Abstract: The present invention integrates an actuated tilting rehabilitation table, video tracking of the patient arm and opposite shoulder, a low-friction forearm support with grasping force sensing, remote data transmission and additional weighing means, one or more large displays, a computer and a plurality of simulation exercises, such as video games. The patient can be monitored by a local or remote clinician. The table tilts in order to increase exercise difficulty due to gravity loading on the patient's arm and shoulder. In one embodiment, the present the invention includes an actuated tilting table which tilts in four degrees of freedom.

Abstract: The present invention integrates an actuated tilting rehabilitation table, video tracking of the patient arm and opposite shoulder, a low-friction forearm support with grasping force sensing, remote data transmission and additional weighing means, one or more large displays, a computer and a plurality of simulation exercises, such as video games. The patient can be monitored by a local or remote clinician. The table tilts in order to increase exercise difficulty due to gravity loading on the patient's arm and shoulder. In one embodiment, the present the invention includes an actuated tilting table which tilts in four degrees of freedom.

Abstract: The present invention integrates an actuated tilting rehabilitation table, video tracking of the patient arm and opposite shoulder, a low-friction forearm support with grasping force sensing, remote data transmission and additional weighing means, one or more large displays, a computer and a plurality of simulation exercises, such as video games. The patient can be monitored by a local or remote clinician. The table tilts in order to increase exercise difficulty due to gravity loading on the patients arm and shoulder. In one embodiment, the present the invention includes an actuated tilting table which tilts in four degrees of freedom.

Abstract: The present invention relates to a force feedback and sensing system for a hand in which an actuator system and sensing system is coupled to a palm base attached to the hand or a glove. The actuator system includes double acting actuators which provide force feedback against digits of the hand to simulate a real experience a user would have if directly manipulating a real object. The actuators are rotatably mounted to the palm base through a two degrees of freedom rotation joint.

Abstract: The present invention relates to a system for rehabilitating an ankle in which a mobile platform receives a patient's foot. The mobile platform can be moved in six degrees of freedom. The position and orientation of the mobile platform is measured in relation to the fixed platform in six degrees of freedom. The force exerted by the foot against the mobile platform is measured in six degrees of freedom. The measured position and measured force are forwarded to an electronic interface and fed to a programmable computer. The programmable computer determines desired force feedback to be applied by the controller interface to the mobile platform. The desired feedback signal moves the mobile platform to a desired position or applies a desired force or torque to the mobile platform. The rehabilitation system can include simulation of virtual objects which can be moved by the user to simulate an exercise. For example, the virtual reality simulation can include exercises for balance, flexibility and strength.