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Design of a Bio-inspired Extensible Continuum Manipulator with Variable Stiffness

Journal of Bionic Engineering 2025年第1期22卷 181-194页

作者： Dongbao Sui Sikai Zhao Tianshuo Wang Yubin Liu Yanhe Zhu Jie Zhao State Key Laboratory of Robotics and System Harbin Institute of TechnologyHarbin150001China

This paper presents a continuum manipulator inspired by the anatomical characteristics of the elephant ***,the manipulator mimics the conoid profile of the elephant trunk,which helps to enhance its *** design features two concentric parts:inner pneumatically actuated bellows and an outer tendon-driven helical *** tendons control the omnidirectional bending of the manipulator,while the fusion of the pneumatic bellows with the tendon-driven spring results in an antagonistic actuation mechanism that provides the manipulator with variable stiffness and *** paper presents a new design for extensible manipulator and analyzes its stiffness and motion *** results are consistent with theoretical analysis,thereby demonstrating the validity of the theoretical approach and the versatile practical mechanical properties of the continuum *** impressive extensibility and variable stiffness of the manipulator were further demonstrated by performing a pin-hole assembly task.

关键词： Bioinspired robots Continuum robots Soft robotics Variable stiffness

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Two-phase visual servoing for capturing tumbling non-cooperative satellites with a space manipulator

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Chinese Journal of Aeronautics 2024年第12期37卷 560-573页

作者： Dezhi ZHANG Guocai YANG Yongjun SUN Junhong JI Minghe JIN Hong LIU State Key Laboratory of Robotics and System Harbin Institute of TechnologyHarbin 150001China

In this paper,a visual servoing approach is developed to capture the docking rings of tumbling non-cooperative satellites with a space *** primary challenge addressed is the potential for the docking ring to leave the monocular camera’s field-of-view as the manipulator approaches the target,due to the ring’s large *** solve this issue,a two-phase visual servoing scheme combining a monocular camera and a three-line structured light vision system is *** an effort to augment the success rate and safety of capture operations,several constraints are formulated,encompassing manipulator’s kinematics,monocular camera’s field-of-view,obstacle avoidance,structured light’s breakpoints and smooth ***,a nonlinear model predictive controller is proposed to manage these constraints in real-time and regulate the *** models are established based on image moments and pose for each phase,selecting these features as visual feedback to simplify the formulation of servo constraints and avoid the complex circle-based pose ***,to ensure unbiased predictions,the model disturbances arising from the imprecise estimation of target motion parameter are observed using an extended Kalman filter,which are then incorporated into the predictive control *** simulation results demonstrate the effectiveness of this scheme.

关键词： Space manipulator Tumbling non-cooperative satellite Visual servoing Model predictive control Disturbance estimation

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Singularity analysis and avoidance for an SSRMS-type reconfigurable space manipulator with a non-spherical wrist and two lockable passive telescopic links

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Chinese Journal of Aeronautics 2024年第8期37卷 435-459页

作者： Zhiyuan ZHAO Xiaohang YANG Yuntao LI Zichun XU Jingdong ZHAO Hong LIU State Key Laboratory of Robotics and System Harbin Institute of TechnologyHarbin 150001China

This study focuses on addressing kinematic singularity analysis and avoidance issues for a space station remote manipulator system(SSRMS)-type reconfigurable space *** manipulator is equipped with a non-spherical wrist and two lockable passive telescopic links(LPTLs),which enable it to have both active revolute and passive prismatic joints and operate in two distinct *** begin with the kinematic singularity analysis,the study derives the differential kinematic equations for the manipulator and identifies the dominant Jacobian matrix that causes ***,an in-depth analysis of singularities from multiple perspectives is ***,a kinematic singularity map method is proposed to capture the distribution of singularities within the reachable ***,the influence of the two LPTLs on singularities is thoroughly ***,a new method based on the matrix rank equivalence principle is introduced to determine singularity conditions,enabling the identification of all the singular configurations for the SSRMS-type reconfigurable ***,this method significantly reduces computational complexity,and the singularity conditions obtained have more concise *** the singularity avoidance problem,a novel method is developed,which simultaneously addresses the requirements of real-time performance,high precision,and the avoidance of both kinematic singularities and joint limit *** from these excellent properties,the proposed method can effectively resolve the singularity issues encountered separately by the SSRMS-type reconfigurable manipulator in its two operational *** typical simulations validate the utility of all the proposed methods.

