Add to ORKGRobotic gait training after spinal cord injury is of high priority to maximize independence and improve the health condition of these patients. Current rehabilitation robots are expensive and heavy, and are generally found only in the clinic. To overcome these issues, we present the design of a low-cost, low-weight, personalized and easy-to-use robotic exoskeleton for incomplete spinal cord injured subjects based on simple modular components that are assembled on the current passive orthopedic supports. The paper also presents a preliminary experimental assessment of the assistive device on one subject with spinal cord injury that can control hip flexion, but lacks control of knee and ankle muscles. Results show that gait velocity, stride l...
Abstract Background Powered exoskeleton can improve the mobility for people with movement deficits b...
Powered robotic exoskeletons are an emerging technology of wearable orthoses that can be used as an ...
Abstract Powered robotic exoskeletons are an emerging technology of wearable orthoses ...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
Walking rehabilitation using exoskeletons is of high importance to maximize independence and improve...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
his paper presents the design and implementation of a low cost, yet robust, three degrees of freedom...
Walking rehabilitation using exoskeletons is of high importance to maximize independence and improve...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
Robotic gait training after spinal cord injury (SCI) is of high priority to maximize independence an...
Robotic gait training after spinal cord injury (SCI) is of high priority to maximize independence an...
Robotic gait training after spinal cord injury (SCI) is of high priority to maximize independence an...
There are 6.8 million people in the United States that have mobility disorders and must rely on the ...
There are 6.8 million people in the United States that have mobility disorders and must rely on the ...
Abstract Background Powered exoskeleton can improve the mobility for people with movement deficits b...
Powered robotic exoskeletons are an emerging technology of wearable orthoses that can be used as an ...
Abstract Powered robotic exoskeletons are an emerging technology of wearable orthoses ...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
Walking rehabilitation using exoskeletons is of high importance to maximize independence and improve...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
his paper presents the design and implementation of a low cost, yet robust, three degrees of freedom...
Walking rehabilitation using exoskeletons is of high importance to maximize independence and improve...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
Robotic gait training after spinal cord injury is of high priority to maximize independence and impr...
Robotic gait training after spinal cord injury (SCI) is of high priority to maximize independence an...
Robotic gait training after spinal cord injury (SCI) is of high priority to maximize independence an...
Robotic gait training after spinal cord injury (SCI) is of high priority to maximize independence an...
There are 6.8 million people in the United States that have mobility disorders and must rely on the ...
There are 6.8 million people in the United States that have mobility disorders and must rely on the ...
Abstract Background Powered exoskeleton can improve the mobility for people with movement deficits b...
Powered robotic exoskeletons are an emerging technology of wearable orthoses that can be used as an ...
Abstract Powered robotic exoskeletons are an emerging technology of wearable orthoses ...