DocumentCode
1289885
Title
Estimation of Sparse MIMO Channels with Common Support
Author
Barbotin, Yann ; Hormati, Ali ; Rangan, Sundeep ; Vetterli, Martin
Author_Institution
Ecole Polytech. Fed. de Lausanne, Lausanne, Switzerland
Volume
60
Issue
12
fYear
2012
fDate
12/1/2012 12:00:00 AM
Firstpage
3705
Lastpage
3716
Abstract
We consider the problem of estimating sparse communication channels in the MIMO context. In small to medium bandwidth communications, as in the current standards for OFDM and CDMA communication systems (with bandwidth up to 20 MHz), such channels are individually sparse and at the same time share a common support set. Since the underlying physical channels are inherently continuous-time, we propose a parametric sparse estimation technique based on finite rate of innovation (FRI) principles. Parametric estimation is especially relevant to MIMO communications as it allows for a robust estimation and concise description of the channels. The core of the algorithm is a generalization of conventional spectral estimation methods to multiple input signals with common support. We show the application of our technique for channel estimation in OFDM (uniformly/contiguous DFT pilots) and CDMA downlink (Walsh-Hadamard coded schemes). In the presence of additive white Gaussian noise, theoretical lower bounds on the estimation of sparse common support (SCS) channel parameters in Rayleigh fading conditions are derived. Finally, an analytical spatial channel model is derived, and simulations on this model in the OFDM setting show the symbol error rate (SER) is reduced by a factor 2 (0 dB of SNR) to 5 (high SNR) compared to standard non-parametric methods - e.g. lowpass interpolation.
Keywords
AWGN channels; Hadamard codes; MIMO communication; OFDM modulation; Rayleigh channels; channel estimation; code division multiple access; error statistics; radio links; CDMA communication system; CDMA downlink; FRI principle; MIMO communication; OFDM; Rayleigh fading condition; SCS channel parameter estimation; SER; Walsh-Hadamard coded scheme; additive white Gaussian noise; contiguous DFT pilots; continuous-time channel; finite rate of innovation; parametric sparse estimation technique; physical channel; small to medium bandwidth communication; sparse MIMO channel estimation; sparse common support channel parameter estimation; sparse communication channel; spatial channel model; spectral estimation; symbol error rate; uniformly DFT pilots; Bandwidth; Channel estimation; Discrete Fourier transforms; Estimation; MIMO; OFDM; Standards; CDMA; Channel estimation; MIMO; OFDM; finite rate of innovation;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOMM.2012.091112.110439
Filename
6310168
Link To Document