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Main Authors: Li, Gaofeng, Xu, Peisen, Wang, Ruize, Ye, Qi, Chen, Jiming, Song, Dezhen, Huang, Yanlong
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.07986
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author Li, Gaofeng
Xu, Peisen
Wang, Ruize
Ye, Qi
Chen, Jiming
Song, Dezhen
Huang, Yanlong
author_facet Li, Gaofeng
Xu, Peisen
Wang, Ruize
Ye, Qi
Chen, Jiming
Song, Dezhen
Huang, Yanlong
contents Orientation learning plays a pivotal role in many tasks. However, the rotation group SO(3) is a Riemannian manifold. As a result, the distortion caused by non-Euclidean geometric nature introduces difficulties to the incorporation of local constraints, especially for the simultaneous incorporation of multiple local constraints. To address this issue, we propose the Angle-Axis Space-based orientation representation method to solve several orientation learning problems, including orientation adaptation and minimization of angular acceleration. Specifically, we propose a weighted average mechanism in SO(3) based on the angle-axis representation method. Our main idea is to generate multiple trajectories by considering different local constraints at different basepoints. Then these multiple trajectories are fused to generate a smooth trajectory by our proposed weighted average mechanism, achieving the goal to incorporate multiple local constraints simultaneously. Compared with existing solution, ours can address the distortion issue and make the off-theshelf Euclidean learning algorithm be re-applicable in non-Euclidean space. Simulation and Experimental evaluations validate that our solution can not only adapt orientations towards arbitrary desired via-points and cope with angular acceleration constraints, but also incorporate multiple local constraints simultaneously to achieve extra benefits, e.g., achieving smaller acceleration costs.
format Preprint
id arxiv_https___arxiv_org_abs_2510_07986
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Orientation Learning and Adaptation towards Simultaneous Incorporation of Multiple Local Constraints
Li, Gaofeng
Xu, Peisen
Wang, Ruize
Ye, Qi
Chen, Jiming
Song, Dezhen
Huang, Yanlong
Robotics
Orientation learning plays a pivotal role in many tasks. However, the rotation group SO(3) is a Riemannian manifold. As a result, the distortion caused by non-Euclidean geometric nature introduces difficulties to the incorporation of local constraints, especially for the simultaneous incorporation of multiple local constraints. To address this issue, we propose the Angle-Axis Space-based orientation representation method to solve several orientation learning problems, including orientation adaptation and minimization of angular acceleration. Specifically, we propose a weighted average mechanism in SO(3) based on the angle-axis representation method. Our main idea is to generate multiple trajectories by considering different local constraints at different basepoints. Then these multiple trajectories are fused to generate a smooth trajectory by our proposed weighted average mechanism, achieving the goal to incorporate multiple local constraints simultaneously. Compared with existing solution, ours can address the distortion issue and make the off-theshelf Euclidean learning algorithm be re-applicable in non-Euclidean space. Simulation and Experimental evaluations validate that our solution can not only adapt orientations towards arbitrary desired via-points and cope with angular acceleration constraints, but also incorporate multiple local constraints simultaneously to achieve extra benefits, e.g., achieving smaller acceleration costs.
title Orientation Learning and Adaptation towards Simultaneous Incorporation of Multiple Local Constraints
topic Robotics
url https://arxiv.org/abs/2510.07986