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A Review on Status and Prospects of Tendon/Cable Driven Continuum Robot
[1]LIU Yanhong,ZHANG Kuan,HUO Benyan,et al.A Review on Status and Prospects of Tendon/Cable Driven Continuum Robot[J].Journal of Zhengzhou University (Engineering Science),2023,44(03):3-13.[doi:10.13705/j.issn.1671-6833.2023.03.024]
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[1] ZHONG Y,HU L H,XU Y S. Recent advances in design and actuation of continuum robots for medical applications [J]. Actuators,2020,9( 4) : 142. 
[2] LI C,RAHN C D. Design of continuous backbone,cabledriven robots[J]. Journal of Mechanical Design,2002, 124( 2) : 265-271. 
[3] NEPPALLI S,JONES B A. Design,construction,and analysis of a continuum robot[C]∥2007 IEEE/RSJ International Conference on Intelligent Robots and Systems. Piscataway: IEEE,2007: 1503-1507.
 [4] RENDA F,GIORELLI M,CALISTI M,et al. Dynamic  model of a multibending soft robot arm driven by cables [J]. IEEE Transactions on Robotics,2014,30 ( 5 ) : 1109-1122. 
[5] CAO K,KANG R J,BRANSON D T III,et al. Workspace analysis of tendon-driven continuum robots based on mechanical interference identification[J]. Journal of Mechanical Design,2017,139( 6) : 062303.
 [6] PANG S X,SHANG W W,ZHANG F,et al. Design and stiffness analysis of a novel 7-DOF cable-driven manipulator[J]. IEEE Robotics and Automation Letters,2022,7 ( 2) : 2811-2818. 
[7] OMISORE O M,HAN S P,XIONG J,et al. A review on flexible robotic systems for minimally invasive surgery [J]. IEEE Transactions on Systems,Man,and Cybernetics: Systems,2022,52( 1) : 631-644. [8] ZHONG Y,HU L H,XU Y S. Recent advances in design and actuation of continuum robots for medical applications [J]. Actuators,2020,9( 4) : 142. 
[9] LI S Y,HAO G B. Current trends and prospects in compliant continuum robots: a survey[J]. Actuators,2021, 10( 7) : 145.
 [10] KOLACHALAMA S, LAKSHMANAN S. Continuum robots for manipulation applications: a survey[J]. Journal of Robotics,2020,2020: 1-19. 
[11] WANG J,CHORTOS A. Control strategies for soft robot systems[J]. Advanced Intelligent Systems,2022,4 ( 5) : 2100165.
 [12] THURUTHEL T G,ANSARI Y,FALOTICO E,et al. Control strategies for soft robotic manipulators: a survey [J]. Soft Robotics,2018,5( 2) : 149-163.
 [13] WEBSTER R J,JONES B A. Design and kinematic modeling of constant curvature continuum robots: a review [J]. International Journal of Robotics Research,2010, 29( 13) : 1661-1683. 
[14] JONES B A,WALKER I D. Kinematics for multisection continuum robots[J]. IEEE Transactions on Robotics, 2006,22( 1) : 43-55. 
[15] BAJO A,SIMAAN N. Kinematics-based detection and localization of contacts along multisegment continuum robots [J]. IEEE Transactions on Robotics,2012,28( 2) : 291 -302. 
[16] GOLDMAN R E, BAJO A, SIMAAN N. Compliant motion control for multisegment continuum robots with actuation force sensing[J]. IEEE Transactions on Robotics, 2014,30( 4) : 890-902.
 [17] QI F,JU F,BAI D M,et al. Kinematic analysis and navigation method of a cable-driven continuum robot used for minimally invasive surgery [J]. The International Journal of Medical Robotics + Computer Assisted Surgery: MRCAS,2019,15( 4) : e2007.
 [18] ZHONG G L,PENG B W,DOU W Q. Kinematics analysis and trajectory planning of a continuum manipulator [J]. International Journal of Mechanical Sciences,2022, 222: 107206. 
[19] BARRIENTOS J,DONG X,AXINTE D,et al. Real-time kinematics of continuum robots: modelling and validation [J]. Robotics and Computer-integrated Manufacturing, 2021,67: 102019.
 [20] RENDA F,BOYER F,DIAS J,et al. Discrete cosserat approach for multisection soft manipulator dynamics[J]. IEEE Transactions on Robotics,2018,34 ( 6) : 1518 -1533.
 [21] LILGE S,NUELLE K,BOETTCHER G,et al. Tendon actuated continuous structures in planar parallel robots: a kinematic analysis[J]. Journal of Mechanisms and Robotics,2021,13( 1) : 011025. 
[22] BLACK C B,TILL J,RUCKER D C. Parallel continuum robots: modeling,analysis,and actuation-based force sensing[J]. IEEE Transactions on Robotics,2018,34 ( 1) : 29-47. 
[23] ZHAO B,ZENG L,WU Z,et al. A continuum manipulator for continuously variable stiffness and its stiffness control formulation[J]. Mechanism and Machine Theory, 2020,149: 103746.
