Onboard Observation Task Planning for an Autonomous Earth Observation Satellite Using Long Short-Term Memory

• Main Authors: Shuang Peng, Hao Chen, Chun Du, Jun Li, Ning Jing
• Format: Article
• Language: English
• Published: IEEE 2018-01-01
• Series: IEEE Access
• Subjects: Satellite autonomy; onboard observation task planning; sequential decision-making; deep learning; long short-term memory
• Online Access: https://ieeexplore.ieee.org/document/8502754/

Onboard observation task planning plays an essential role in satellite autonomy, which has attracted considerable attention from researchers in recent years. Most of the existing studies solve the satellite onboard observation task planning problem (SOOTP) by searching algorithms. However, the limited computing resources and the changes of onboard condition present a new challenge for these methods. In this paper, we develop a sequential decision-making model and propose a deep learning-based planning method to solve the SOOTP. Instead of generating a short-term or long-term plan in advance, the sequential decisionmaking model enables the satellite to decide the observation task to execute in real-time. In the deep learning-based planning method, a long short-term memory-based encoding network is designed to extract the features and a classification network is used to make such a decision. In the experiment, we compared our method with the gated recurrent unit network and other three searching algorithms based on five scenarios. The experimental results show that our method can solve problems with 90.3%-93.7% accuracy, 2.19%-3.95% profit gap, and 0.004-0.006 s response time per task, which confirms its feasibility.