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    Asymptotic Improvement of the Gilbert-Varshamov Bound on the Size of Binary Codes

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    Given positive integers nn and dd, let A2(n,d)A_2(n,d) denote the maximum size of a binary code of length nn and minimum distance dd. The well-known Gilbert-Varshamov bound asserts that A2(n,d)β‰₯2n/V(n,dβˆ’1)A_2(n,d) \geq 2^n/V(n,d-1), where V(n,d)=βˆ‘i=0d(ni)V(n,d) = \sum_{i=0}^{d} {n \choose i} is the volume of a Hamming sphere of radius dd. We show that, in fact, there exists a positive constant cc such that A2(n,d)β‰₯c2nV(n,dβˆ’1)log⁑2V(n,dβˆ’1) A_2(n,d) \geq c \frac{2^n}{V(n,d-1)} \log_2 V(n,d-1) whenever d/n≀0.499d/n \le 0.499. The result follows by recasting the Gilbert- Varshamov bound into a graph-theoretic framework and using the fact that the corresponding graph is locally sparse. Generalizations and extensions of this result are briefly discussed.Comment: 10 pages, 3 figures; to appear in the IEEE Transactions on Information Theory, submitted August 12, 2003, revised March 28, 200
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