Markers Identification for Relative Pose Estimation of an Uncooperative Target
This addresses the challenge of space debris removal for space agencies and missions, but appears incremental as it builds on existing CNN and image processing techniques.
The paper tackles the problem of detecting structural markers on the ENVISAT satellite for safe de-orbiting by using chaser spacecraft image processing and CNNs, with results showing promising potential for autonomous space debris removal.
This paper introduces a novel method using chaser spacecraft image processing and Convolutional Neural Networks (CNNs) to detect structural markers on the European Space Agency's (ESA) Environmental Satellite (ENVISAT) for safe de-orbiting. Advanced image pre-processing techniques, including noise addition and blurring, are employed to improve marker detection accuracy and robustness. Initial results show promising potential for autonomous space debris removal, supporting proactive strategies for space sustainability. The effectiveness of our approach suggests that our estimation method could significantly enhance the safety and efficiency of debris removal operations by implementing more robust and autonomous systems in actual space missions.