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Your search keyword '"Tang, Yunxi"' showing total 15 results
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15 results on '"Tang, Yunxi"'

1. Learning to Hop for a Single-Legged Robot with Parallel Mechanism

Author

Zhang, Hongbo, Chu, Xiangyu, Chen, Yanlin, Tang, Yunxi, Yue, Linzhu, Liu, Yun-Hui, and Au, Kwok Wai Samuel

Subjects
Computer Science - Robotics
Abstract

This work presents the application of reinforcement learning to improve the performance of a highly dynamic hopping system with a parallel mechanism. Unlike serial mechanisms, parallel mechanisms can not be accurately simulated due to the complexity of their kinematic constraints and closed-loop structures. Besides, learning to hop suffers from prolonged aerial phase and the sparse nature of the rewards. To address them, we propose a learning framework to encode long-history feedback to account for the under-actuation brought by the prolonged aerial phase. In the proposed framework, we also introduce a simplified serial configuration for the parallel design to avoid directly simulating parallel structure during the training. A torque-level conversion is designed to deal with the parallel-serial conversion to handle the sim-to-real issue. Simulation and hardware experiments have been conducted to validate this framework.

Published
2025

2. DOFS: A Real-world 3D Deformable Object Dataset with Full Spatial Information for Dynamics Model Learning

Author

Zhang, Zhen, Chu, Xiangyu, Tang, Yunxi, and Au, K. W. Samuel

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics
Abstract

This work proposes DOFS, a pilot dataset of 3D deformable objects (DOs) (e.g., elasto-plastic objects) with full spatial information (i.e., top, side, and bottom information) using a novel and low-cost data collection platform with a transparent operating plane. The dataset consists of active manipulation action, multi-view RGB-D images, well-registered point clouds, 3D deformed mesh, and 3D occupancy with semantics, using a pinching strategy with a two-parallel-finger gripper. In addition, we trained a neural network with the down-sampled 3D occupancy and action as input to model the dynamics of an elasto-plastic object. Our dataset and all CADs of the data collection system will be released soon on our website., Comment: 5 pages, 6 figures, 2024 CoRL Workshop on Learning Robot Fine and Dexterous Manipulation: Perception and Control

Published
2024

3. Homotopic Path Set Planning for Robot Manipulation and Navigation

Author

Huang, Jing, Tang, Yunxi, and Au, Kwok Wai Samuel

Subjects
Computer Science - Robotics
Abstract

This paper addresses path set planning that yields important applications in robot manipulation and navigation such as path generation for deformable object keypoints and swarms. A path set refers to the collection of finite agent paths to represent the overall spatial path of a group of keypoints or a swarm, whose collective properties meet spatial and topological constraints. As opposed to planning a single path, simultaneously planning multiple paths with constraints poses nontrivial challenges in complex environments. This paper presents a systematic planning pipeline for homotopic path sets, a widely applicable path set class in robotics. An extended visibility check condition is first proposed to attain a sparse passage distribution amidst dense obstacles. Passage-aware optimal path planning compatible with sampling-based planners is then designed for single path planning with adjustable costs. Large accessible free space for path set accommodation can be achieved by the planned path while having a sufficiently short path length. After specifying the homotopic properties of path sets, path set generation based on deformable path transfer is proposed in an efficient centralized manner. The effectiveness of these methods is validated by extensive simulated and experimental results., Comment: 16 pages, 19 figures, conference

Published
2024

4. Bootstrapping Robotic Skill Learning With Intuitive Teleoperation: Initial Feasibility Study

Author

Chu, Xiangyu, Tang, Yunxi, Kwok, Lam Him, Cai, Yuanpei, and Au, Kwok Wai Samuel

Subjects
Computer Science - Robotics
Abstract

Robotic skill learning has been increasingly studied but the demonstration collections are more challenging compared to collecting images/videos in computer vision and texts in natural language processing. This paper presents a skill learning paradigm by using intuitive teleoperation devices to generate high-quality human demonstrations efficiently for robotic skill learning in a data-driven manner. By using a reliable teleoperation interface, the da Vinci Research Kit (dVRK) master, a system called dVRK-Simulator-for-Demonstration (dS4D) is proposed in this paper. Various manipulation tasks show the system's effectiveness and advantages in efficiency compared to other interfaces. Using the collected data for policy learning has been investigated, which verifies the initial feasibility. We believe the proposed paradigm can facilitate robot learning driven by high-quality demonstrations and efficiency while generating them., Comment: 10 pages, 4 figures, accepted by ISER2023

