An interactive virtual care system may include a user sensory module to acquire multi-modal user data related to user movement. A data analysis module may compare the multi-modal user data to predetermined historical user data and/or statistical norm data for users to identify an anomaly in the user
An interactive virtual care system may include a user sensory module to acquire multi-modal user data related to user movement. A data analysis module may compare the multi-modal user data to predetermined historical user data and/or statistical norm data for users to identify an anomaly in the user movement.
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1. An interactive virtual care system comprising: at least one processor; and a memory storing machine readable instructions that when executed by the at least one processor cause the at least one processor to:acquire, by a user sensory device, user data related to user movement of at least one port
1. An interactive virtual care system comprising: at least one processor; and a memory storing machine readable instructions that when executed by the at least one processor cause the at least one processor to:acquire, by a user sensory device, user data related to user movement of at least one portion of a user's body, the user movement of the at least one portion of the user's body being performed at a distance away from the user sensory device;digitize, in real-time, the user movement of the at least one portion of the user's body based on an interpretation of the acquired user data;produce a computer-generated version of the user movement of the at least one portion of the user's body; transmit a signal of the digitized user movement of the at least one portion of the user's body based on the interpretation of the acquired user data and the computer-generated version of the user movement of the at least one portion of the user's body, wherein the signal is to provide for a display, at a responder interface device, of the digitized user movement of the at least one portion of the user's body, and highlighting of the digitized user movement of the at least one portion of the user's body in the display of the digitized user movement of the at least one portion of the user's body, wherein the computer-generated version of the user movement of the at least one portion of the user's body includes joints of the user's body displayed as connectors and/or skeletal features of the user's body displayed as line segments between the connectors;compare the acquired user data to predetermined historical user data and/or statistical norm data for other users to identify at least one anomaly in the user movement of the at least one portion of the user's body;display, at the responder interface device, the computer-generated version of the user movement of the at least one portion of the user's body, highlighting the at least one anomaly in the user movement of the at least one portion of the user's body identified to provide interactive virtual care; andadditionally display, at the responder interface device, a real-time version of the user movement of the at least one portion of the user's body superimposed on the computer-generated version of the user movement of the at least one portion of the user's body. 2. The system of claim 1, wherein the user sensory device comprises a video sensor to acquire a video stream of the user movement of the at least one portion of the user's body. 3. The system of claim 1, wherein the user sensory device comprises an audio sensor to acquire user data related to speech. 4. The system of claim 1, wherein the machine readable instructions when executed by the at least one processor further cause the at least one processor to: additionally display, at the responder interface device, the real-time version of the user movement of the at least one portion of the user's body adjacent to the computer-generated version of the user movement of the at least one portion of the user's body. 5. The system of claim 1, wherein the machine readable instructions when executed by the at least one processor further cause the at least one processor to: display, at a user interface device, the computer-generated version of the user movement of the at least one portion of the user's body; andadditionally display, at the user interface device, a real-time version of the user movement adjacent to and/or superimposed on the computer-generated version of the user movement of the at least one portion of the user's body. 6. The system of claim 1, wherein the machine readable instructions when executed by the at least one processor further cause the at least one processor to: display, at a user interface device, the computer-generated version of the user movement of the at least one portion of the user's body and highlight the at least one anomaly in the user movement of the at least one portion of the user's body identified in the computer-generated version of the user movement of the at least one portion of the user's body. 7. The system of claim 1, wherein the user movement of the at least one portion of the user's body includes walking, and the at least one portion of the user's body comprises one or both of the user's legs. 8. The system of claim 1, wherein the highlights of the digitized user movement of the at least one portion of the user's body include a computer-generated display of at least one internal feature of the at least one portion of the user's body. 9. The system of claim 1, wherein the predetermined historical user data and the statistical norm data for the other users respectively include computer-generated versions of movements of the at least one portion of the user's body and movements of the same at least one portion of bodies of the other users. 