缩短数组码与完善的1-因数分解猜想

International Symposium on Information Theory and its Applications. International Symposium on Information Theory and its Applications Pub Date : 2006-07-09 DOI:10.1109/ISIT.2006.261572

V. Bohossian, Jehoshua Bruck

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引用次数: 5

摘要

对于任意n的完全图K n的完全1分解的存在性，是图论中一个有40年历史的开放问题。两个无限族的完全1因子分解已知为K2p和Kp+1，其中p是素数。L. Xu et al.(1999)表明，寻找Kn的完美1因子分解可以归结为一个编码问题，即构造一个长度为n的最小密度阵列码MDS。本文介绍了一种缩短任意阵列码的新方法。然后用它从k2p族推导出Kp+1族的完全1因子分解，通过应用上面提到的简化。也就是说，利用编码理论中的技术来证明图论中的一个新结果

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Shortening Array Codes and the Perfect 1-Factorization Conjecture

The existence of a perfect 1-factorization of the complete graph K n, for arbitrary n, is a 40-year old open problem in graph theory. Two infinite families of perfect 1-factorizations are known for K2p and Kp+1, where p is a prime. It was shown in L. Xu et al. (1999) that finding a perfect 1-factorization of Kn can be reduced to a problem in coding, i.e. to constructing an MDS, lowest density array code of length n. In this paper, a new method for shortening arbitrary array codes is introduced. It is then used to derive the Kp+1 family of perfect 1-factorizations from the K 2p family, by applying the reduction mentioned above. Namely, techniques from coding theory are used to prove a new result in graph theory

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International Symposium on Information Theory and its Applications. International Symposium on Information Theory and its Applications

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