Hand assembly for an arm prosthetic device

What is claimed is: 1. A hand assembly for a prosthetic arm apparatus comprising: a thumb structure; an index finger structure; a middle, ring, and pinky (MRP) structure including three finger structures; and a plurality of actuators, wherein the plurality of actuators is configured to drive the thumb structure, index finger structure and MRP structure independently from each other; and wherein the MRP structure is driven by a single actuator of the plurality of actuators through a double differential drive that allows independent movement of under-actuated finger structures of the MRP structure. 2. The hand assembly according to claim 1 , further comprising at least one tactile feedback sensor. 3. The hand assembly according to claim 2 , wherein the at least one tactile feedback sensor provides feedback information to at least one feedback actuator. 4. The hand assembly according to claim 3 , wherein the at least one tactile feedback sensor communicates wirelessly with the at least one feedback actuator. 5. The hand assembly according to claim 2 , wherein the tactile feedback sensor is configured to detect displacement of the thumb structure. 6. The hand assembly according to claim 2 , wherein the tactile feedback sensor is configured to detect force exerted on the thumb structure. 7. The hand assembly according to claim 1 , wherein the thumb, index finger structure and MRP structure are coated with a substance that aids in gripping an object. 8. The hand assembly according to claim 7 , wherein the substance is silicone. 9. The hand assembly according to claim 1 , further comprising a tactile feedback system including a tactile feedback sensor and a feedback actuator; wherein the tactile feedback sensor is configured to sense force information and to relay the force information to the feedback actuator, and wherein the feedback actuator is configured to communicate the feedback information to a user of the hand assembly. 10. The hand assembly according to claim 9 , wherein the feedback actuator is a vibration motor. 11. The hand assembly according to claim 9 , wherein the feedback actuator is incorporated into a prosthetic controller. 12. The hand assembly according to claim 9 , wherein the feedback sensor is configured to detect displacement of the thumb structure. 13. The hand assembly according to claim 9 , wherein the feedback sensor is configured to detect force exerted on the thumb structure. 14. The hand assembly according to claim 1 , wherein the three finger structures of the MRP structure include a middle finger structure, a ring finger structure, and a pinky finger structure; and wherein the middle finger structure, ring finger structure, and pinky finger structure are driven separately from the thumb structure and index finger structure by a single actuator of the plurality of actuators. 15. The hand assembly according to claim 1 , further comprising a non-backdriveable clutch configured to transfer an input torque to at least one of the thumb structure, index finger structure, or MRP structure and to lock in response to an output load on the at least one of the thumb structure, index finger structure, or MRP structure that exceeds the input torque. 16. The hand assembly according to claim 1 , further comprising two thumb drives connected to the thumb structure through a single differential, the two thumb drives configured to move the thumb structure in two degrees of freedom. 17. A prosthetic hand assembly comprising: a thumb structure; an index finger structure; and a middle, ring, and pinky (MRP) structure including three finger structures; wherein the thumb structure, index finger structure, and MRP structure are driven independently from each other by separate actuators; and wherein the MRP structure is driven by the separate actuator for independently driving the MRP structure through a double differential drive that allows independent movement of under-actuated finger structures of the MRP structure when movement of another of the three finger structures of the MRP structure is prevented. 18. The prosthetic hand assembly according to claim 17 , further comprising: two thumb drives connected to the thumb structure through a single differential, the two thumb drives configured to move the thumb structure in two degrees of freedom; an index drive configured to drive the index finger structure; and an MRP drive configured to drive the MRP structure, the MRP drive including the double differential drive. 19. The prosthetic hand assembly according to claim 18 , wherein the three finger structures of the MRP structure include a middle finger structure, a ring finger structure, and a pinky finger structure; and wherein the MRP drive is configured to drive the middle finger structure, ring finger structure, and pinky finger structure separately from one another through the double differential drive. 20. The prosthetic hand assembly according to claim 19 , further comprising a non-backdriveable clutch configured to transfer an input torque to at least one of the thumb structure, index finger structure, or MRP structure and to lock in response to an output load on the at least one of the thumb structure, index finger structure, or MRP structure that exceeds the input torque.