Space-time codes for high data rate wireless communication: performance criterion and code construction

We consider the design of channel codes for improving the data rate and/or the reliability of communications over fading channels using multiple transmit antennas. Data is encoded by a channel code and the encoded data is split into n streams that are simultaneously transmitted using n transmit ante...

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Vydané v:IEEE transactions on information theory Ročník 44; číslo 2; s. 744 - 765
Hlavní autori: Tarokh, V., Seshadri, N., Calderbank, A.R.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: New York IEEE 01.03.1998
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Predmet:
Antennas
Codes
Convolutional codes
Decoding
Diversity methods
Fading
Frequency
Gaussian channels
Receiving antennas
Space time codes
Transmitting antennas
Wireless communication
Wireless communications
ISSN:0018-9448, 1557-9654
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Popis
Shrnutí:We consider the design of channel codes for improving the data rate and/or the reliability of communications over fading channels using multiple transmit antennas. Data is encoded by a channel code and the encoded data is split into n streams that are simultaneously transmitted using n transmit antennas. The received signal at each receive antenna is a linear superposition of the n transmitted signals perturbed by noise. We derive performance criteria for designing such codes under the assumption that the fading is slow and frequency nonselective. Performance is shown to be determined by matrices constructed from pairs of distinct code sequences. The minimum rank among these matrices quantifies the diversity gain, while the minimum determinant of these matrices quantifies the coding gain. The results are then extended to fast fading channels. The design criteria are used to design trellis codes for high data rate wireless communication. The encoding/decoding complexity of these codes is comparable to trellis codes employed in practice over Gaussian channels. The codes constructed here provide the best tradeoff between data rate, diversity advantage, and trellis complexity. Simulation results are provided for 4 and 8 PSK signal sets with data rates of 2 and 3 bits/symbol, demonstrating excellent performance that is within 2-3 dB of the outage capacity for these channels using only 64 state encoders.
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ISSN:0018-9448
1557-9654
DOI:10.1109/18.661517