Cooperative Relaying with State Available Non-Causally at the Relay

Abstract : We consider a three-terminal state-dependent relay channel with the channel state noncausally available at only the relay. Such a model may be useful for designing cooperative wireless networks with some terminals equipped with cognition capabilities, i.e., the relay in our setup. In the discrete memoryless (DM) case, we establish lower and upper bounds on channel capacity. The lower bound is obtained by a coding scheme at the relay that uses a combination of codeword splitting, Gel'fand-Pinsker binning, and decode-and-forward relaying. The upper bound improves upon that obtained by assuming that the channel state is available at the source, the relay, and the destination. For the Gaussian case, we also derive lower and upper bounds on the capacity. The lower bound is obtained by a coding scheme at the relay that uses a combination of codeword splitting, generalized dirty paper coding, and decode-and-forward relaying; the upper bound is also better than that obtained by assuming that the channel state is available at the source, the relay, and the destination. In the case of degraded Gaussian channels, the lower bound meets with the upper bound for some special cases, and, so, the capacity is obtained for these cases. Furthermore, in the Gaussian case, we also extend the results to the case in which the relay operates in a half-duplex mode.
Type de document :
Article dans une revue
IEEE Transactions on Information Theory, Institute of Electrical and Electronics Engineers, 2010, 56 (5), pp.2272-2298


https://hal.archives-ouvertes.fr/hal-00793719
Contributeur : Abdellatif Zaidi <>
Soumis le : vendredi 22 février 2013 - 18:45:25
Dernière modification le : mercredi 27 juillet 2016 - 14:48:48

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  • HAL Id : hal-00793719, version 1
  • ARXIV : 0911.4704

Citation

Abdellatif Zaidi, Shiva Prasad Kotagiri, J. Nicholas Laneman, Luc Vandendorpe. Cooperative Relaying with State Available Non-Causally at the Relay. IEEE Transactions on Information Theory, Institute of Electrical and Electronics Engineers, 2010, 56 (5), pp.2272-2298. <hal-00793719>

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