SIC-based Random Multiple Access Protocol: Fixed or Adaptive Approach

TL;DR

This paper introduces a SIC-based random access protocol with fixed and adaptive schemes to improve data collection efficiency in IoT networks, focusing on reducing delay and Age of Information under various traffic conditions.

Contribution

It presents a novel adaptive SIC-based access protocol that outperforms fixed schemes in minimizing delay and AoI in IoT data collection scenarios.

Findings

Adaptive approach achieves higher throughput than fixed scheme.

Adaptive method reduces access delay and AoI significantly.

Enhanced spectral efficiency in heavy traffic scenarios.

Abstract

Efficient data collection from a multitude of Internet of Things (IoT) devices is crucial for various applications, yet existing solutions often struggle with minimizing access delay and Age of Information (AoI), especially when managing multiple simultaneous transmissions and access strategies. This challenge becomes increasingly critical as IoT deployments continue to expand, demanding robust mechanisms for handling diverse traffic scenarios. In this study, we propose a novel approach leveraging Successive Interference Cancellation (SIC) based on adaptive and fixed parameter schemes to address these limitations. By analyzing both throughput and AoI along with access delay, we demonstrate the effectiveness of our adaptive approach compared to the fixed approach, particularly in scenarios featuring heavy and light traffic. Our findings highlight the pivotal role of adaptive approaches in optimizing data collection processes in IoT ecosystems, with a particular focus on minimizing access delay, AoI, and spectral efficiency.