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Cooperative transmission protocol with full diversity and iterative detection

Cooperative transmission protocol with full diversity and iterative detection

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The authors propose a three-node full diversity cooperative protocol, which allows the retransmission of all symbols. By allowing multiple nodes to transmit simultaneously, relaying transmission only consumes limited bandwidth resource. To facilitate the performance analysis of the proposed cooperative protocol, the lower and upper bounds of the outage probability are first developed, and then the high signal-to-noise ratio behaviour is studied. Our analytical results show that the proposed strategy can achieve full diversity. To achieve the performance gain promised by the cooperative diversity, at the relays decode-and-forward strategy is adopted and an iterative soft-interference-cancellation minimum mean-squared error equaliser is developed. The simulation results compare the bit-error-rate performance of the proposed protocol with the non-cooperative scheme and the scheme presented by Azarian et al. (2005).

Inspec keywords: interference suppression; least mean squares methods; decoding; iterative methods; error statistics; equalisers; protocols

Other keywords: decode-and-forward strategy; minimum mean-squared error equaliser; bit error rate; outage probability; iterative detection; soft-interference-cancellation; cooperative transmission protocol

Subjects: Codes; Communication channel equalisation and identification; Protocols; Interpolation and function approximation (numerical analysis); Other topics in statistics

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