Title :
Turbo space-time equalization of TCM with receiver diversity .II. Maximum-likelihood detection
Author :
Koca, Mutlu ; Levy, Bernard C.
Author_Institution :
Dept. of Electr. & Comput. Eng., California Univ., Davis, CA, USA
fDate :
Oct. 29 2000-Nov. 1 2000
Abstract :
For pt.I see ibid., p.552-56 (2000). This paper presents a turbo equalization method for complex TCM signals over frequency selective, multipath fading channels based on receiver antenna array measurements. The channel observed at each array element is described as an equivalent convolutional encoder acting on the interleaved TCM symbols. The received vector signal can be viewed as produced by a serial concatenated encoder and is decoded by an iterative equalizer that employs M-ary soft output Viterbi algorithm (SOVA) as the decoding rule. Since the computational complexity of the equalizer increases with the number of ISI symbols and antennas used in the receiver, an alternative receiver is also considered where the array outputs are first combined through a beamformer and then sent to the equalizer. Both receiver structures are simulated for two dimensional TCM signals such as 8-16 PSK and 16-QAM and the results indicate an improved performance of the diversity receiver.
Keywords :
Viterbi decoding; antenna arrays; array signal processing; concatenated codes; diversity reception; equalisers; fading channels; intersymbol interference; iterative decoding; maximum likelihood detection; multipath channels; phase shift keying; quadrature amplitude modulation; receiving antennas; space-time adaptive processing; trellis coded modulation; turbo codes; 16-QAM; 2D TCM signals; 8-16 PSK; ISI symbols; M-ary soft output Viterbi algorithm; array element; array outputs; beamformer; computational complexity; convolutional encoder; decoding rule; diversity receiver; frequency selective channels; interleaved TCM symbols; iterative decoding; iterative equalizer; maximum-likelihood detection; multipath fading channels; received vector signal; receiver antenna array measurements; receiver antennas; receiver diversity; receiver structure simulation; serial concatenated encoder; space-time processing; turbo space-time equalization; Antenna arrays; Antenna measurements; Concatenated codes; Convolution; Equalizers; Fading; Frequency measurement; Iterative decoding; Receiving antennas; Viterbi algorithm;
Conference_Titel :
Signals, Systems and Computers, 2000. Conference Record of the Thirty-Fourth Asilomar Conference on
Conference_Location :
Pacific Grove, CA, USA
Print_ISBN :
0-7803-6514-3
DOI :
10.1109/ACSSC.2000.911017
