Two-Dimensional Multi-Access Coded Caching with Multiple Transmit Antennas
Abstract
This work introduces a multi-antenna coded caching problem in a two-dimensional multi-access network, where a server with L transmit antennas and N files communicates to K1K2 users, each with a single receive antenna, through a wireless broadcast link. The network consists of K1K2 cache nodes and K1K2 users. The cache nodes, each with capacity M, are placed on a rectangular grid with K1 rows and K2 columns, and the users are placed regularly on the square grid such that a user can access r2 neighbouring caches in a cyclic wrap-around fashion. For a given cache memory M, the goal of the coded caching problem is to serve the user demands with a minimum delivery time. We propose a solution for the aforementioned coded caching problem by designing two arrays: a caching array and a delivery array. Further, we present two classes of caching and delivery arrays and obtain corresponding multi-access coded caching schemes. The first scheme achieves a normalized delivery time (NDT) K1K2(1-r2MN)L+K1K2MN. The second scheme achieves an NDT K1K2(1-r2MN)L+K1K2r2MN when M/N=1/K1K2 and L=K1K2-r2, which is optimal under uncoded placement and one-shot delivery.
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