Abstract
A cyclic (v, k, λ) difference set with parameters v = 4t -1, k = 2t - 1, λ = t - 1 is called a cyclic Hadamard difference set. In all known cases, v = 4t-1 is either a prime, a product of twin primes, or one less than a power of 2. When v is a prime (but not a Mersenne prime), all known examples are obtained by the quadratic residue (Legendre sequence) construction or, in addition, when also v = 4 a 2+27, from Hall’s sextic residue construction. When v is a product of twin primes, all known examples arise from the Jacobi symbol (Stanton-Sprott) construction. However, when v = 2n -1, in addition to the Singer difference set (PN-sequence) construction and (for composite n > 4) the GMW examples, there are several new constructions, all based on the existence of (GF(2n). All inequivalent examples of cyclic Hadamard difference sets with v = 2n - 1 for n ≤ 10 have now been identified, and all belong to known or suspected infinite classes of examples. (There are ten inequivalent examples at n = 10.)
Because of their favorable autocorrelation properties, binary sequences corresponding to cyclic Hadamard difference sets are widely used in communications and radar. Several of these applications are described.
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© 1999 Springer-Verlag London
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Golomb, S.W. (1999). Cyclic Hadamard Difference Sets — Constructions and Applications. In: Ding, C., Helleseth, T., Niederreiter, H. (eds) Sequences and their Applications. Discrete Mathematics and Theoretical Computer Science. Springer, London. https://doi.org/10.1007/978-1-4471-0551-0_3
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DOI: https://doi.org/10.1007/978-1-4471-0551-0_3
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