关键词： Reconfigurable space manipulator Redundant manipulator Kinematics Singularity analysis Singularity avoidance

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Joint Probabilistic Scheduling and Resource Allocation for Wireless Networked Control systems

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ieee/CAA Journal of Automatica Sinica 2025年第1期12卷 258-260页

作者： Meng Zheng Lei Zhang Wei Liang IEEE the State Key Laboratory of Robotics and the Key Laboratory of Networked Control Systems Shenyang Institute of Automation Chinese Academy of Sciences the University of Chinese Academy of Sciences

Dear Editor,This letter presents a joint probabilistic scheduling and resource allocation method(PSRA) for 5G-based wireless networked control systems(WNCSs). As a control-aware optimization method, PSRA minimizes the linear quadratic Gaussian(LQG) control cost of WNCSs by optimizing the activation probability of subsystems, the number of uplink repetitions, and the durations of uplink and downlink phases. Simulation results show that PSRA achieves smaller LQG control costs than existing works.

关键词： Networked control systems

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Unifying Fixed Time and Prescribed Time Control for Strict-Feedback Nonlinear systems

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ieee/CAA Journal of Automatica Sinica 2025年第2期12卷 347-355页

作者： Xiang Chen Yujuan Wang Yongduan Song the State Key Laboratory of Power Transmission Equipment & System Security and New Technology and School of Automation Chongqing University IEEE

This paper investigates the prescribed-time tracking control problem for a class of multi-input multi-output(MIMO)nonlinear strict-feedback systems subject to non-vanishing uncertainties. The inherent unmatched and non-vanishing uncertainties make the prescribed-time control problem become much more nontrivial. The solution to address the challenges mentioned above involves incorporating a prescribed-time filter, as opposed to a finite-time filter, and formulating a prescribed-time Lyapunov stability lemma(Lemma 5). The prescribed-time Lyapunov stability lemma is based on time axis shifting time-varying yet bounded gain, which establishes a novel link between the fixed-time and prescribed-time control method. This allows the restriction condition that the time-varying gain function must satisfy as imposed in most exist prescribed-time control works to be removed. Under the proposed control method, the desire trajectory is ensured to closely track the output of the system in prescribed time. The effectiveness of the theoretical results are verified through numerical simulation.

关键词： Prescribed-time control prescribed-time filter robust control state feedback strict-feedback systems

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A versatile humanoid robot platform for dexterous manipulation and human-robot collaboration

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CAAI Transactions on Intelligence Technology 2024年第2期9卷 526-540页

作者： Xin Shu Fenglei Ni Xinyang Fan Shuai Yang Changyuan Liu Baoxu Tu Yiwei Liu Hong Liu State Key Laboratory of Robotics and System Harbin Institute of TechnologyHarbinChina

Humanoid robots have attracted much attention by virtue of their compatibility with human ***,biped humanoids with immense promise still cannot function steadily and reliably in real-world settings in the current ***,rationally combining a humanoid robot with different stable mobile platforms is a favoured solution for diverse ***,a new versatile humanoid robot platform,aiming to provide a generic solution that can be flexibly deployed in diverse scenarios,for example,indoors and fields is *** humanoid robot platform incorporates multimodal perception,and extensible interfaces on hardware and software,allowing it to be rapidly integrated with different mobile platforms and end-effectors,only through easyto-assemble ***,the platform has achieved impressive integration,lightness,dexterity,and strength in its class,with human-like size and rich perception,targeted to have human-intelligent manipulation skills for human-engineered ***,this article elaborates on the reasoning behind the design choices,and outlines each ***,the essential performance of the platform is successfully demonstrated in a set of experiments with precise and dexterous manipulation,and human–robot collaboration requirements.

