A Note on Antenna Selection in Gaussian MIMO Channels: Capacity Guarantees and Bounds

Abstract

We consider the problem of selecting kt × kr antennas from a Gaussian MIMO channel with nt × nr antennas, where kt ≤ nt and kr ≤ nr. We prove the following two results that hold universally, in the sense that they do not depend on the channel coefficients: (i) The capacity of the best kt × kr subchannel is always lower bounded by a fraction kt krnt nr of the full capacity (with nt × nr antennas). This bound is tight as the channel coefficients diminish in magnitude. (ii) There always exists a selection of kt × kr antennas (including the best) that achieves a fraction greater than (kt ,kr)(nt,nr) of the full capacity within an additive constant that is independent of the coefficients in the channel matrix. The key mathematical idea that allows us to derive these universal bounds is to directly relate the determinants of principle sub-matrices of a Hermitian matrix to the determinant of the entire matrix.