Robots are becoming more interactive and assisting to human beings day by day. They are serving humanity in the fields of industry, defense and medicine. Exoskeletons are also devices that reside in category of wearable robotics. An exoskeleton is an external structural mechanism with joints and links corresponding to those of the human body. With applications in rehabilitation medicine and virtual reality simulation, exoskeletons offer benefits for both disabled and healthy populations. Exoskeletons can be used as a capability magnifier or assisting device. This paper presents a proposed design for smart active exoskeleton for lower limbs. This proposed exoskeleton design not only assist a person but also tries to improve its GAIT. The twi...
Controlling wearable exoskeletons to interact with people suffering from locomotion disabilities due...
Successful motor rehabilitation after stroke or traumatic brain/spinal cord injures requires ahighly...
The paper describes conceptual design, control strategies, and partial simulation for a new fully au...
Abstract: The successful motor rehabilitation of stroke, traumatic brain/spinal cord/sport injured p...
Wearable devices are fast evolving to address mobility and autonomy needs of elderly people who woul...
Over the years, the exoskeleton robot has become an effective technical means in the field of limb a...
This paper addresses a design for an exoskeleton used for human locomotion purposes in cases of peop...
Recovery of upper and lower limbs function is essential to reach independence in patients with neuro...
Powered Exoskeletons are wearable robots that are very helpful tools to assist therapist in the reha...
International audienceNeurologic injuries, such as stroke, spinal cord injuries, and weaknesses of s...
This paper introduces a novel upper limb robotic exoskeleton designed to assist industrial operators...
Neuromotor rehabilitation and recovery of upper limb functions are essential to improve the life qua...
Powered exoskeletons are designed to assist and protect the wearer. Depending on the situation they ...
Robotic exoskeletons provide programmable, consistent and controllable active therapeutic assistance...
Stroke has become the leading cause of disability and the second-leading cause of mortality worldwid...
Controlling wearable exoskeletons to interact with people suffering from locomotion disabilities due...
Successful motor rehabilitation after stroke or traumatic brain/spinal cord injures requires ahighly...
The paper describes conceptual design, control strategies, and partial simulation for a new fully au...
Abstract: The successful motor rehabilitation of stroke, traumatic brain/spinal cord/sport injured p...
Wearable devices are fast evolving to address mobility and autonomy needs of elderly people who woul...
Over the years, the exoskeleton robot has become an effective technical means in the field of limb a...
This paper addresses a design for an exoskeleton used for human locomotion purposes in cases of peop...
Recovery of upper and lower limbs function is essential to reach independence in patients with neuro...
Powered Exoskeletons are wearable robots that are very helpful tools to assist therapist in the reha...
International audienceNeurologic injuries, such as stroke, spinal cord injuries, and weaknesses of s...
This paper introduces a novel upper limb robotic exoskeleton designed to assist industrial operators...
Neuromotor rehabilitation and recovery of upper limb functions are essential to improve the life qua...
Powered exoskeletons are designed to assist and protect the wearer. Depending on the situation they ...
Robotic exoskeletons provide programmable, consistent and controllable active therapeutic assistance...
Stroke has become the leading cause of disability and the second-leading cause of mortality worldwid...
Controlling wearable exoskeletons to interact with people suffering from locomotion disabilities due...
Successful motor rehabilitation after stroke or traumatic brain/spinal cord injures requires ahighly...
The paper describes conceptual design, control strategies, and partial simulation for a new fully au...