Throughput-Outage Scaling Behaviors for Wireless Single-Hop D2D Caching Networks with Physical Model

Ming Chun Lee, Andreas F. Molisch, Mingyue Ji

研究成果: Article同行評審

1 引文 斯高帕斯(Scopus)

摘要

Throughput-Outage scaling laws for single-hop cache-aided device-to-device (D2D) communications have been extensively investigated under the assumption of the protocol model. However, the corresponding performance under physical models has not been explored; in particular it remains unclear whether link-level power control and scheduling can improve the asymptotic performance. This paper thus investigates the throughput-outage scaling laws of cache-aided single-hop D2D networks considering a general physical channel model. By considering the networks with and without the equal-throughput assumption, we analyze the corresponding outer bounds and provide the achievable performance analysis. Results show that when the equal-throughput assumption is considered, using link-level power control and scheduling cannot improve the scaling laws. On the other hand, when the equal-throughput assumption is not considered, we show that the proposed double time-slot framework with appropriate link-level power control and scheduling can significantly improve the throughput-outage scaling laws, where the fundamental concept is to first distinguish links according to their communication distances, and then enhance the throughput for links with small communication distances.

原文English
期刊IEEE Transactions on Wireless Communications
DOIs
出版狀態Accepted/In press - 2022

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