Trajectory Adaptation and Learning for Ankle Rehabilitation Using a 3-PRS Parallel Robot

被引：12

作者：

Abu-Dakk, Fares J. ^{[1
]}

Valera, A. ^{[2
]}

Escalera, J. A. ^{[1
]}

Valles, M. ^{[2
]}

Mata, V. ^{[2
]}

Abderrahim, M. ^{[1
]}

机构：

[1] Univ Carlos III Madrid, Robot Lab, Leganes 28911, Madrid, Spain

[2] Univ Politecn Valencia, Dept Ingn Sistemas & Automat, E-46022 Valencia, Spain

来源：

INTELLIGENT ROBOTICS AND APPLICATIONS (ICIRA 2015), PT II | 2015年 / 9245卷

关键词：

Parallel robots; Rehabilitation robots; Force control; Motion control; GAIT; KINEMATICS; TRAINER;

D O I：

10.1007/978-3-319-22876-1_41

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

This paper presents a methodology for learning and adaptation of a 3-PRS parallel robot skills for ankle rehabilitation. Passive exercises have been designed to train dorsi/plantar flexion, inversion/eversion ankle movements. During exercises, forces may be high because patient cannot follow the desired trajectory. While small errors in the desired trajectory can cause important deviations in the desired forces, pure position control is inappropriate for tasks that require physical contact with the environment. The proposed algorithm takes as input the reference trajectory and force profile, then adapts the robot movement by introducing small offsets to the reference trajectory so that the resulting forces exerted by the patient match the reference profile. The learning procedure is based on Dynamic Movement Primitives (DMPs).

引用

页码：483 / 494

页数：12

共 50 条

[1] Position and Pose Measurement of 3-PRS Ankle Rehabilitation Robot Based on Deep Learning
Chen, Guoqiang
Zhou, Hongpeng
Huang, Junjie
Liu, Mengchao
Bai, Bingxin
[J]. Recent Advances in Computer Science and Communications, 2022, 15 (02): : 284 - 297
[2] FORCE/POSITION CONTROL STRATEGY OF 3-PRS ANKLE REHABILITATION ROBOT
Chen, Guoqiang
Zhou, Hongpeng
Yang, Pengcheng
[J]. INTERNATIONAL JOURNAL OF INNOVATIVE COMPUTING INFORMATION AND CONTROL, 2020, 16 (02): : 481 - 494
[3] A 3-PRS parallel manipulator for ankle rehabilitation: towards a low-cost robotic rehabilitation
Valles, Marina
Cazalilla, Jose
Valera, Angel
Mata, Vicente
Page, Alvaro
Diaz-Rodriguez, Miguel
[J]. ROBOTICA, 2017, 35 (10) : 1939 - 1957
[4] Precision Analysis for The 3-PRS Parallel Robot
Hu, Shijie
[J]. MECHATRONICS AND INTELLIGENT MATERIALS II, PTS 1-6, 2012, 490-495 : 495 - 498
[5] DRIVING FORCE ESTIMATION OF 3-PRS PARALLEL ROBOT BASED ON DEEP LEARNING
Chen, Guoqiang
Zhou, Hongpeng
Huang, Junjie
Guo, Desui
Kang, Jincan
Kang, Jianli
[J]. International Journal of Mechatronics and Applied Mechanics, 2024, 2024 (15): : 79 - 89
[6] Development of lower-limb rehabilitation exercises using 3-PRS Parallel Robot and Dynamic Movement Primitives
Escarabajal, Rafael J.
Abu-Dakka, Fares J.
Pulloquinga, Jose L.
Mata, Vicente
Valles, Marina
Valera, Angel
[J]. MULTIDISCIPLINARY JOURNAL FOR EDUCATION SOCIAL AND TECHNOLOGICAL SCIENCES, 2020, 7 (02): : 30 - 44
[7] Workspace generation of the 3-PRS parallel robot based on the NN
Cheng, X
Huang, YM
Fan, ZM
Su, JH
[J]. 2002 INTERNATIONAL CONFERENCE ON MACHINE LEARNING AND CYBERNETICS, VOLS 1-4, PROCEEDINGS, 2002, : 2087 - 2089
[8] Kinematic Forward Solution Analysis of the 3-PRS Parallel Robot
Huang, Junjie
Kang, Jianli
Zhao, Junwei
[J]. FRONTIERS OF MANUFACTURING SCIENCE AND MEASURING TECHNOLOGY II, PTS 1 AND 2, 2012, 503-504 : 913 - +
[9] Kinematics of platform stabilization using a 3-PRS parallel manipulator
Udomsap, Tossaporn
Chinchouryrang, Sakda
Liampipat, Siwat
Chanthasopeephan, Teeranoot
[J]. ROBOMECH JOURNAL, 2023, 10 (01):
[10] Kinematics of platform stabilization using a 3-PRS parallel manipulator
Tossaporn Udomsap
Sakda Chinchouryrang
Siwat Liampipat
Teeranoot Chanthasopeephan
[J]. ROBOMECH Journal, 10

← 1 2 3 4 5 →