 [24] GIORELLI M,RENDA F,CALISTI M,et al. Neural network and Jacobian method for solving the inverse statics of a cable-driven soft arm with nonconstant curvature[J]. IEEE Transactions on Robotics,2015,31 ( 4) : 823-834. 
[25] THURUTHEL T G,FALOTICO E,MANTI M,et al. Learning closed loop kinematic controllers for continuum manipulators in unstructured environments[J]. Soft Robotics,2017,4( 3) : 285-296. 
[26] WANG Y,YIP H W,ZHENG H,et al. Design and experimental validation of a miniaturized robotic tendondriven articulated surgical drill for enhancing distal dexterity in minimally invasive spine fusion[J]. IEEE/ASME Transactions on Mechatronics, 2021, 26 ( 4 ) : 1858 -1866.
 [27] FALKENHAHN V,MAHL T,HILDEBRANDT A,et al. Dynamic modeling of bellows-actuated continuum robots using the Euler-Lagrange formalism [J ]. IEEE Transactions on Robotics,2015,31( 6) : 1483-1496.
 [28] YANG J Z,PENG H J,ZHOU W Y,et al. A modular approach for dynamic modeling of multisegment continuum robots[J]. Mechanism and Machine Theory, 2021, 165: 104429. 
[29] RONE W S,BEN-TZVI P. Continuum robot dynamics u- 10 郑 州 大 学 学 报 ( 工 学 版) 2023 年 tilizing the principle of virtual power[J]. IEEE Transactions on Robotics,2014,30( 1) : 275-287. 
[30] LIU Z Z,ZHANG X G,CAI Z Q,et al. Real-time dynamics of cable-driven continuum robots considering the cable constraint and friction effect[J]. IEEE Robotics and Automation Letters,2021,6( 4) : 6235-6242. 
[31] WANG H S,WANG C,CHEN W D,et al. Threedimensional dynamics for cable-driven soft manipulator [J]. IEEE/ASME Transactions on Mechatronics,2017, 22( 1) : 18-28. 
[32] GRAVAGNE I A,RAHN C D,WALKER I D. Large deflection dynamics and control for planar continuum robots [J]. IEEE/ASME Transactions on Mechatronics,2003, 8( 2) : 299-307. 
[33] RUCKER D C,WEBSTER III R J. Statics and dynamics of continuum robots with general tendon routing and external loading[J]. IEEE Transactions on Robotics,2011, 27( 6) : 1033-1044.
 [34] ALQUMSAN A A, KHOO S, NORTON M. Robust control of continuum robots using Cosserat rod theory[J]. Mechanism and Machine Theory,2019,131: 48-61. 
[35] JALALI A,JANABI-SHARIFI F. Dynamic modeling of tendon-driven co-manipulative continuum robots [J]. IEEE Robotics and Automation Letters,2022,7 ( 2) : 1643-1650. 
[36] PARVARESH A,MOOSAVIAN S A A. Linear vs. nonlinear modeling of continuum robotic arms using datadriven method[C]∥2019 7th International Conference on Robotics and Mechatronics ( ICRoM ) . Piscataway: IEEE,2020: 457-462. 
[37] THURUTHEL T G,FALOTICO E,RENDA F,et al. Model-based reinforcement learning for closed-loop dynamic control of soft robotic manipulators[J]. IEEE Transactions on Robotics,2019,35( 1) : 124-134.
 [38] CENTURELLI A,ARLEO L,RIZZO A,et al. Closedloop dynamic control of a soft manipulator using deep reinforcement learning[J]. IEEE Robotics and Automation Letters,2022,7( 2) : 4741-4748.
 [39] FICUCIELLO F,MIGLIOZZI A,COEVOET E,et al. FEM-based deformation control for dexterous manipulation of 3D soft objects[C]∥ 2018 IEEE/RSJ International Conference on Intelligent Robots and Systems ( IROS) . Piscataway: IEEE,2019: 4007-4013. 
[40] 王亚明. 航空发动机原位检测绳驱动机器人感知与控 制技术研究[D]. 南京: 南京航空航天大学,2020.
 WANG Y M. Research on perception and control technology of aero-engine in situ inspection rope driven robot [D]. Nanjing: Nanjing University of Aeronautics and Astronautics,2020.
 [41] WANG Y F,ZHU C X,DING Y,et al. Feedforward neural network assisted configuration transition control of continuum surgical manipulators[C]∥27th International Conference on Mechatronics and Machine Vision in Practice ( M2VIP) . Piscataway: IEEE,2022: 617-622. 
[42] THOMAS T L,SIKORSKI J,ANANTHASURESH G K, et al. Design, sensing, and control of a magnetic compliant continuum manipulator[J]. IEEE Transactions on Medical Robotics and Bionics,2022,4 ( 4 ) : 910 -921. 
[43] FANG Y H,HILL S,BA W M,et al. A novel method to solve the inverse kinematics for continuum robots accelerated by PID theory[C]∥12th International Conference on CYBER Technology in Automation,Control,and Intelligent Systems ( CYBER) . Piscataway: IEEE,2022: 840-844. 
[44] ZHANG B Y,FAN Y W,YANG P H,et al. Worm-like soft robot for complicated tubular environments[J]. Soft Robotics,2019,6( 3) : 399-413. 
