System for powered ankle-foot prosthesis with active control of dorsiflexion-plantarflexion and inversion-eversion

The invention claimed is: 1. A prosthesis comprising: a coupling configured to engage a residual limb of a subject; a shaft having a first end connected to the coupling and an opposing second end; a foot piece connected to the second end of the shaft, the foot piece comprising an ankle plate and a sole piece configured to contact a surface, the ankle plate including a rear and a front; a first drum; a second drum; and a cable coupled to (i) the rear of the ankle plate (ii) the front of the ankle plate, (iii) the first drum, and (iv) the second drum, the cable running sequentially from (a) the rear of the ankle plate (b) to the first drum (c) to the front of the ankle plate (d) to the second drum (e) to the rear of the ankle plate, and wherein a position of the ankle plate is configured to have at least two degrees of freedom about a joint of the foot piece. 2. The prosthesis of claim 1 , wherein the position of the ankle plate can adapt to the surface in dorsiflexion-plantarflexion directions and inversion-eversion directions. 3. The prosthesis of claim 1 , wherein the joint is configured to transmit rotary motion in a transverse plane, the joint including an elastomer to provide a constant passive stiffness to the ankle plate. 4. The prosthesis of claim 1 , wherein the ankle plate is one of a carbon-fiber plate or a fiberglass-composite plate. 5. The prosthesis of claim 1 , which includes an ankle plate pulley positioned on the front of the ankle plate, and wherein the cable runs from the rear of the ankle plate, to the first drum, through a track of the ankle plate pulley, to the second drum, to the rear of the ankle plate. 6. A prosthesis comprising: a coupling configured to engage a residual limb of a subject; a shaft having a first end connected to the coupling and an opposing second end; a foot piece connected to the second end of the shaft, the foot piece comprising an ankle plate and a sole piece configured to contact a surface; at least one computer configured to detect a state of the foot piece and to transmit an indication of the state of the foot piece; and a motor assembly including a first motor, a second motor, a first drum, a second drum and a cable, the cable coupled to (i) a rear of the ankle plate, (ii) a front of the ankle plate, (iii) the first drum, and (iv) the second drum and running sequentially from (a) the rear of the ankle plate (b) to the first drum (c) to the front of the ankle plate (d) to the second drum (e) to the rear of the ankle plate, and wherein the motor assembly is configured to receive the indication of the state of the foot piece and to control a position of the ankle plate about a joint of the foot piece in at least two degrees of freedom based on the state of the foot piece using the first and second motors. 7. The prosthesis of claim 6 , wherein the state of the foot piece is dependent on a phase of a gait of the subject, and wherein the phase of the gait of the subject is one of heel-strike, foot-flat, and toe-off. 8. The prosthesis of claim 7 , wherein the computer includes at least one of an impedance controller and an admittance controller. 9. The prosthesis of claim 8 , wherein the admittance controller is activated during heel-strike, and the impedance controller is activated during foot-flat and toe-off. 10. The prosthesis of claim 6 , wherein the motor assembly further comprises first and second gearboxes. 11. The prosthesis of claim 10 , wherein the position of the ankle plate is controlled by the cable. 12. The prosthesis of claim 11 , wherein the cable is a Bowden cable. 13. The prosthesis of claim 12 , wherein the Bowden cable allows for the motor assembly to be placed in a location alternative to the shaft. 14. The prosthesis of claim 6 , wherein the joint is configured to transmit rotary motion in a transverse plane, the joint including an elastomer to provide a constant passive stiffness to the ankle plate. 15. The prosthesis of claim 6 , further comprising a plurality of torque sensors disposed within the prosthesis and configured to transmit torque feedback; and a finite state machine connected to the at least one computer and configured to receive the torque feedback and to transmit a desired trajectory to the motor assembly. 16. The prosthesis of claim 6 , wherein the ankle plate is one of a carbon-fiber plate or a fiberglass-composite plate. 17. The prosthesis of claim 6 , which includes an ankle plate pulley positioned on the front of the ankle plate, and wherein the cable runs from the rear of the ankle plate, to the first drum, through a track of the ankle plate pulley, to the second drum, to the rear of the ankle plate. 18. The prosthesis of claim 17 , wherein the motor assembly further includes a front pair of pulleys and a rear pair of pulleys, and wherein the cable runs from the rear of the ankle plate, through a track of a first one of the back pair of pulleys, through a track of a first one of the front pair of pulleys, through the track of the ankle plate pulley, through a track of a second one of the front pair of pulleys, through a track of a second one of the back pair of pulleys, to the rear of the ankle plate. 19. The prosthesis of claim 6 , wherein the motor assembly further includes a front pair of pulleys and a rear pair of pulleys, the cable running sequentially through (a) a track of a first one of the back pair of pulleys, (b) a track of a first one of the front pair of pulleys, (c) a track of a second one of the front pair of pulleys, and (d) a track of a second one of the back pair of pulleys. 20. The prosthesis of claim 6 , wherein the motor assembly is configured to receive the indication of the state of the foot piece and to control the position of the ankle plate (i) through Dorsiflexion-Platarflexion motion by rotating the first and second motors in a same direction, and (ii) through Inversion-Eversion motion by rotating the first and second motors in opposite directions. 21. The prosthesis of claim 6 , wherein the motor assembly further includes a first gearbox and a second gear box operatively coupled to the first and second motors, respectively.