Artificial muscle actuators

What is claimed is: 1. An actuator device comprising: at least one or more artificial muscle fibers, the at least one or more artificial muscle fibers being twisted and coiled; a thermal conductive material, the thermal conductive material being wrapped around the at least one or more artificial muscle fibers; a thermocouple, the thermocouple being incorporated into the at least one or more artificial muscle fibers, and an electrical system, wherein twisting of the at least one or more artificial muscle fibers causes the coiling of the at least one or more artificial muscle fibers; the thermocouple monitors a temperature of the at least one or more artificial muscle fibers; and the electrical system actuates the at least one or more artificial muscle fibers by electrically heating the thermal conductive material and managing the temperature not to exceed a threshold temperature to prevent failure of the artificial muscle actuator device. 2. The actuator device of claim 1 , wherein the thermal conductive material is a carbon nanotube yarn. 3. The actuator device of claim 1 , wherein the at least one or more artificial muscle fibers comprise carbon nanotube yarns. 4. The actuator device of claim 1 , further comprising: a coating, wherein the coating coats the at least one or more artificial muscle fibers or the thermal conductive material. 5. The actuator device of claim 4 , wherein the coating provides at least one of the following properties: moisture protection, UV protection, thermal insulation and thermal conductivity. 6. The actuator device of claim 4 , wherein the coating prevents oxidation. 7. The actuator device of claim 4 , wherein the coating protects the at least one or more artificial muscle fibers and the thermal conductive material from exposure to saline. 8. The actuator device of claim 4 , wherein the coating is a black colored coating. 9. The actuator device of claim 4 , wherein the coating is biocompatible. 10. The actuator device of claim 4 , wherein the coating is electrically insulating. 11. The actuator device of claim 4 , wherein the coating coats each of the at least one or more artificial muscle fibers. 12. The actuator device of claim 4 , wherein the coating reduces surface friction between the plurality of fibers. 13. The actuator device of claim 4 , wherein the thermal conductive material is a metal wire, and the coating encloses the metal wire. 14. The actuator device of claim 4 , wherein the coating provides adhesion between the thermal conductive material and the at least one or more artificial muscle fibers. 15. The actuator device of claim 4 , wherein the coating includes at least one of the following materials: parylene, polyurethane, gold, silver, titanium, copper, nickel, chromium, nanostructured clay in a polymer, graphene dispersed in a polymer, and fluorinated polymers. 16. The actuator device of claim 4 , wherein the coating is multi-functional. 17. The actuator device of claim 4 , where the coating is reflective. 18. The actuator device of claim 1 , wherein the at least one or more artificial muscle fibers comprise polymer fibers.