English

Satellite Computing: A Case Study of Cloud-Native Satellites

Distributed, Parallel, and Cluster Computing 2023-07-18 v1 Networking and Internet Architecture

Abstract

The on-orbit processing of massive satellite-native data relies on powerful computing power. Satellite computing has started to gain attention, with researchers proposing various algorithms, applications, and simulation testbeds. Unfortunately, a practical platform for deploying satellite computing is currently lacking. As a result, the industry needs to make relentless efforts to achieve this goal. We suggest using cloud-native technology to enhance the computing power of LEO satellites. The first main satellite of the Tiansuan constellation, BUPT-1, is a significant example of a cloud-native satellite. Prior to delving into the details of BUPT-1, we define the essential concepts of cloud-native satellites, i.e., the cloud-native load and cloud-native platform. Afterwards, we present the design scheme of cloud-native satellites, including the architecture of BUPT-1 and the experimental subjects it can support. Two validation tests are shown to reflect the operation and capability of BUPT-1. Besides, we predict possible research fields that could shape the future of satellites in the next decade.

Cite

@article{arxiv.2307.08530,
  title  = {Satellite Computing: A Case Study of Cloud-Native Satellites},
  author = {Chao Wang and Yiran Zhang and Qing Li and Ao Zhou and Shangguang Wang},
  journal= {arXiv preprint arXiv:2307.08530},
  year   = {2023}
}
R2 v1 2026-06-28T11:32:32.942Z