Method and system for body weight support

The invention claimed is: 1. A body weight support (BWS) system, comprising: a harness coupled to a plurality of cables, wherein the harness is configured to be worn by a subject; an actuator for each of the plurality of cables, each actuator configured to place a tension on a corresponding cable in response to an electrical signal; at least one force sensor configured to provide an electrical signal corresponding to forces applied to the harness; at least one motion sensor configured to provide an electrical signal corresponding to changes in acceleration of the subject; and a controller configured to control the plurality of actuators according to one of two modes: i) a steady state body weight to be algebraically added to or removed from the subject by calculating instantaneous tensions to be placed on each of the plurality of the cables in accordance with the subject's input data, and ii) a transient body weight to be algebraically added to or removed from the subject by calculating instantaneous tensions to be placed on each of the plurality of the cables in accordance with a predetermined dataset, wherein the controller is configured to receive the electrical signal from the at least one force sensor, the electrical signal from the at least one motion sensor, and data associated with one of the two modes (i) and (ii). 2. The BWS system of claim 1 , further comprising: a screen configured to display scenes corresponding to the predetermined dataset. 3. The BWS system of claim 1 , wherein the controller controls forces applied to the harness based on N degrees of freedom, and at least N+1 cables. 4. The BWS system of claim 3 , wherein the controller is configured to solve for tension on each of the plurality of cables based on J T ƒ=w, wherein J is a N+1×N Jacobian matrix; ƒ is a N+1×1 vector of calculated cable tensions; and w is a N×1 force vector. 5. The BWS system of claim 4 , wherein N is 6. 6. The BWS system of claim 4 , wherein N is 3. 7. The BWS system of claim 4 , wherein N is 1. 8. The BWS system of claim 1 , further comprising: a treadmill configured to move in each of X-Y-Z directions, in accordance with a prescribed rate of motion or in accordance with mode (ii). 9. The BWS system of claim 8 , further comprising: one or more force sensors disposed between base of the treadmill and a base of an enclosure housing the BWS system, to provide forces in at least the vertical direction. 10. The BWS system of claim 1 , further comprising: a foot apparatus configured to be worn by the subject, wherein the apparatus configured to move in each of X-Y-Z directions, in accordance with a prescribed rate of motion or in accordance with mode (ii). 11. A method of providing a body weight support (BWS), comprising: providing a harness coupled to a plurality of cables, wherein the harness is worn by a subject; activating an actuator for each of the plurality of cables, each actuator configured to place a tension on a corresponding cable in response to an electrical signal; sensing forces applied to the harness by at least one force sensor configured to provide an electrical signal corresponding to the sensed forces; measuring acceleration of the subject by at least one motion sensor configured to provide an electrical signal corresponding to changes in the subject's acceleration; and controlling each of the actuators according to one of two modes: i) a steady state body weight to be algebraically added to or removed from the subject by calculating instantaneous tensions to be placed on each of the plurality of the cables in accordance with the subject's input data, and ii) a transient body weight to be algebraically added to or removed from the subject by calculating instantaneous tensions to be placed on each of the plurality of the cables in accordance with a predetermined dataset, wherein the controller receives the electrical signal from the at least one force sensor, the electrical signal from the at least one motion sensor, and data associated with one of the two modes (i) and (ii). 12. The method of claim 11 , further comprising: providing a screen configured to display scenes corresponding to the predetermined dataset. 13. The method of claim 11 , wherein the controller controls forces applied to the harness based on N degrees of freedom, and at least N+1 cables. 14. The method of claim 13 , wherein the controller solves for tension on each of the plurality of cables based on J T ƒ=w, wherein J is a N+1×N Jacobian matrix; ƒ is a N+1×1 vector of calculated cable tensions; and w is a N×1 force vector. 15. The method of claim 14 , wherein N is 6. 16. The method of claim 14 , wherein N is 3. 17. The method of claim 14 , wherein N is 1. 18. The method of claim 11 , further comprising: providing a treadmill configured to move in each of X-Y-Z directions, in accordance with a prescribed rate of motion or in accordance with mode (ii). 19. The method of claim 18 , further comprising: providing one or more force sensors disposed between base of the treadmill and a base of an enclosure housing the BWS system to provide forces in at least the vertical direction. 20. The method of claim 11 , further comprising: providing a foot apparatus configured to be worn by the subject, wherein the apparatus configured to move in each of X-Y-Z directions, in accordance with a prescribed rate of motion or in accordance with mode (ii).