DocumentCode
2307121
Title
Full Diversity Concatenation Space-Time Coding Over Time-Selective Block Rayleigh Fading Channels via Duality
Author
Zhu, Jiangzhang ; Wen, Shuangchun ; Shao, Yufeng ; Wen, Hong ; Wang, Zizhan
Author_Institution
Sch. of Comput. & Commun., Hunan Univ., Changsha
fYear
2006
fDate
22-24 Sept. 2006
Firstpage
1
Lastpage
5
Abstract
A coding scheme for concatenation space-time codes to achieve the maximum diversity over the time-selective block Rayleigh fading channels via the time-frequency duality is proposed in this paper. Based on the basis expansion model (BEM) for the time-selective fading channels, we firstly inversely convert it into the corresponding virtual frequency-selective fading circulant matrix by pre- and post-multiplying IFFT and FFT matrix in the transmit and receive end respectively. And then with OFDM module, general space-time codes can be directly applied in it. Based on the pairwise error probability (PEP) analysis in case of rapid fading, we derive design and performance criteria for the concatenation space-time block coding. Extending the full diversity space-frequency coding approach proposed previously to our consideration, we construct the space-time-Doppler block codes from the general space-time codes through repetition, which achieve the maximum additional Doppler diversity besides space and time diversity. Simulation results demonstrate the excellent performance of the proposed technique
Keywords
OFDM modulation; Rayleigh channels; block codes; channel coding; concatenated codes; diversity reception; error statistics; fast Fourier transforms; matrix algebra; space-time codes; time-frequency analysis; Doppler diversity; IFFT; OFDM; basis expansion model; full diversity concatenation space-time coding; pairwise error probability; space-time-Doppler block codes; time-frequency duality; time-selective block Rayleigh fading channels; virtual frequency-selective fading circulant matrix; Block codes; Error analysis; Fading; Frequency conversion; Matrix converters; OFDM; Pairwise error probability; Rayleigh channels; Space time codes; Time frequency analysis;
fLanguage
English
Publisher
ieee
Conference_Titel
Wireless Communications, Networking and Mobile Computing, 2006. WiCOM 2006.International Conference on
Conference_Location
Wuhan
Print_ISBN
1-4244-0517-3
Type
conf
DOI
10.1109/WiCOM.2006.130
Filename
4149307
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