Sergeĭ Konyagin scite author profile

Abstract. We give a new explicit construction of n × N matrices satisfying the Restricted Isometry Property (RIP). Namely, for some ε > 0, large N and any n satisfying N 1−ε ≤ n ≤ N , we construct RIP matrices of order k ≥ n 1/2+ε and constant δ = n −ε . This overcomes the natural barrier k = O(n 1/2 ) for proofs based on small coherence, which are used in all previous explicit constructions of RIP matrices. Key ingredients in our proof are new estimates for sumsets in product sets and for exponential sums with the products of sets possessing special additive structure. We also give a construction of sets of n complex numbers whose k-th moments are uniformly small for 1 ≤ k ≤ N (Turán's power sum problem), which improves upon known explicit constructions when (log N ) 1+o(1) ≤ n ≤ (log N ) 4+o(1) . This latter construction produces elementary explicit examples of n × N matrices that satisfy RIP and whose columns constitute a new spherical code; for those problems the parameters closely match those of existing constructions in the range (log N ) 1+o(1) ≤ n ≤ (log N ) 5/2+o(1) .

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Estimates for the Number of Sums and Products and for Exponential Sums in Fields of Prime Order

Bourgain

Glibichuk

Konyagin

2006

J. London Math. Soc.

188

208

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Character Sums with Exponential Functions and their Applications

1999

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New bounds for Gauss sums derived from KTH powers, and for Heilbronn's exponential sum

Heath-Brown¹,

Konyagin²

2000

The Quarterly Journal of Mathematics

151

163

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On the statistical properties of Diffie-Hellman distributions

et al. 2000

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