Abstract: Systems and methods for displaying augmented reality clinical movements may use an augmented reality device to display aspects of a clinical movement. The systems and methods may use a motion capture device to capture the clinical movement. A method may include analyzing information about the clinical movement to determine a path of motion representative of at least a portion of the clinical movement. The method may automatically define a path region or a virtual target in an augmented reality environment overlaid on a real environment. The method may display the path region or the virtual target on an augmented reality display.

Abstract: Systems and methods for displaying augmented reality clinical movements may use an augmented reality device to display aspects of a clinical movement. The systems and methods may use a motion capture device to capture the clinical movement. A method may include analyzing information about the clinical movement to determine a path of motion representative of at least a portion of the clinical movement. The method may automatically define a path region or a virtual target in an augmented reality environment overlaid on a real environment. The method may display the path region or the virtual target on an augmented reality display.

Abstract: Systems and methods for displaying augmented reality clinical movements may use an augmented reality device to display aspects of a clinical movement. The systems and methods may use a motion capture device to capture the clinical movement. A method may include analyzing information about the clinical movement to determine a path of motion representative of at least a portion of the clinical movement. The method may automatically define a path region or a virtual target in an augmented reality environment overlaid on a real environment. The method may display the path region or the virtual target on an augmented reality display.

Abstract: Systems and methods for displaying augmented reality clinical movements may use an augmented reality device to display aspects of a clinical movement. The systems and methods may use a motion capture device to capture the clinical movement. A method may include analyzing information about the clinical movement to determine a path of motion representative of at least a portion of the clinical movement. The method may automatically define a path region or a virtual target in an augmented reality environment overlaid on a real environment. The method may display the path region or the virtual target on an augmented reality display.

Abstract: Systems and methods for displaying augmented reality clinical movements may use an augmented reality device to display aspects of a clinical movement. The systems and methods may use a motion capture device to capture the clinical movement. A method may include analyzing information about the clinical movement to determine a path of motion representative of at least a portion of the clinical movement. The method may automatically define a path region or a virtual target in an augmented reality environment overlaid on a real environment. The method may display the path region or the virtual target on an augmented reality display.

Abstract: Systems and methods for displaying augmented reality clinical movements may use an augmented reality device to display aspects of a clinical movement. The systems and methods may use a motion capture device to capture the clinical movement. A method may include analyzing information about the clinical movement to determine a path of motion representative of at least a portion of the clinical movement. The method may automatically define a path region or a virtual target in an augmented reality environment overlaid on a real environment. The method may display the path region or the virtual target on an augmented reality display.

Abstract: Embodiments of a system and method for evaluating or predicting therapy adherence are generally described herein. A system may include a display and a processor connected to the display to provide a user interface, including a calendar with a plurality of activities of a protocol. The plurality of activities may include exercises, education, questionnaires, etc., which may be presented on particular days or at particular times. Patient adherence to the protocol may be determined, and the display may provide information related to the patient adherence to a clinician. The display may provide a prediction about future patient adherence. The processor may, based on a determination about future patient adherence or past patient adherence, automatically modify the protocol. After the protocol is modified, the calendar may be updated and the display may show the updated calendar.

Abstract: An instructional gaming apparatus and method implements adaptive instructional gaming from a start point along a trajectory to a final goal. The system comprises a receiver for electronically receiving data from a user. The system further includes an electronic subject matter database with a clearly defined set of discrete heuristics combined with an electronic processor for the creation of an electronic instructional gaming curriculum unique to the individual user and their goals to enable proficiency in the given subject matter. Performance is periodically tested. And electronic means allows the information from the user performance database to be incorporated into the discrete heuristic utilized by the electronic processor for the creation of future electronic instructional gaming curriculums and/or individual instructional gaming lessons for the specific user in the given subject.

Abstract: An instructional gaming apparatus and method implements adaptive instructional gaming from a start point along a trajectory to a final goal. The system comprises a receiver for electronically receiving data from a user. The system further includes an electronic subject matter database with a clearly defined set of discrete heuristics combined with an electronic processor for the creation of an electronic instructional gaming curriculum unique to the individual user and their goals to enable proficiency in the given subject matter. Performance is periodically tested. And electronic means allows the information from the user performance database to be incorporated into the discrete heuristic utilized by the electronic processor for the creation of future electronic instructional gaming curriculums and/or individual instructional gaming lessons for the specific user in the given subject.