Coded Caching for Combinatorial Multi-Access Hotplug Networks from $t$-Designs
Abstract
We study hotplug coded caching in combinatorial multi-access networks, which generalizes existing hotplug coded caching models by allowing users to access multiple caches, while only a subset of caches is online during the delivery phase. We first generalize the Hotplug Placement Delivery Array (HpPDA) framework to the combinatorial multi-access setting. Based on this generalized framework, we propose a t-design-based coded caching scheme for combinatorial multi-access networks. We characterize a class of design parameters under which every active user has access to a sufficient number of coded subfiles to decode its requested file, and show that appropriate parameter choices allow for the elimination of redundant multicast transmissions. As a result, the proposed scheme achieves a family of rate memory trade offs with flexible subpacketization. We present numerical comparisons illustrating that the proposed t-scheme outperforms existing hotplug coded caching schemes in certain memory regimes.
Keywords
Cite
@article{arxiv.2601.10503,
title = {Coded Caching for Combinatorial Multi-Access Hotplug Networks from $t$-Designs},
author = {Dhruv Pratap Singh and Anjana A. Mahesh and B. Sundar Rajan},
journal= {arXiv preprint arXiv:2601.10503},
year = {2026}
}
Comments
12 pages and 1 figure