Centralized and Decentralized Cache-Aided Interference Management in Heterogeneous Parallel Channels
Abstract
We consider the problem of cache-aided interference management in a network consisting of single-antenna transmitters and single-antenna receivers, where each node is equipped with a cache memory. Transmitters communicate with receivers over two heterogenous parallel subchannels: the P-subchannel for which transmitters have perfect instantaneous knowledge of the channel state, and the N-subchannel for which the transmitters have no knowledge of the instantaneous channel state. Under the assumptions of uncoded placement and separable one-shot linear delivery over the two subchannels, we characterize the optimal degrees-of-freedom (DoF) to within a constant multiplicative factor of . We extend the result to a decentralized setting in which no coordination is required for content placement at the receivers. In this case, we characterize the optimal one-shot linear DoF to within a factor of .
Cite
@article{arxiv.1812.01469,
title = {Centralized and Decentralized Cache-Aided Interference Management in Heterogeneous Parallel Channels},
author = {Enrico Piovano and Hamdi Joudeh and Bruno Clerckx},
journal= {arXiv preprint arXiv:1812.01469},
year = {2019}
}