On the Placement Delivery Array Design in Centralized Coded Caching Scheme
Abstract
Caching is a promising solution to satisfy the ever increasing demands for the multi-media traffics. In caching networks, coded caching is a recently proposed technique that achieves significant performance gains over the uncoded caching schemes. However, to implement the coded caching schemes, each file has to be split into packets, which usually increases exponentially with the number of users . Thus, designing caching schemes that decrease the order of is meaningful for practical implementations. In this paper, by reviewing the Ali-Niesen caching scheme, the placement delivery array (PDA) design problem is firstly formulated to characterize the placement issue and the delivery issue with a single array. Moreover, we show that, through designing appropriate PDA, new centralized coded caching schemes can be discovered. Secondly, it is shown that the Ali-Niesen scheme corresponds to a special class of PDA, which realizes the best coding gain with the least . Thirdly, we present a new construction of PDA for the centralized caching system, wherein the cache size of each user (identical cache size is assumed at all users) and the number of files satisfies or ( is an integer such that ). The new construction can decrease the required from the order of Ali-Niesen scheme to or respectively, while the coding gain loss is only .
Keywords
Cite
@article{arxiv.1510.05064,
title = {On the Placement Delivery Array Design in Centralized Coded Caching Scheme},
author = {Qifa Yan and Minquan Cheng and Xiaohu Tang and Qingchun Chen},
journal= {arXiv preprint arXiv:1510.05064},
year = {2017}
}
Comments
21 pages, 2 figures