Abstract :
For the minimum aperiodic crosscorrelation θ(n,M) of binary codes of size M and length n over the alphabet {1,-1} there exists the celebrated Welch bound θ2(n,M)⩾(M-1)n2/2Mn-N-1 which was published in 1974 and remained in this form up to now. In the article this bound is strengthened for all M⩾4 and n⩾2. In particular, it is proved that θ2(n,M)⩾n-2n/√3M, M⩾3 and θ2(n,M)⩾n-[πn/√8M], M⩾5. In the asymptotic process when M tends to infinity as n→∞, these bounds are twice as large as the Welch bound and coincide with the corresponding asymptotic bound on the square of the minimum periodic crosscorrelation of binary codes. The main idea of the proof is a new sufficient condition for the mean value of a nonnegative definite matrix over the code to be greater than or equal to the average over the whole space. This allows one to take into account weights of cyclic shifts of code vectors and solve the problem of their optimal choice
Keywords :
binary codes; correlation methods; matrix algebra; Welch bound; aperiodic crosscorrelation; asymptotic bound; binary codes; code length; code size; code vectors; cyclic shift weights; lower bounds; mean value; minimum aperiodic crosscorrelation; nonnegative definite matrix; square; sufficient condition; Associate members; Autocorrelation; Binary codes; Chebyshev approximation; Equations; Galois fields; H infinity control; Linear matrix inequalities; Polynomials; Sufficient conditions;
