Actuators and methods of use

What is claimed is: 1. A lattice device comprising: a first member; a second member; and an actuator connected to the first member at a first end of the actuator and to the second member at a second end of the actuator, the actuator comprising: an inner member made from an elastic material and having straight walls to define a straight, cylindrically shaped compartment for receiving an actuating fluid, the inner member being moveable in an axial direction from a relaxed state to an expanded state by introducing an actuating fluid into the inner member to pressurize the inner member; and an outer member being disposed immediately adjacent to and around the elastic inner member to control expansion of the elastic inner member in a radial direction, the outer member being inelastic in the radial direction and expandable in the axial direction as the inner member moves from the relaxed state to the expanded state, the outer member being formed from a sheet of material such that the outer member forms an uninterrupted barrier such that there are no opening in the outer member in the expanded state to prevent the inner member from protruding through the outer member, wherein, when the inner member is pressurized to move the inner member to its expanded state, the actuator expands in the axial direction, and wherein, when the inner member is de-pressurized to return the inner member to its relaxed state, the actuator contracts in the axial direction to cause a movement of at least one of the first member and the second member relative to the other member. 2. The lattice device of claim 1 wherein the outer member is connected to the elastic inner member discontinuously at one or more contact points. 3. The lattice device of claim 1 wherein the outer member is connected to the elastic inner member discontinuously at a first end and a second end. 4. The lattice device of claim 1 wherein the first member and the second member are pivotally connected by a hinge. 5. The lattice device of claim 1 wherein the actuator is axially symmetric. 6. The lattice device of claim 1 wherein the actuator is axially asymmetric having at least two segments with different elastic properties. 7. The lattice device of claim 1 wherein the outer member is configured to freely expand or contract in the axial direction along the inner member as the inner member moves between the relaxed state and the expanded state. 8. An actuator system comprising: a reservoir including an actuating fluid; and multiple actuators, each of the multiple actuators comprising: an inner member made from an elastic material and having straight walls to define a straight, cylindrically shaped compartment for receiving an actuating fluid, the inner member being moveable in an axial direction from a relaxed state to an expanded state by introducing an actuating fluid into the inner member to pressurize the inner member; and an outer member being disposed immediately adjacent to and around the elastic inner member to control expansion of the elastic inner member in a radial direction, the outer member being inelastic in the radial direction and expandable in the axial direction as the inner member moves from the relaxed state to the expanded state, the outer member being formed from a sheet of material such that the outer member forms an uninterrupted barrier such that there are no opening in the outer member in the expanded state to prevent the inner member from protruding through the outer member, wherein, when the inner member is pressurized to move the inner member to its expanded state, the actuator expands in the axial direction, and wherein, when the inner member is de-pressurized to return the inner member to its relaxed state, the actuator contracts in the axial direction to cause a movement of at least one of the first member and the second member relative to the other member; and a pump in fluid communication with the reservoir and the actuators for selectively supplying the actuating fluid to the actuators; and a controller in communication with the pump to control operation of the pump. 9. The actuator system of claim 8 wherein the outer member is connected to the elastic inner member discontinuously at one or more contact points. 10. The actuator system of claim 8 wherein the outer member is connected to the elastic inner member discontinuously at a first end and a second end. 11. The actuator system of claim 8 wherein the actuator is axially symmetric. 12. The actuator system of claim 8 wherein the actuator is axially asymmetric having at least two segments with different elastic properties. 13. The actuator system of claim 8 further comprising a rotary selector disposed between the pump and the actuators to enable the pump to selectively supply the actuating fluid to the actuators. 14. The actuator system of claim 8 wherein the outer member is configured to freely expand or contract in the axial direction along the inner member as the inner member moves between the relaxed state and the expanded state. 15. An exoskeleton joint comprising: a wearable sleeve; a first member and a second member combined with the wearable sleeve, the second member being pivotably connected to the first member by a hinge; an actuator connected to the first member at a first end of the actuator and to the second member at a second end of the actuator, the actuator comprising: an inner member made from an elastic material and having straight walls to define a straight, cylindrically shaped compartment for receiving an actuating fluid, the inner member being moveable in an axial direction from a relaxed state to an expanded state by introducing an actuating fluid into the inner member to pressurize the inner member; and an outer member being disposed immediately adjacent to and around the elastic inner member to control expansion of the elastic inner member in a radial direction, the outer member being inelastic in the radial direction and expandable in the axial direction as the inner member moves from the relaxed state to the expanded state, the outer member being formed from a sheet of material such that the outer member forms an uninterrupted barrier such that there are no opening in the outer member in the expanded state to prevent the inner member from protruding through the outer member, wherein, when the inner member is pressurized to move the inner member to its expanded state, the actuator expands in the axial direction, and wherein, when the inner member is de-pressurized to return the inner member to its relaxed state, the actuator contracts in the axial direction to cause a movement of at least one of the first member and the second member relative to the other member. 16. The exoskeleton joint of claim 15 wherein the outer member is connected to the elastic inner member discontinuously at one or more contact points. 17. The exoskeleton joint of claim 15 wherein the outer member is connected to the elastic inner member discontinuously at a first end and a second end. 18. The exoskeleton joint of claim 15 wherein the actuator is axially asymmetric having at least two segments with different elastic properties. 19. The of exoskeleton joint of claim 15 wherein the outer member is configured to freely expand or contract in the axial direction along the inner member as the inner member moves between the relaxed state and the expanded state. 20. A lattice device comprising: a first member; a second member; and an actuator connected to the f