Artificial skin and elastic strain sensor

What is claimed: 1. An elastic strain sensor for sensing strain along a first strain axis comprising: a first elastic material layer having two or more channels, each channel extending from a first end to a second end, substantially parallel to the first strain axis; at least one loop portion connecting the first end of a first channel to the first end of a second channel, wherein the loop portion has a substantially large cross-sectional area along an axis transverse to the strain axis; and a conductive liquid extending continuously from at least the second end of the first channel, through the loop portion, to the second end of the second channel. 2. The elastic sensor of claim 1 wherein the conductive liquid is a conductive liquid metal. 3. The elastic sensor of claim 1 wherein the conductive liquid includes eutectic gallium-indium. 4. The elastic sensor of claim 1 wherein each channel is approximately 250 micrometers wide and the cross-sectional area of the loop portion is at least 1 millimeter wide. 5. The elastic sensor of claim 1 further comprising at least one loop portion connecting the second end of the second channel to the second end of a third channel, wherein the loop portion has a substantially large cross-sectional area along an axis transverse to the strain axis. 6. The elastic sensor of claim 1 wherein the first elastic material layer includes N channels and N−1 loop portions, where N is an integer. 7. An artificial skin comprising one or more elastic sensors according to claim 1 . 8. The elastic sensor of claim 1 for sensing strain along the first axis and a second axis, the strain sensor comprising: a second elastic material layer having two or more channels, each channel extending from a first end to a second end, substantially parallel to the second strain axis; at least one loop portion connecting the first end of a first channel to the first end of a second channel, wherein the loop portion has a substantially large cross-sectional area along an axis transverse to the strain axis; and a conductive liquid extending continuously from at least the second end of the first channel, through the loop portion, to the second end of the second channel; wherein the first elastic material layer is bonded to the second elastic material layer. 9. The elastic sensor of claim 8 wherein the first strain axis is transverse to the second strain axis. 10. The elastic sensor of claim 8 wherein the conductive liquid is a conductive liquid metal. 11. The elastic sensor of claim 8 wherein the conductive liquid includes eutectic gallium-indium. 12. The elastic sensor of claim 8 wherein the second elastic material layer includes N channels and N−1 loop portions, where N is an integer. 13. An artificial skin comprising one or more elastic sensors according to claim 8 . 14. An elastic sensor of claim 8 for sensing pressure applied to a portion of a surface, elastic sensor further comprising: a third elastic material layer bonded to at least one of the first elastic material layer and the second elastic material layer, the third elastic material layer having a third channel arranged in a pattern along the surface, the third channel having a first end and a second end; a conductive liquid extending continuously from the first end to the second end of the third channel; wherein straining the third elastic material layer along the first strain axis parallel to the surface or along the second strain axis parallel to the surface does not cause a substantial change in resistance of the conductive fluid in the third channel. 15. The elastic pressure sensor of claim 13 wherein the conductive liquid is a conductive liquid metal. 16. The elastic pressure sensor of claim 15 wherein the conductive liquid includes eutectic gallium-indium. 17. A joint sensor for sensing an angle of a first limb with respect to second limb, wherein both limbs are connected to the joint, the joint sensor comprising: an elastic strain sensor adapted to sense strain along a strain axis, having a first end at a first position along the strain axis and a second end at a second position that is a first distance from the first position; wherein the first end of the elastic strain sensor is attached to the first limb and the second end of the elastic strain sensor is attached to the second limb, such that the angle of the joint can be determined as a function of strain measured along the strain axis of the elastic strain sensor. 18. The joint sensor according to claim 17 wherein the elastic strain sensor comprises: an elastic material having two or more channels, each channel extending from a first end to a second end, substantially parallel to the strain axis; at least one loop portion connecting the first end of a first channel to the first end of a second channel, wherein the loop portion has a substantially large cross-sectional area along an axis transverse to the strain axis; and a conductive liquid extending continuously from at least the second end of the first channel, through the loop portion, to the second end of the second channel, wherein the strain applied to the strain sensor causes a change in resistance of the conductive liquid measured from the second end of the first channel to the second end of the second channel. 19. The joint sensor according to claim 18 wherein the angle of the first limb with respect to second limb is determined as a function of the resistance measured through the conductive liquid.