Explicit construction of RIP matrices is Ramsey-hard

Abstract

Matrices ∈n× p satisfying the Restricted Isometry Property (RIP) are an important ingredient of the compressive sensing methods. While it is known that random matrices satisfy the RIP with high probability even for n=O(1)p, the explicit construction of such matrices defied the repeated efforts, and the most known approaches hit the so-called n sparsity bottleneck. The notable exception is the work by Bourgain et al bourgain2011explicit constructing an n× p RIP matrix with sparsity s=(n1 2+ε), but in the regime n=(p1-δ). In this short note we resolve this open question in a sense by showing that an explicit construction of a matrix satisfying the RIP in the regime n=O(2 p) and s=(n1 2) implies an explicit construction of a three-colored Ramsey graph on p nodes with clique sizes bounded by O(2 p) -- a question in the extremal combinatorics which has been open for decades.