Capacity per Unit-Energy of Gaussian Random Many-Access Channels

Abstract

We consider a Gaussian multiple-access channel with random user activity where the total number of users n and the average number of active users kn may be unbounded. For this channel, we characterize the maximum number of bits that can be transmitted reliably per unit-energy in terms of n and kn. We show that if kn n is sublinear in n, then each user can achieve the single-user capacity per unit-energy. Conversely, if kn n is superlinear in n, then the capacity per unit-energy is zero. We further demonstrate that orthogonal-access schemes, which are optimal when all users are active with probability one, can be strictly suboptimal.