关键词： intelligent robots robotics

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Soft Resource Slicing for Industrial Mixed Traffic in 5G Networks

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ieee/CAA Journal of Automatica Sinica 2025年第2期12卷 463-465页

作者： Jingfang Ding Meng Zheng Haibin Yu the State Key Laboratory of Robotics and the Key Laboratory of Networked Control Systems Chinese Academy of Sciences the Institutes for Robotics and Intelligent Manufacturing Chinese Academy of Sciences the University of Chinese Academy of Sciences IEEE

Dear Editor,This letter proposes a dynamic switching soft slicing strategy for industrial mixed traffic in 5G networks. Considering two types of traffic, periodic delay-sensitive (PDS) traffic and sporadic delay-tolerant (SDT) traffic, we design a dynamic switching strategy based on a traffic-Qo S-aware soft slicing (TQASS) scheme and a resource-efficiency-aware soft slicing (REASS) scheme.

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An efficient self-reconfiguration method to deploy space modular robots

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Science China(Technological Sciences) 2024年第12期67卷 3962-3964页

作者： ZHAO Ning GAO YongSheng QI Jian YANG ZhiYuan ZHAO SiKai SUI Xin HAN Kai ZHAO Jie ZHU YanHe State Key Laboratory of Robotics and System Harbin Institute of TechnologyHarbin 150001China

Intelligent robots play a crucial role in space exploration,representing a significant trend in space automation *** robots,which can regenerate configurations and functions through self-reconfiguration[1],offer distinct adaptability and versatility[2,3]over traditional robots with fixed structures and single-purpose ***,self-reconfiguration is regarded as a highly promising capability for space exploration and remains a primary motivation for research in this field[4].

关键词： technology functions figuration

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Design and experiments of a small resonant inchworm piezoelectric robot

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Science China(Technological Sciences) 2023年第3期66卷 821-829页

作者： DENG Jie YANG ChengLin LIU YingXiang ZHANG ShiJing LI Jing MA XueFeng XIE Hui State Key Laboratory of Robotics and System Harbin Institute of TechnologyHarbin 150001China

A small resonant inchworm piezoelectric robot with six driving feet which are set evenly along the circumference is proposed and tested.A bonded-type structure is adopted to realize a small *** radial bending vibration mode and longitudinal vibration mode are excited at the same *** superposition of these two vibration modes makes the driving feet produce elliptical *** the driving force can be generated by friction coupling between the driving foot and the operating *** structure of the robot is designed by finite element *** geometric parameters are adjusted to make the resonant frequencies of the vibration modes as close as *** elliptical trajectories generated at the driving feet are discussed in *** vibration and motion characteristics of the prototype are tested,and the resonant frequencies of the radial bending mode and the longitudinal vibration mode are degenerated *** optimal working frequency of the prototype is 21.5 *** maximum speed of the prototype is 200 mm/s,and the displacement resolution is 0.71μ*** measured results show that the resonant inchworm piezoelectric robot can be used for fast and high-precision transportation in narrow space.

关键词： piezoelectric robot resonant actuation inchworm movement bending and longitudinal vibration

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A New EMG Decomposition Framework for Upper Limb Prosthetic systems

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Journal of Bionic Engineering 2023年第6期20卷 2646-2660页

作者： Wenhao Wu Li Jiang Bangchu Yang Kening Gong Chunhao Peng Tianbao He State Key Laboratory of Robotics and System Harbin Institute of TechnologyHarbin150080China

Neural interfaces based on surface Electromyography(EMG)decomposition have been widely used in upper limb prosthetic *** the current EMG decomposition framework,most Blind Source Separation(BSS)algorithms require EMG with a large number of channels(generally larger than 64)as input,while users of prosthetic limbs can generally only provide less skin surface for electrode placement than healthy *** performed decomposition tests to demonstrate the performance of the new framework with the simulated EMG *** results show that the new framework identified more Motor Units(MUs)compared to the control group and it is suitable for decomposing EMG signals with low channel *** order to verify the application value of the new framework in the upper limb prosthesis system,we tested its performance in decomposing experimental EMG signals in force fitting experiments as well as pattern recognition *** average Pearson coefficient between the fitted finger forces and the ground truth forces is 0.9079 and the average accuracy of gesture classification is 95.11%.The results show that the decomposition results obtained by the new framework can be used in the control of the upper limb prosthesis while only requiring EMG signals with fewer channels.

关键词： EMG decomposition Peel-off strategy Few channels Upper limb prosthetic system

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