English

Data Center-Enabled High Altitude Platforms: A Green Computing Alternative

Systems and Control 2023-09-19 v1 Systems and Control

Abstract

Information technology organizations and companies are seeking greener alternatives to traditional terrestrial data centers to mitigate global warming and reduce carbon emissions. Currently, terrestrial data centers consume a significant amount of energy, estimated at about 1.5% of worldwide electricity use. Furthermore, the increasing demand for data-intensive applications is expected to raise energy consumption, making it crucial to consider sustainable computing paradigms. In this study, we propose a data center-enabled High Altitude Platform (HAP) system, where a flying data center supports the operation of terrestrial data centers. We conduct a detailed analytical study to assess the energy benefits and communication requirements of this approach. Our findings demonstrate that a data center-enabled HAP is more energy-efficient than a traditional terrestrial data center, owing to the naturally low temperature in the stratosphere and the ability to harvest solar energy. Adopting a data center-HAP can save up to 14% of energy requirements while overcoming the offloading outage problem and the associated delay resulting from server distribution. Our study highlights the potential of a data center-enabled HAP system as a sustainable computing solution to meet the growing energy demands and reduce carbon footprint.

Keywords

Cite

@article{arxiv.2309.09241,
  title  = {Data Center-Enabled High Altitude Platforms: A Green Computing Alternative},
  author = {Wiem Abderrahim and Osama Amin and Basem Shihada},
  journal= {arXiv preprint arXiv:2309.09241},
  year   = {2023}
}
R2 v1 2026-06-28T12:23:57.876Z