Uniform tight frames as optimal signals

Abstract

Non-orthogonal communication is a promising technique for future wireless networks (e.g., 6G and Wi-Fi 7). In the vector channel model, designing efficient non-orthogonal communication schemes amounts to the following extremum problem: \[ k |vk|2σ2 + Σl ≠ k vk, vl 2 \] where the maximum is taken among vector systems (vk)1N ⊂ Rd satisfying c1 ≤ |vk|2 ≤ c2 for every k, and the parameter σ>0 corresponds to the noise of the channel. We show that in the case σ = 0, uniform tight frames are the only optimal configurations. We also give quantitative bounds on the optimal capacity of vector channels with relatively small noise.