High-level spinal cord injury (SCI) survivors face every day two related problems: recovering motor skills and regaining functional independence. Body machine interfaces (BoMIs) empower people with sever motor disabilities with the ability to control an external device, but they also offer the opportunity to focus concurrently on achieving rehabilitative goals. In this study we developed a portable, and low-cost BoMI that addresses both problems. The BoMI remaps the user's residual upper body mobility to the two coordinates of a cursor on a computer monitor. By controlling the cursor, the user can perform functional tasks, such as entering text and playing games. This framework also allows the mapping between the body and the cursor space t...
Many power wheelchair control interfaces are not sufficient for individuals with severely limited up...
Rehabilitation for recovering the nerve motor system of patients with neuromuscular damage, such as ...
This dissertation seeks to develop novel neurorehabilitative therapies and neuroprostheses for resto...
Body machine interfaces (BMIs) are used by people with severe motor disabilities to control external...
The concept of human motor redundancy attracted much attention since the early studies of motor cont...
Body-machine interfaces (BMIs) decode upper-body motion for operating devices, such as computers and...
The goal of a body-machine interface (BMI) is to map the residual motor skills of the users into eff...
This study tested the use of a customized body-machine interface (BoMI) for enhancing functional cap...
The body-machine interfaces (BMIs) map the subjects' movements into the low dimensional control spac...
Body-machine interfaces establish a way to interact with a variety of devices, allowing their users ...
Regaining functional independence plays a crucial role to improve the qualify of life of individuals...
The closed-loop control of rehabilitative technologies by neural commands has shown a great potentia...
Survivors of spinal cord injury need to reorganize their residual body movements for interacting wit...
The quality of life of people suffering from severe motor disabilities can benefit from the use of c...
The purpose of this study was to identify rehabilitative effects and changes in white matter microst...
Many power wheelchair control interfaces are not sufficient for individuals with severely limited up...
Rehabilitation for recovering the nerve motor system of patients with neuromuscular damage, such as ...
This dissertation seeks to develop novel neurorehabilitative therapies and neuroprostheses for resto...
Body machine interfaces (BMIs) are used by people with severe motor disabilities to control external...
The concept of human motor redundancy attracted much attention since the early studies of motor cont...
Body-machine interfaces (BMIs) decode upper-body motion for operating devices, such as computers and...
The goal of a body-machine interface (BMI) is to map the residual motor skills of the users into eff...
This study tested the use of a customized body-machine interface (BoMI) for enhancing functional cap...
The body-machine interfaces (BMIs) map the subjects' movements into the low dimensional control spac...
Body-machine interfaces establish a way to interact with a variety of devices, allowing their users ...
Regaining functional independence plays a crucial role to improve the qualify of life of individuals...
The closed-loop control of rehabilitative technologies by neural commands has shown a great potentia...
Survivors of spinal cord injury need to reorganize their residual body movements for interacting wit...
The quality of life of people suffering from severe motor disabilities can benefit from the use of c...
The purpose of this study was to identify rehabilitative effects and changes in white matter microst...
Many power wheelchair control interfaces are not sufficient for individuals with severely limited up...
Rehabilitation for recovering the nerve motor system of patients with neuromuscular damage, such as ...
This dissertation seeks to develop novel neurorehabilitative therapies and neuroprostheses for resto...