Successful Transmission Probability and SIR Meta Distribution Analysis for Multi-Antenna Cache-Enabled Networks with Interference Nulling

TL;DR

This paper analyzes the impact of interference nulling schemes on the success probability and SIR meta distribution in multi-antenna cache-enabled networks, providing analytical expressions and design insights.

Contribution

It introduces analytical expressions for STP and SIR meta distribution for two interference nulling schemes in cache-enabled networks, offering new system design guidelines.

Findings

Flexible IN scheme outperforms fixed IN in SIR distribution.

Caching and IN parameters significantly influence network performance.

Analytical expressions enable better system optimization.

Abstract

This paper investigates a multi-antenna cache-enabled network with interference nulling (IN) employed at base stations. Two IN schemes, namely, the fixed IN scheme and the flexible IN scheme are considered to improve the received signal-to-interference ratio (SIR) at users. To thoroughly explore the effects of the caching parameter and the IN parameters on the network performance, we focus on the analysis of not only the successful transmission probability (STP) but the SIR meta distribution. For each IN scheme, the expression for the STP is derived and an approximated expression for the SIR meta distribution is also obtained by deriving the first and second moments of an upper bound of the link reliability and utilizing the beta distribution. With this analytical framework, we compare the performance of these two IN schemes and gain some useful system design guidelines from the perspectives of the STP and the SIR meta distribution by numerical simulations.