Journal
IEEE TRANSACTIONS ON NETWORK SCIENCE AND ENGINEERING
Volume 8, Issue 4, Pages 2872-2884Publisher
IEEE COMPUTER SOC
DOI: 10.1109/TNSE.2020.3039499
Keywords
Satellites; Deep learning; Batteries; Delays; Routing protocols; Network topology; Reinforcement learning; Energy efficiency; Deep learning; Deep reinforcement learning; end-to-end delay; energy-efficient routing; satellite mega-constellations
Funding
- National Natural Science Foundation [61972412]
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Major space companies are developing satellite mega-constellations to provide global Internet coverage and services, facing challenges such as limited battery capacity, energy consumption, and massive Internet packet routing tasks.
Major space companies are developing satellite mega-constellations to provide global Internet coverage and services. Limited battery capacity is one of the biggest obstacles on mega-constellations due to the restricted weight and volume of satellites. Massive Internet packet routing tasks pose a big challenge to the energy system in such mega constellations. Incorrect use of satellite batteries during routing phases may significantly increase the energy consumption and cause node failure quickly. Existing state-of-the-art works on energy-saving routing for satellite networks paid much attention on traffic distribution and end-to-end delay issues. However, these methodologies were using many real-time network information for optimization which is not practical in mega-constellations. Note also that these works did not consider energy efficiency and guaranteed end-to-end delay simultaneously. In this paper, we propose a novel deep reinforcement learning based energy-efficient routing protocol called DRL-ER, which avoids the battery energy imbalance of constellations and can also guarantee a required bounded end-to-end delay. In DRL-ER, satellites can learn a routing policy that will balance energy usage among satellites. Extensive simulation results show that our proposed DRL-ER protocol reduces the energy consumption of satellites in average by more than 55% compared to the current state-of-the-art work, and prolongs the lifetime of constellations significantly.
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