010 .

[11]  Zhixing Yang,et al.  Iterative Channel Estimation for Block Transmission with Known Symbol Padding - A New Look at TDS-OFDM , 2007, IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference.

[12]  Dr. Zbigniew Michalewicz,et al.  How to Solve It: Modern Heuristics , 2004 .

[13]  P. P. Vaidyanathan,et al.  Filter Bank Transceivers for OFDM and DMT Systems , 2010 .

[14]  William Turin,et al.  Probability, Random Processes, and Statistical Analysis: Statistical inference , 2011 .

[15]  Mario Huemer,et al.  On the Exploitation of the Redundant Energy in UW-OFDM: LMMSE Versus Sphere Detection , 2012, IEEE Signal Processing Letters.

[16]  Mario Huemer,et al.  Direct vs. Two-Step Approach for Unique Word Generation in UW-OFDM , 2010, ArXiv.

[17]  Mario Huemer,et al.  Classical and Bayesian Linear Data Estimators for Unique Word OFDM , 2011, IEEE Transactions on Signal Processing.

[18]  Heidi Steendam On the Selection of the Redundant Carrier Positions in UW-OFDM , 2013, IEEE Transactions on Signal Processing.

[19]  Mario Huemer,et al.  On the impact of redundant subcarrier energy optimization in UW-OFDM , 2010, 2010 4th International Conference on Signal Processing and Communication Systems.

[20]  Mario Huemer,et al.  Sphere Decoding for Unique Word OFDM , 2011, 2011 IEEE Global Telecommunications Conference - GLOBECOM 2011.

[21]  M. Marcus,et al.  A Survey of Matrix Theory and Matrix Inequalities , 1965 .

[22]  Heidi Steendam,et al.  Iterative DA/DD Channel Estimation for KSP-OFDM , 2008, 2008 IEEE International Conference on Communications.

[23]  Ramjee Prasad,et al.  OFDM for Wireless Multimedia Communications , 1999 .