1,087 research outputs found
Hash-and-Forward Relaying for Two-Way Relay Channel
This paper considers a communication network comprised of two nodes, which
have no mutual direct communication links, communicating two-way with the aid
of a common relay node (RN), also known as separated two-way relay (TWR)
channel.
We first recall a cut-set outer bound for the set of rates in the context of
this network topology assuming full-duplex transmission capabilities. Then, we
derive a new achievable rate region based on hash-and-forward (HF) relaying
where the RN does not attempt to decode but instead hashes its received signal,
and show that under certain channel conditions it coincides with Shannon's
inner-bound for the two-way channel [1]. Moreover, for binary adder TWR channel
with additive noise at the nodes and the RN we provide a detailed capacity
achieving coding scheme based on structure codes.Comment: 5 pages, 2 figures, submitted to the IEEE ISIT'11 conferenc
Near-Capacity Turbo Coded Soft-decision Aided DAPSK/Star-QAM for Amplify-and-Forward based Cooperative Communications
Multilevel Differential Amplitude and Phase-Shift Keying (DAPSK) schemes do not require any channel estimation, which results in low complexity. In this treatise we derive the soft-output probability formulas required for a soft-decision based demodulation of high-order DAPSK, in order to facilitate iterative detection by exchanging extrinsic information with an outer Turbo Code (TC). Furthermore, when the TC block size is increased, the system operates closer to the channel capacity. Compared to the identical-throughput TC assisted 64-ary Differential Phase-Shift Keying (64-DPSK) scheme, the 4-ring based TC assisted 64-ary DAPSK arrangement has a power-efficiency improvement of 2.3 dB at a bit error rate (BER) of 10-5 . Furthermore, when the TC block size is increased, the system operates closer to the channel capacity. More specifically, when using a TC block length of 400 modulated symbols, the 64 DAPSK (4, 16) scheme is 7.56 dB away from its capacity curve, while it had a reduced gap as low as 2.25 dB, when using a longer TC block length of 40 000 modulated symbols. Finally, as a novel application example, the soft-decision M-DAPSK scheme was incorporated into an Amplify-and-Forward (AF) based cooperative communication system, which attains another 4.5 dB SNR improvement for a TC block length of 40 000 modulated symbols
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