Portable prosthetic hand with soft pneumatic fingers

What is claimed is: 1. A finger actuator, comprising: a plurality of fluidically interconnected extensible segments, wherein: each extensible segment comprises two inner walls at opposing ends of the extensible segments that allow expansion of the extensible segment in the lateral direction and an outer wall that is thicker than the inner walls to prevent radial expansion of the extensible segment; and each extensible segment comprises two fluidically connected inflatable chambers located proximate to the inner walls; and an inextensible layer connected to the plurality of fluidically interconnected extensible segments at a base of the extensible segments, the inextensible layer comprising a flexible layer and an inextensible material that extends along the length of the plurality of fluidically interconnected extensible segments. 2. The finger actuator of claim 1 , wherein the plurality of extensible segments comprises 3-6 segments. 3. The finger actuator of claim 1 , wherein the finger actuator further comprises a hinge integrally molded with the fluidically interconnected extensible segments. 4. The finger actuator of claim 3 , wherein the hinge is connected to the inextensible layer to form a flexible, inextensible hinge. 5. The finger actuator of claim 1 , wherein the extensible segments are comprised of a silicone rubber. 6. The finger actuator of claim 1 , wherein the inextensible material comprises cotton, paper, or polyester layers. 7. The finger actuator of claim 1 , wherein the flexible layer of the inextensible layer is comprised of the same material as the extensible segments. 8. The finger actuator of claim 1 wherein the flexible layer of the inextensible layer is comprised of a different material than the extensible segments. 9. The finger actuator of claim 1 , wherein the two fluidically interconnected chambers are molded. 10. The finger actuator of claim 1 , further comprising a hand base, wherein the finger actuator is secured to the hand base at one end of the finger actuator. 11. The finger actuator of claim 10 , wherein the hand base comprises an air compressor, the air compressor fluidically connected to the secured finger actuator. 12. The finger actuator of claim 11 , further comprising a valve for reversibly connecting the air compressor to the secured finger actuator. 13. The finger actuator of claim 12 , wherein the hand base further houses a microprocessor for receiving input from a sensor and transmitting instructions to open or close the valve in response to the input. 14. A method of operating a finger actuator comprising: providing a first finger actuator secured to a hand base, wherein the finger actuator comprises: a plurality of fluidically interconnected extensible segments, wherein each extensible segment comprises two inner walls at opposing ends of the extensible segments that allow expansion of the extensible segment in the lateral direction and an outer wall that is thicker than the inner walls to prevent radial expansion of the extensible segment, and each extensible segment comprises two fluidically connected inflatable chambers located proximate to the inner walls; and an inextensible layer connected to the plurality of fluidically interconnected extensible segments at a base of the extensible segments, the inextensible layer comprising a flexible layer having an inextensible material that extends along the length of the plurality of fluidically interconnected extensible segments; and providing instructions to a valve housed in the hand base to open, wherein air pressure from an air compressor housed in the hand base pressurizes at least one finger actuator, thereby causing the finger actuator to bend. 15. The method of claim 14 , wherein the instruction is in response to a signal received from a sensor. 16. The method of claim 14 , further comprising a second finger actuator located at a position of the hand base spaced apart and opposed to the first finger actuator. 17. The method of claim 16 , wherein the first finger actuator and the second finger actuator are pressurized and the combined pressurization of the first finger actuator and the second finger actuator provides a gripping motion.