期刊名称:Electronic Colloquium on Computational Complexity
印刷版ISSN:1433-8092
出版年度:2009
卷号:2009
出版社:Universität Trier, Lehrstuhl für Theoretische Computer-Forschung
摘要:Motivated by questions in property testing, we search for linear error-correcting codes that have the ``single local orbit'' property: i.e., they are specified by a single local constraint and its translations under the symmetry group of the code. We show that the dual of every ``sparse'' binary code whose coordinates are indexed by elements of F_{2^n} for prime n, and whose symmetry group includes the group of non-singular affine transformations of F_{2^n}, has the single local orbit property. (A code is said to be {\em sparse} if it contains polynomially many codewords in its block length.) In particular this class includes the dual-BCH codes for whose duals (i.e., for BCH codes) simple bases were not known. Our result gives the first short (O(n)-bit, as opposed to the natural exp(n)-bit) description of a low-weight basis for BCH codes. The interest in the ``single local orbit'' property comes from the recent result of Kaufman and Sudan (STOC 2008) that shows that the duals of codes that have the single local orbit property under the affine symmetry group are locally testable. When combined with our main result, this shows that all sparse affine-invariant codes over the coordinates F_{2^n} for prime n are locally testable. If, in addition to n being prime, if 2^n-1 is also prime (i.e., 2^n-1 is a Mersenne prime), then we get that every sparse {\em cyclic} code also has the single local orbit. In particular this implies that BCH codes of Mersenne prime length are generated by a single low-weight codeword and its cyclic shifts. In retrospect, the single local orbit property has been central to most previous results in algebraic property testing. However, in the previous cases, the single local property was almost ``evident'' for the code in question (the single local constraint was explicitly known, and it is a simple algebraic exercise to show that its translations under the symmetry group completely characterize the code). Our work gives an alternate proof of the single local orbit property, effectively by counting, and its effectiveness is demonstrated by the fact that we are able to analyze it in cases where even the local constraint is not ``explicitly'' known. Our techniques involve the use of recent results from additive number theory to prove that the codes we consider, and related codes emerging from our proofs, have high distance. We then combine these with the MacWilliams identities and some careful analysis of the invariance properties to derive our results.
关键词:affine invariance , Locally testable codes , single orbit