Bit error probability for orthogonal space time block codes with differential detection

The bit error probability (BEP) of space time block codes (STBC) based on Alamouti's scheme with differential encoding and decoding and utilising 2 b -ary phase shift keying (2 b -PSK) modulation is studied, and close form analytical results are obtained. The channel model is that of a frequenc...

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Bibliographic Details
Main Authors: Thian Ping Soh, Pooi Yuen Kam, Chun Sum Ng
Format: Conference Proceeding
Language:English
Subjects:
Block codes
Decoding
Error probability
Fading
Fluctuations
Frequency
Modulation coding
Phase modulation
Phase shift keying
Rayleigh channels
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Summary:The bit error probability (BEP) of space time block codes (STBC) based on Alamouti's scheme with differential encoding and decoding and utilising 2 b -ary phase shift keying (2 b -PSK) modulation is studied, and close form analytical results are obtained. The channel model is that of a frequency non-selective and slow Rayleigh fading channel. While all the existing analyses assume no fading fluctuations, these are still considered in the analysis. For the case in which the fading process remains constant within any code block interval, but which fluctuates from one code block interval to the next, exact closed-form expressions for the BEP of binary and quadruple PSK are derived. An approximate result is obtained for 8PSK. For the case in which the fading process fluctuates from one symbol interval to the next, but which remains constant within the symbol interval, the upper and lower bounds are obtained for the BEP and a simple and yet accurate approximation of the BEP is developed. The analysis is applicable to any number of receive antennas
DOI:10.1109/ICCS.2004.1359386