Published
2023

5. Towards Safe Landing of Falling Quadruped Robots Using a 3-DoF Morphable Inertial Tail

Author

Tang, Yunxi, An, Jiajun, Chu, Xiangyu, Wang, Shengzhi, Wong, Ching Yan, and Au, K. W. Samuel

Subjects
Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

Falling cat problem is well-known where cats show their super aerial reorientation capability and can land safely. For their robotic counterparts, a similar falling quadruped robot problem, has not been fully addressed, although achieving safe landing as the cats has been increasingly investigated. Unlike imposing the burden on landing control, we approach to safe landing of falling quadruped robots by effective flight phase control. Different from existing work like swinging legs and attaching reaction wheels or simple tails, we propose to deploy a 3-DoF morphable inertial tail on a medium-size quadruped robot. In the flight phase, the tail with its maximum length can self-right the body orientation in 3D effectively; before touch-down, the tail length can be retracted to about 1/4 of its maximum for impressing the tail's side-effect on landing. To enable aerial reorientation for safe landing in the quadruped robots, we design a control architecture, which has been verified in a high-fidelity physics simulation environment with different initial conditions. Experimental results on a customized flight-phase test platform with comparable inertial properties are provided and show the tail's effectiveness on 3D body reorientation and its fast retractability before touch-down. An initial falling quadruped robot experiment is shown, where the robot Unitree A1 with the 3-DoF tail can land safely subject to non-negligible initial body angles., Comment: 7 pages, 8 figures, submit to ICRA2023

Published
2022
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6. Bootstrapping Robotic Skill Learning with Intuitive Teleoperation: Initial Feasibility Study

Author

Chu, Xiangyu, Tang, Yunxi, Kwok, Lam Him, Cai, Yuanpei, Au, Kwok Wai Samuel, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, and Ang Jr, Marcelo H., editor

Published
2024
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7. Inequality Constrained Trajectory Optimization with A Hybrid Multiple-shooting iLQR

Author

Tang, Yunxi, Chu, Xiangyu, Jin, Wanxin, and Au, K. W. Samuel

Subjects
Computer Science - Robotics
Abstract

Trajectory optimization has been used extensively in robotic systems. In particular, iterative Linear Quadratic Regulator (iLQR) has performed well as an off-line planner and online nonlinear model predictive control solver, with a lower computational cost. However, standard iLQR cannot handle any constraints or perform reasonable initialization of a state trajectory. In this paper, we propose a hybrid constrained iLQR variant with a multiple-shooting framework to incorporate general inequality constraints and infeasible states initialization. The main technical contributions are twofold: 1) In addition to inheriting the simplicity of the initialization in multiple-shooting settings, a two-stage framework is developed to deal with state and/or control constraints robustly without loss of the linear feedback term of iLQR. Such a hybrid strategy offers fast convergence of constraint satisfaction. 2) An improved globalization strategy is proposed to exploit the coupled effects between line-searching and regularization, which is able to enhance the numerical robustness of the constrained iLQR approaches. Our approach is tested on various constrained trajectory optimization problems and outperforms the commonly-used collocation and shooting methods., Comment: 8 pages, 5 figures

Published
2021

11. Directors and officers liability insurance and maturity mismatch: evidence from China.

Author

Tang, Yunxi, Ho, Kung-Cheng, Wu, Ji, Zou, Liping, and Yao, Shouyu

Subjects
EXECUTIVES' liability insurance, INSURANCE companies, MORAL hazard, DIVERSIFICATION in industry, INVESTOR protection
Abstract

We investigate the impact of the purchase of Directors' and Officers' liability insurance (D&O insurance) on a firm's risk-taking behaviour in China, measured by the firm's maturity mismatch ratio. Using a unique manually collected dataset, we find a significant positive relationship between a firm's purchase of D&O insurance and the firm's maturity mismatch ratio, which supports the moral hazard theory. The mechanisms of our main finding are corresponding internal and external monitoring, in which the main finding is only significant for firms under weak monitoring. Our result remains significant after employing several approaches to alleviate potential endogeneity concerns, including an alternative sample and the sensitivity test model. Our paper sheds some extra light on the issue related to D&O insurance in a country with inadequate internal supervision and weak investor protection and the determinant of a firm's maturity mismatch ratio. [ABSTRACT FROM AUTHOR]

Published
2023
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