Age-Limited Capacity of Massive MIMO
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In this paper, we investigate the age-limited capacity of the Gaussian many channel with total N users, out of which a random subset of K_a users are active in any transmission period and a large-scale antenna array at the base station (BS). Motivated by IoT applications and promises of the massive MIMO technology, we consider the setting in which both the number of users, N, and the number of antennas at the BS, M, are allowed to grow large at a fixed ratio ζ = M/N. Assuming perfect channel state information (CSI) at the receiver, we derive the achievability bound under maximal ratio combining. As the number of active users, K_a, increases, the achievable spectral efficiency is found to increase monotonically to a limit log_2(1+M/K_a). Using the age of information (AoI) metric, first coined in <cit.>, as our measure of data timeliness/freshness, we investigate the trade-offs between the AoI and spectral efficiency in the context massive connectivity with large-scale receiving antenna arrays. Based on our large system analysis, we provide an accurate characterization of the asymptotic spectral efficiency as a function of the number of antennas/users, the attempt probability, and the AoI. It is found that while the spectral efficiency can be made large, the penalty is an increase in the minimum AoI obtainable. The proposed achievability bound is further compared against recent massive MIMO-based massive unsourced random access (URA) schemes.
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