[45] PANG W,WANG J B,FEI Y Q. The structure,design, and closed-loop motion control of a differential drive soft robot[J]. Soft Robotics,2018,5( 1) : 71-80. 
[46] SANTINA C D,KATZSCHMANN R K,BICCHI A,et al. Model-based dynamic feedback control of a planar soft robot: trajectory tracking and interaction with the environment[J]. International Journal of Robotics Research, 2020,39( 4) : 490-513. 
[47] LIANG X,HE G P,SU T T,et al. Finite-time observerbased variable impedance control of cable-driven continuum manipulators[J]. IEEE Transactions on HumanMachine Systems,2022,52( 1) : 26-40. 
[48] 海星朔,徐炳辉,任羿,等. 基于改进鸽群优化的机器 人自抗扰 控 制 方 法[J]. 郑 州 大 学 学 报 ( 工 学 版) , 2019,40( 4) : 20-24,31.
 HAI X S,XU B H,REN Y,et al. Robot active disturbance rejection control based on an enhanced pigeoninspired optimization[J]. Journal of Zhengzhou University ( Engineering Science) ,2019,40( 4) : 20-24,31. 
[49] 曾庆山,周亚帅,陶长春,等. 电驱动机械臂的自抗扰 鲁棒哈密顿跟踪控制[J]. 郑州大学学报( 工学版) , 2022,43( 4) : 1-7,15.
 ZENG Q S,ZHOU Y S,TAO C C,et al. Active disturbance rejection robust Hamiltonian tracking control of electrically driven manipulator[J]. Journal of Zhengzhou University ( Engineering Science) ,2022,43( 4) : 1-7,15. 
[50] 朱雨琪,向国菲,马丛俊,等. 基于建模优化的连续体 机器人轨迹跟踪及扰动抑制策略研究[J]. 空间控制 技术与应用,2022,48( 2) : 29-38.
 ZHU Y Q,XIANG G F,MA C J,et al. Trajectory tra- 第 3 期 刘艳红,等: 肌腱/绳驱动连续体机器人研究现状与展望 11 cking control and disturbance-rejection strategy for continuum robots with improved modeling method[J]. Aerospace Control and Application,2022,48( 2) : 29-38.
 [51] 邱小璐,蔡志勤,刘忠振,等. 空间连续型机器人自适 应鲁棒容错控制[J]. 计算力学学报,2021,38( 1) : 46-50. 
QIU X L,CAI Z Q,LIU Z Z,et al. Adaptive robust fault tolerant control of a space continuum robot[J]. Chinese Journal of Computational Mechanics,2021,38( 1) : 46 -50. 
[52] WATANABE Y,HIGASHIMORI M. Synergy-based analytical design of wire-driven continuum manipulators[J]. IEEE Robotics and Automation Letters,2022,7 ( 4) : 9310-9317. 
[53] YU P,TAN N,ZHANG M,et al. Inverse-free tracking control of continuum robots with unknown models based on gradient neural networks[C]∥2022 IEEE 11th Data Driven Control and Learning Systems Conference ( DDCLS) . Piscataway: IEEE,2022: 648-653. 
[54] TAN N,YU P,ZHANG M,et al. Towards unified adaptive teleoperation based on damping ZNN for robot manipulators with unknown kinematics[J]. IEEE Transactions on Industrial Electronics,2022,PP( 99) : 1-10.
 [55] 李进华,卜逸凡,李晓阳,等. 丝驱动连续体机器人的 无模型自适应控制[J]. 天津大学学报( 自然科学与工 程技术版) ,2022,55( 7) : 754-763.
 LI J H,BU Y F,LI X Y,et al. Model-free adaptive control for tendon-driven continuum robots[J]. Journal of Tianjin University ( Science and Technology) ,2022,55 ( 7) : 754-763. 
[56] KAMTIKAR S,MARRI S,WALT B,et al. Visual servoing for pose control of soft continuum arm in a structured environment[J]. IEEE Robotics and Automation Letters, 2022,7( 2) : 5504-5511. 
[57] GAO X F,LI X C,SUN Y,et al. Model-free tracking control of continuum manipulators with global stability and assigned accuracy[J]. IEEE Transactions on Systems,Man, and Cybernetics: Systems,2022,52( 2) : 1345-1355.
 [58] YIP M C, CAMARILLO D B. Model-less feedback control of continuum manipulators in constrained environments[J]. IEEE Transactions on Robotics,2014,30 ( 4) : 880-889. 
[59] ALOI V,DANG K T,BARTH E J,et al. Estimating forces along continuum robots[J]. IEEE Robotics and Automation Letters,2022,7( 4) : 8877-8884. 
[60] ZHAO Q X,LAI J W,HUANG K C,et al. Shape estimation and control of a soft continuum robot under external payloads [J]. IEEE/ASME Transactions on Mechatronics,2022,27( 5) : 2511-2522. 
[61] TANG Z Q,HEUNG H L,TONG K Y,et al. Modelbased online learning and adaptive control for a“humanwearable soft robot”integrated system[J]. International Journal of Robotics Researc
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