Electro-permanent magnetic attachment of a vehicle to an object

What is claimed is: 1. An apparatus comprising: a frame; a capacitor on the frame; a number of moveable surface-engaging components attached to the frame; a number of actuators operable to move the frame with respect to an object when the number of moveable surface-engaging components is in contact with a surface of the object; an electro-permanent magnet operable to hold the number of moveable surface-engaging components in contact with the surface of the object by a magnetic force between the electro-permanent magnet and the object when the electro-permanent magnet is activated to generate the magnetic force and to remove the magnetic force when the electro-permanent magnet is deactivated to release the number of moveable surface-engaging components from the surface of the object; and a switching device connected to the electro-permanent magnet and configured to provide electrical power to the electro-permanent magnet, wherein application of the electrical power causes the electro-permanent magnet to selectively change a state of the electro-permanent magnet from activated to deactivated, and wherein the switching device is connected between the capacitor and the electro-permanent magnet and operable to provide the electrical power from the capacitor to the electro-permanent magnet selectively to change the state of the electro-permanent magnet. 2. The apparatus of claim 1 , wherein the number of moveable surface-engaging components and the number of actuators are operable to provide holonomic movement of the frame with respect to the surface of the object when the number of moveable surface-engaging components is in contact with the surface of the object. 3. The apparatus of claim 1 , wherein the electro-permanent magnet is mounted on the frame. 4. The apparatus of claim 1 , wherein the electro-permanent magnet is operable to be activated in response to a first signal and remains activated after the first signal stops and is operable to be deactivated in response to a second signal and remains deactivated after the second signal stops. 5. The apparatus of claim 1 further comprising: a tool on the frame. 6. The apparatus of claim 1 further comprising: a support system operable to move the frame with respect to the object, the support system comprising an elongate member and a line system comprising a tether attached to the frame and connecting the frame to the elongate member. 7. An apparatus comprising: a frame; a capacitor on the frame; a number of moveable surface-engaging components attached to the frame; a number of actuators operable to move the frame with respect to an object when the number of moveable surface-engaging components is in contact with a surface of the object; an electro-permanent magnet operable to hold the number of moveable surface-engaging components in contact with the surface of the object by a magnetic force between the electro-permanent magnet and the object when the electro-permanent magnet is activated to generate the magnetic force and the apparatus is on a portion of the object that is ferromagnetic; a switching device connected to the electro-permanent magnet and configured to provide electrical power to the electro-permanent magnet, wherein application of the electrical power causes the electro-permanent magnet to selectively change a state of the electro-permanent magnet from activated to deactivated and wherein the switching device is connected between the capacitor and the electro-permanent magnet and operable to provide the electrical power from the capacitor to the electro-permanent magnet selectively to change the state of the electro-permanent magnet; and a suction device operable to provide a suction force to hold the number of moveable surface-engaging components in contact with the surface of the object when the suction device is activated. 8. The apparatus of claim 7 further comprising: a controller configured to deactivate the suction device to remove the suction force when the apparatus is on the portion of the object that is ferromagnetic. 9. The apparatus of claim 7 further comprising: a controller configured to activate the electro-permanent magnet in response to an undesired movement of the apparatus to reduce the undesired movement of the apparatus by providing eddy current braking when the apparatus is on a portion of the object that is electrically conductive. 10. A method for operating a vehicle on a surface of an object comprising: placing the vehicle on the surface of the object, wherein the vehicle comprises a frame, a capacitor on the frame, a number of moveable surface-engaging components attached to the frame, a number of actuators, and an electro-permanent magnet; activating the electro-permanent magnet to generate a magnetic force to hold the number of moveable surface-engaging components in contact with the surface of the object by the magnetic force between the electro-permanent magnet and a portion of the object that is ferromagnetic, wherein activating the electro-permanent magnet comprises actuating a switching device to direct electrical power to the electro-permanent magnet and wherein activating the electro-permanent magnet comprises actuating the switching device on the frame to direct the electrical power from the capacitor on the frame to the electro-permanent magnet; operating the number of actuators to move the frame with respect to the object when the number of moveable surface-engaging components is held in contact with the surface of the object; and deactivating the electro-permanent to remove the magnetic force by actuating the switching device to provide the electrical power to the electro-permanent magnet, wherein the electrical power causes the electro-permanent magnet to selectively change a state of the electro-permanent magnet from activated to deactivated. 11. The method of claim 10 , wherein the number of moveable surface-engaging components and the number of actuators are operable to provide holonomic movement of the frame with respect to the surface of the object. 12. The method of claim 10 further comprising: removing the vehicle from the surface of the object when the magnetic force is removed. 13. The method of claim 10 , wherein activating the electro-permanent magnet comprises providing a first signal to activate the electro-permanent magnet wherein the electro-permanent magnet is activated in response to the first signal and remains activated after the first signal stops. 14. The method of claim 10 , wherein the electrical power provided from the capacitor to the electro-permanent magnet comprises a relatively high current and further comprising charging the capacitor using a relatively lower current provided to the vehicle from a power source that is not on the vehicle. 15. The method of claim 10 further comprising: activating a suction device on the frame to provide a suction force to hold the number of moveable surface-engaging components in contact with the surface of the object when the vehicle is on a portion of the object that is not ferromagnetic; and deactivating the suction device to stop providing the suction force when the vehicle is on the portion of the object that is ferromagnetic. 16. The method of claim 15 further comprising: deactivating the electro-permanent magnet to remove the magnetic force when the vehicle is on the portion of the object that is not ferromagnetic. 17. A method for operating a vehicle on a surface of an object comprising: holding the vehicle on the surface of the object, wherein the vehicle comprises a frame, a