10. A method for interactive virtual care, the method comprising: acquiring, by at least one processor, user data related to user movement of at least one portion of a user's body by using a user sensory device, the user movement of the at least one portion of the user's body being performed at a distance away from the user sensory device;digitizing, by the at least one processor, the user movement of the at least one portion of the user's body based on an interpretation of the acquired user data by the user sensory device;producing, by the at least one processor, a computer-generated version of the user movement of the at least one portion of the user's body;generating, by the at least one processor, a signal of the digitized user movement of the at least one portion of the user's body based on the interpretation of the acquired user data by the user sensory device and the computer-generated version of the user movement of the at least one portion of the user's body, wherein the signal is to provide for a display of the digitized usermovement of the at least one portion of the user's body, and highlighting of the digitized user movement of the at least one portion of the user's body in the display of the digitized user movement of the at least one portion of the user's body, wherein the highlights of the digitized user movement of the at least one portion of the user's body include a computer-generated display of at least one internal feature of the at least one portion of the user's body;comparing, by the at least one processor, the acquired user data to predetermined historical user data and/or statistical norm data for other users to identify at least one anomaly in the user movement of the at least one portion of the user's body;highlighting, by the at least one processor, the at least one anomaly in the user movement of the at least one portion of the user's body in the computer-generated version of the user movement of the at least one portion of the user's body; andproviding, by the at least one processor, for display, using the signal, the highlights of the at least one anomaly in the user movement of the at least one portion of the user's body to provide interactive virtual care, anda real-time version of the user movement of the at least one portion of the user's body superimposed on the computer-generated version of the user movement of the at least one portion of the user's body. 11. The method of claim 10, further comprising: additionally providing, by the at least one processor, for display the real-time version of the user movement of the at least one portion of the user's body adjacent to the computer-generated version of the user movement of the at least one portion of the user's body. 12. The method of claim 10, further comprising: generating, by the at least one processor, metrics related to a degree of the at least one anomaly in the user movement of the at least one portion of the user's body. 13. The method of claim 10, further comprising: providing, by the at least one processor, for display joints of the user's body as connectors and/or skeletal features of the user's body as line segments between the connectors in the computer-generated version of the user movement of the at least one portion of the user's body. 14. The method of claim 10, wherein the user sensory device comprises a video sensor to acquire a video stream of the user movement of the at least one portion of the user's body. 15. The method of claim 10, wherein the user sensory device comprises an audio sensor to acquire user data related to speech. 16. A non-transitory computer readable medium having stored thereon a computer executable program to provide interactive virtual care, the computer executable program when executed causes a computer system to: acquire, by at least one processor, user data related to user movement of at least one portion of a user's body by using a user sensory device the user movement of the at least one portion of the user's body being performed at a distance away from the user sensory device;digitize, by the at least one processor, the user movement of the at least one portion of the user's body based on an interpretation of the acquired user data by the user sensory device;produce, by the at least one processor, a computer-generated version of the user movement of the at least one portion of the user's body;generate, by the at least one processor, a signal of the digitized user movement of the at least one portion of the user's body based on the interpretation of the acquired user data by the user sensory device and the computer-generated version of the user movement of the at least one portion of the user's body, wherein the signal is to provide for a display of the digitized user movement of the at least one portion of the user's body, and highlighting of the digitized user movement of the at least one portion of the user's body in the display of the digitized user movement of the at least one portion of the user's body;compare, by the at least one processor, the acquired user data to predetermined historical user data and/or statistical norm data for other users to identify at least one anomaly in the user movement of the at least one portion of the user's body, wherein the predetermined historical user data and the statistical norm data for the other users respectively include computer-generated versions of movements of the at least one portion of the user's body and movements of the same at least one portion of bodies of the other users;highlight, by the at least one processor, the at least one anomaly in the user movement of the at least one portion of the user's body in the computer-generated version of the user movement of the at least one portion of the user's body; andprovide, by the at least one processor, for display, using the signal, the highlights of the at least one anomaly in the user movement of the at least one portion of the user's body to provide interactive virtual care, anda real-time version of the user movement of the at least one portion of the user's body superimposed on the computer-generated version of the user movement of the at least one portion of the user's body. 17. The non-transitory computer readable medium of claim 16, the computer executable program when executed further causes the computer system to: provide, by the at least one processor, for display joints of the user's body as connectors and/or skeletal features of the user's body as line segments between the connectors in the computer-generated version of the user movement of the at least one portion of the user's body. 18. The non-transitory computer readable medium of claim 16, wherein the highlights of the digitized user movement of the at least one portion of the user's body include a computer-generated display of at least one internal feature of the at least one portion of the user's body. 19. The non-transitory computer readable medium of claim 16, wherein the user sensory device comprises a video sensor to acquire a video stream of the user movement of the at least one portion of the user's body. 20. The non-transitory computer readable medium of claim 16, wherein the user sensory device comprises an audio sensor to acquire user data related to speech.
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이 특허에 인용된 특허 (27)
Akers, William Rex; Canterbury, Jeff W.; Miller, Blake B.; Walker, Craig Alan; King, James R.; Graves, Jerry L.; Patterson, Jay Travis; Normyle, Robert J.; Hale, Kevin P.; Watts, Brandon T.; Rau, Karen D.; Jenkins, Deborah L., Apparatus and method for computerized multi-media medical and pharmaceutical data organization and transmission.
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