Brain–machine interfaces for controlling lower-limb powered robotic systems

Wearable devices such as exoskeletons are being opted frequently during rehabilitation processes for the post stroke recovery. Such devices are playing important role in the development of assistive rehabilitation robotic systems. In this paper three control strategies MPC and LQR and PID are introduced which were applied to knee joint of lower limb exoskeleton model for passive exercise. The two controls MPC and LQR are model based control which empowers them for stable responses. In this paper the analysis of robustness of control is done under the noisy and disturbance conditions. The results showed good performance of the exoskeleton model with the applied controls in the provided condition. In the future work the applied controls will be implemented on hardware.

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Intra-cortical brain-machine interfaces for controlling upper-limb powered muscle and robotic systems in spinal cord injury

Clinical Neurology and Neurosurgery ◽

10.1016/j.clineuro.2020.106069 ◽

2020 ◽

Vol 196 ◽

pp. 106069

Author(s):

Nida Fatima ◽

Ashfaq Shuaib ◽

Maher Saqqur

Keyword(s):

Spinal Cord ◽

Spinal Cord Injury ◽

Upper Limb ◽

Robotic Systems ◽

Brain Machine Interfaces ◽

Cord Injury

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Systematic Review of Intelligent Algorithms in Gait Analysis and Prediction for Lower Limb Robotic Systems

IEEE Access ◽

10.1109/access.2021.3104464 ◽

2021 ◽

pp. 1-1

Author(s):

Rania Kolaghassi ◽

Mohamad Kenan Al-Hares ◽

Konstantinos Sirlantzis

Keyword(s):

Systematic Review ◽

Gait Analysis ◽

Lower Limb ◽

Robotic Systems ◽

Intelligent Algorithms

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Development of a Parallel Manipulator-Based Multifunction Mobility Assistive Device

Journal of Mechanisms and Robotics ◽

10.1115/1.4044536 ◽

2019 ◽

Vol 11 (6) ◽

Author(s):

Ahmed Asker ◽

Samy F. M. Assal

Keyword(s):

Lower Limb ◽

Parallel Manipulator ◽

Upright Position ◽

Robotic Systems ◽

Assistive Device ◽

Finite Element Analyses ◽

Natural Manner ◽

Personal Assistance ◽

Sit To Stand ◽

Position And Orientation

Abstract Developing robotic systems for reducing the dependence of elderly on personal assistance is one of the most recent hot topics in robotics research. This paper proposes a multifunction mobility assistive device, which consists of an assisting parallel manipulator carried over an active walker. It is developed to interactively assist in various lower limb activities, namely, sit-to-stand, walking, bed or toilet to wheelchair transfer, and support in the upright position. The assisting parallel manipulator is constructed based on two of the nonconventional structure of the 3-RPR parallel manipulator. This structure offers kinematic decoupling between the position and orientation and free of singularity suitable workspace as well as high rigidity and payload capability. Kinematic, dynamic, and finite element analyses are performed to ensure the functionality of the device. A prototype of the device is constructed to verify the applicability of the device. The prototype is shown to be suitable for assisting subjects to stand up in a natural manner.

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Lower-Limb Robotic Rehabilitation: Literature Review and Challenges

Journal of Robotics ◽

10.1155/2011/759764 ◽

2011 ◽

Vol 2011 ◽

pp. 1-11 ◽

Cited By ~ 217

Author(s):

Iñaki Díaz ◽

Jorge Juan Gil ◽

Emilio Sánchez

Keyword(s):

Lower Limb ◽

General Assumption ◽

Robotic Systems ◽

Clinical Tests ◽

Robotic Rehabilitation ◽

Starting Point ◽

Upper And Lower Extremities ◽

Limb Rehabilitation ◽

Current Systems ◽

Lower Limb Rehabilitation

This paper presents a survey of existing robotic systems for lower-limb rehabilitation. It is a general assumption that robotics will play an important role in therapy activities within rehabilitation treatment. In the last decade, the interest in the field has grown exponentially mainly due to the initial success of the early systems and the growing demand caused by increasing numbers of stroke patients and their associate rehabilitation costs. As a result, robot therapy systems have been developed worldwide for training of both the upper and lower extremities. This work reviews all current robotic systems to date for lower-limb rehabilitation, as well as main clinical tests performed with them, with the aim of showing a clear starting point in the field. It also remarks some challenges that current systems still have to meet in order to obtain a broad clinical and market acceptance.

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