Book ChapterDOI
A New Sitting-Type Lower-Limb Rehabilitation Robot Based on a Spatial Parallel Kinematic Machine
Jayant Kumar Mohanta,Santhakumar Mohan,Philippe Wenger,Christine Chevallereau +3 more
- pp 761-771
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TLDR
The conceptual and detail design of the rehabilitation device is presented along with its kinematics, and the functional validation of the proposed robot in terms of the kinematic motion capabilities to provide physiological motions like knee flexion-extension, hip adduction-abduction and hip flexion -extension are investigated.Abstract:
This paper proposes a lying/sitting type lower-limb rehabilitation robot based on a three degrees of freedom spatial parallel kinematic manipulator namely “The Orthoglide” along with an actuated rotational degree of freedom at the end-effector for the purpose of lower-limb rehabilitation treatments. This rehabilitation robot is an end-effector/foot-plate based mechanism which controls the ankle-joint movements to assist physiotherapists in performing therapeutic treatments along with a passive orthosis (supporting system). The conceptual and detail design of the rehabilitation device is presented along with its kinematics. Further, the functional validation of the proposed robot in terms of the kinematic motion capabilities to provide physiological motions like knee flexion-extension, hip adduction-abduction and hip flexion-extension are also investigated. The required safety features for the proposed rehabilitation robot in terms of mechanical constraints and non-actuated joints are also discussed.read more
Citations
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Book ChapterDOI
Conceptual Design and Control of a Sitting-Type Lower-Limb Rehabilitation System Established on a Spatial 3-PRRR Parallel Manipulator
Santhakumar Mohan,Parvathi Sunilkumar,Larisa Rybak,Dmitry Malyshev,Sergey Khalapyan,Anna Nozdracheva +5 more
TL;DR: The conceptual design of a new sitting-type lower-limb rehabilitation robot along with simplified motion control for its passive range of motion therapies is put forth here and the suggested system’s design is demonstrated and verified using computer-based numerical simulations.
Book ChapterDOI
Determination of the Geometric Parameters of a Parallel-Serial Rehabilitation Robot Based on Clinical Data
TL;DR: Effective numerical methods and algorithms were developed and tested that made it possible to determine the minimum geometric parameters of the active parallel mechanism that ensure the movement of the passive orthosis within the workspace under clinical data when simulating walking.
Journal ArticleDOI
Bionic design of universal gripper for nursing robot with hybrid joints and variable Equivalent Link Length
TL;DR: Inspired by the human hand, a bionic under-actuated gripper that imitates the structure of human hand is proposed to optimize the envelope effect in this article , which has the capability of almost constant force transfer ratio, which reduces the number of sensors required by the system.
Journal ArticleDOI
Design and motion control scheme of a new stationary trainer to perform lower limb rehabilitation therapies on hip and knee joints
TL;DR: In this article , a new design for stationary trainer for performing rehabilitation therapies for lower limb at the knee as well as hip joints in the sitting/lying positions is presented in this system.
References
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Proceedings ArticleDOI
A new concept of parallel robot for rehabilitation and fitness: The Lambda
TL;DR: A concept of a parallel robot that may be used for mobilization of the lower extremities that is used for fitness as well as for rehabilitation for people out of coma, after a surgical operation or for paraplegics is introduced.
Journal ArticleDOI
Design, development and control of a 2 P RP-2 P PR planar parallel manipulator for lower limb rehabilitation therapies
Santhakumar Mohan,Santhakumar Mohan,Jayant Kumar Mohanta,Stefan Kurtenbach,Jascha Norman Paris,Burkhard Corves,Mathias Huesing +6 more
TL;DR: In this paper, a vertical planar 2 P RP-2 P PR parallel manipulator along with a serial planar RRR passive orthosis (exoskeleton/supporting system) for performing sitting/lying type (stationary trainer) lower limb rehabilitation therapies in the sagittal plane is presented.
Journal ArticleDOI
A novel leg orthosis for lower limb rehabilitation robots of the sitting/lying type
TL;DR: In this paper, a novel leg orthosis for lower limb rehabilitation robots of the sitting/lying type is proposed, which consists of three joint mechanisms: hip, knee and ankle, and two sets of links: thigh and crus.
Journal ArticleDOI
Robot Assisted Neurological Rehabilitation at Home: Motivational Aspects and Concepts for Tele-Rehabilitation
TL;DR: In this paper, the authors focus on motivational aspects and tele-rehabilitation concepts, which play an important role in the development of robotic training systems for home rehabilitation, thus enabling the patient to continue high level rehabilitation training for further improvement of motor control of the affected limbs.
Journal ArticleDOI
Development and control of a new sitting-type lower limb rehabilitation robot☆
TL;DR: The effectiveness and performance of the proposed mechanism are demonstrated with a clinical gait pattern using a proportional-integral-derivative (PID) control scheme on an in-house fabricated real-time prototype.
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Mechanism Design and Kinematic Analysis of a Waist and Lower Limbs Cable-Driven Parallel Rehabilitation Robot
Zhengmeng Yang,Bin Zi,Bing Chen +2 more