Lower bounds on reliability functions of variable-length nonsystematic convolutional codes for channels with noiseless feedback | IEEE Journals & Magazine | IEEE Xplore

Lower bounds on reliability functions of variable-length nonsystematic convolutional codes for channels with noiseless feedback


Abstract:

A variable-length, nonsystematic, convolutional encoding, and successive-decoding scheme is devised to establish significant improvements in the reliability functions of ...Show More

Abstract:

A variable-length, nonsystematic, convolutional encoding, and successive-decoding scheme is devised to establish significant improvements in the reliability functions of memoryless channels with noiseless decision feedback. It is shown that, for any but pathological discrete memoryless channels with noiseless feedback, there exists a variable-length convolutional code such that the reliability function of the channel can be bounded below by the channel capacityCfor all transmission rates less thanC. By employing a modified version of this scheme, it is also constructively shown that, for an additive-white-Gaussian-noise (AWGN) channel with noiseless feedback it is possible to find a variable-length convolutional code such that the channel reliability function can be bounded below by\alpha_0 c_{infty}for all rates less than the channel capacityC_{\infty}, where\alpha_0 = max (1, \gamma/2)and\gammais the maximum allowable expected-peak-to-expected-average-power ratio at the transmitter.
Published in: IEEE Transactions on Information Theory ( Volume: 17, Issue: 2, March 1971)
Page(s): 161 - 171
Date of Publication: 31 March 1971

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