Enhancing Reliability in LEO Satellite Networks via High-Speed Inter-Satellite Links

TL;DR

This paper proposes using high-speed inter-satellite links in LEO satellite networks to reallocate packets dynamically, significantly reducing buffer overflow and packet loss, thereby enhancing network reliability for global connectivity and IoRT applications.

Contribution

It introduces a novel approach to reallocate packets via inter-satellite links to mitigate buffer overflow in LEO satellite networks, improving overall reliability.

Findings

Inter-satellite links reduce buffer overflow probability.

Packet reallocation improves network reliability.

Enhanced LEO satellite network performance.

Abstract

Low Earth orbit (LEO) satellites play a crucial role in providing global connectivity for non-terrestrial networks (NTNs) and supporting various Internet-of-Remote-Things (IoRT) applications. Each LEO satellite functions as a relay node in the sky, employing store-and-forward transmission strategies that necessitate the use of buffers. However, due to the finite size of these buffers, occurrences of buffer overflow leading to packet loss are inevitable. In this paper, we demonstrate how inter-satellite links (ISLs) can mitigate the probability of buffer overflow. Specifically, we propose an approach to reallocate packets among LEO satellites via ISLs to minimize the occurrence of buffer overflow events. Consequently, the implementation of ISLs can lead to a more reliable satellite network, enabling efficient packet reallocation to reduce the probability of buffer overflow.