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A simple derivation of the coding theorem and some applications
Gallager, R.

This paper appears in: Information Theory, IEEE Transactions on
Publication Date: Jan 1965
Volume: 11, Issue: 1
On page(s): 3- 18
ISSN: 0018-9448
Current Version Published: 2003-01-06

Abstract
Upper bounds are derived on the probability of error that can be achieved by using block codes on general time-discrete memoryless channels. Both amplitude-discrete and amplitude-continuous channels are treated, both with and without input constraints. The major advantages of the present approach are the simplicity of the derivations and the relative simplicity of the results; on the other hand, the exponential behavior of the bounds with block length is the best known for all transmission rates between0and capacity. The results are applied to a number of special channels, including the binary symmetric channel and the additive Gaussian noise channel.

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