STRING-MAN: Wire-robot technology for safe, flexible and human-friendly gait rehabilitation

Šurdilović, Dragoljub; Zhang, Jinyu; Bernhardt, R.

doi:10.1109/icorr.2007.4428463

Cited by 70 publications

(34 citation statements)

References 10 publications

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“…These robots have few moving parts, with reduced mass, and are most suitable for tasks required high performance such as speed and accuracy and provide a large workspace [3]. By moving the cables connections points, it also has a work space much more grace to rolling cables, which allow the effector to be very far from its base, and reduce the distance near zero with very high acceleration, and the main advantage of the cable are; a larger workspace for the same overall dimension of the robot; light weight cables resulting in very safe an transportable system [4].…”

Section: Introductionmentioning

confidence: 99%

“…For these reasons, cables-driven robots have received attention and have been recently studied [1]. The cable parallel robot are a special class of parallel mechanisms, whose trusts consist of cables whose lengths are adjustable to control the end-effector's position and orientation [2], this last is a fully parallel mechanism in closed chains with n degrees of freedom for the end effector; this last is connected to fixed platform by m cables; and each cable connects an output point attached to the fixed based of the robot to the mobile platform.These robots have few moving parts, with reduced mass, and are most suitable for tasks required high performance such as speed and accuracy and provide a large workspace [3]. By moving the cables connections points, it also has a work space much more grace to rolling cables, which allow the effector to be very far from its base, and reduce the distance near zero with very high acceleration, and the main advantage of the cable are; a larger workspace for the same overall dimension of the robot; light weight cables resulting in very safe an transportable system [4].…”

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confidence: 99%

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Sliding Mode Control Compared to PID Control Applied for a 4 Cables Parallel Robot

Inel¹

2018

IJCA

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This paper present a study the performance of sliding mode controller (SM) against PID controller, this last SM control algorithm is based to provide the stability of the endeffecter and a PIDC is classical proportional integrated derivative controller. The aim contribution of this work is in the firstly IntroductionIn recent years, robots have made tremendous inroads into industries for manufacturing and assembly. However, for long reach robotics such as inspection and repair in shipyards and airplane hangars, application of robotics is still in its infancy. Conventional robots with serial or parallel structures are impractical for these applications since the workspace requirements are higher than what the conventional robots can provide. For these reasons, cables-driven robots have received attention and have been recently studied [1]. The cable parallel robot are a special class of parallel mechanisms, whose trusts consist of cables whose lengths are adjustable to control the end-effector's position and orientation [2], this last is a fully parallel mechanism in closed chains with n degrees of freedom for the end effector; this last is connected to fixed platform by m cables; and each cable connects an output point attached to the fixed based of the robot to the mobile platform.These robots have few moving parts, with reduced mass, and are most suitable for tasks required high performance such as speed and accuracy and provide a large workspace [3]. By moving the cables connections points, it also has a work space much more grace to rolling cables, which allow the effector to be very far from its base, and reduce the distance near zero with very high acceleration, and the main advantage of the cable are; a larger workspace for the same overall dimension of the robot; light weight cables resulting in very safe an transportable system [4]. The best-known is control of cameras in stadiums (Skycam), this application is moved a fixed camera on a moving platform, another field of interest in biomedical application is the monitoring of the movement. An example may be mentioned CaTraSys (Cassino Tracking System) was used for identifying kinematic parameters and the mobility of man. Also, rehabilitation applications transport [5], the main disadvantages of parallel manipulators lie in the nature Vol. 11, No. 1 (2018) 2 Copyright © 2018 SERSC Australia of the cables suffer from unidirectional constraints that can only be pulled and not pushed. In this variant of robots, the cables must be with the tension in the whole workspace [6]. This paper is organized as follow: the structure of the our parallel robot with 4 cables. Next, we present the demonstration of geometric and dynamic models and we present a graphical user interface for the point to point command, finally, presents the controls modeling and some simulation results for different tests. Structure of 4 Cables Parallel RobotIn Figures 1 shows the general structure of our robot which consist mainly of a fixed base, a moving platform that holds the ...

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Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

Sliding Mode Control Compared to PID Control Applied for a 4 Cables Parallel Robot

Inel¹

2018

IJCA

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“…(Visualact AB, 2006). A completely different field is the application of wire robots for rehabilitation which was demonstrated by the system String Man by the Fraunhofer-Institut für Produktionsanlagen und Konstruktionstechnik (IPK) in Berlin, Germany (Surdilovic et al, 2007). Another prototype for rehabilitation is described in (Frey et al, 2006).…”

Section: Motion Control In Operational Spacementioning

confidence: 99%

Wire Robots Part II: Dynamics, Control & Application

Brückmann¹,

Mikelsons²,

Brandt³

et al. 2008

Parallel Manipulators, New Developments

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“…They can be relatively easily disassembled, transported, reassembled, and reconfigured 20 which makes them suitable for search and rescue applications [5,6,7]. Last but not least, since cables are flexible, interferences between cables and/or collisions between cables and other objects in the operating environment may cause less accident or damage [8,9], which is notably useful for haptic devices, such as the NEREBOT [10] and the STING-MAN [11]. 25 Due to the compliance of cables, vibrations can become a crucial concern for CDPRs.…”

mentioning

confidence: 99%

Vibration analysis of cable-driven parallel robots based on the dynamic stiffness matrix method

Yuan

Courteille

Gouttefarde

et al. 2017

Journal of Sound and Vibration

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This paper focuses on the vibration analysis of Cable-Driven Parallel Robots (CDPRs). An oscillating model of CDPRs able to capture the dynamic behavior of the cables is derived using Lagrangian approach in conjunction with the Dynamic Stiffness Matrix method. Then, an original approach to analyze the modal interaction between the local cable modes and the global CDPR modes is presented. To illustrate this approach, numerical investigations and experimental analyses are carried out on a large-dimension 6-DOF suspended CDPR driven by 8 cables.

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STRING-MAN: Wire-robot technology for safe, flexible and human-friendly gait rehabilitation

Cited by 70 publications

References 10 publications

Sliding Mode Control Compared to PID Control Applied for a 4 Cables Parallel Robot

Sliding Mode Control Compared to PID Control Applied for a 4 Cables Parallel Robot

Wire Robots Part II: Dynamics, Control & Application

Vibration analysis of cable-driven parallel robots based on the dynamic stiffness matrix method

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