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Main Authors: Mao, Luisa, Soussan, Ryan, Coltin, Brian, Smith, Trey, Biswas, Joydeep
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.01804
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author Mao, Luisa
Soussan, Ryan
Coltin, Brian
Smith, Trey
Biswas, Joydeep
author_facet Mao, Luisa
Soussan, Ryan
Coltin, Brian
Smith, Trey
Biswas, Joydeep
contents We are interested in long-term deployments of autonomous robots to aid astronauts with maintenance and monitoring operations in settings such as the International Space Station. Unfortunately, such environments tend to be highly dynamic and unstructured, and their frequent reconfiguration poses a challenge for robust long-term localization of robots. Many state-of-the-art visual feature-based localization algorithms are not robust towards spatial scene changes, and SLAM algorithms, while promising, cannot run within the low-compute budget available to space robots. To address this gap, we present a computationally efficient semantic masking approach for visual feature matching that improves the accuracy and robustness of visual localization systems during long-term deployment in changing environments. Our method introduces a lightweight check that enforces matches to be within long-term static objects and have consistent semantic classes. We evaluate this approach using both map-based relocalization and relative pose estimation and show that it improves Absolute Trajectory Error (ATE) and correct match ratios on the publicly available Astrobee dataset. While this approach was originally developed for microgravity robotic freeflyers, it can be applied to any visual feature matching pipeline to improve robustness.
format Preprint
id arxiv_https___arxiv_org_abs_2411_01804
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Semantic Masking and Visual Feature Matching for Robust Localization
Mao, Luisa
Soussan, Ryan
Coltin, Brian
Smith, Trey
Biswas, Joydeep
Robotics
We are interested in long-term deployments of autonomous robots to aid astronauts with maintenance and monitoring operations in settings such as the International Space Station. Unfortunately, such environments tend to be highly dynamic and unstructured, and their frequent reconfiguration poses a challenge for robust long-term localization of robots. Many state-of-the-art visual feature-based localization algorithms are not robust towards spatial scene changes, and SLAM algorithms, while promising, cannot run within the low-compute budget available to space robots. To address this gap, we present a computationally efficient semantic masking approach for visual feature matching that improves the accuracy and robustness of visual localization systems during long-term deployment in changing environments. Our method introduces a lightweight check that enforces matches to be within long-term static objects and have consistent semantic classes. We evaluate this approach using both map-based relocalization and relative pose estimation and show that it improves Absolute Trajectory Error (ATE) and correct match ratios on the publicly available Astrobee dataset. While this approach was originally developed for microgravity robotic freeflyers, it can be applied to any visual feature matching pipeline to improve robustness.
title Semantic Masking and Visual Feature Matching for Robust Localization
topic Robotics
url https://arxiv.org/abs/2411.01804