Force feedback gripping device with magnetorheological based actuator

The invention claimed is: 1. A MRE gripping device, comprising: a mechanical gripper operable to be actuated to one of a plurality of gripping poses for gripping an object; and an electromagnetic actuator structurally segregated from the mechanical gripper and including a magnetorheological elastomer, wherein the magnetorheological elastomer is operable to be transitioned between a plurality of shapes dependent upon a variable strength of a magnetic field applied to the magnetorheological elastomer, wherein each shape of the magnetorheological elastomer actuates the mechanical gripper to one of the gripping poses, and wherein one of: the electromagnetic actuator further includes a bipolar arrangement of coils relative to the magnetorheological elastomer, or the electromagnetic actuator further includes an iron core and a coil wrapped around the iron core, and the magnetorheological elastomer is positioned within an air gap of the iron core. 2. The MRE gripping device of claim 1 , wherein the mechanical gripper includes at least one load sensor operable to sense a load force of the object responsive to the gripping force of the mechanical gripper. 3. The MRE gripping device of claim 1 , wherein the mechanical gripper includes a plurality of gripper arms actuatable between a minimum gripping pose and a maximum gripping pose; and wherein the electromagnetic actuator is connected to the plurality of gripper arms. 4. The MRE gripping device of claim 1 , wherein the mechanical gripper includes a plurality of gripper arms actuatable between a minimum gripping pose and a maximum gripping pose; and wherein the electromagnetic actuator is coupled to the plurality of gripper arms. 5. A force feedback gripping device, comprising: a mechanical gripper operable to be actuated to one of a plurality of gripping poses for gripping an object; an electromagnetic actuator including a magnetorheological elastomer, wherein the magnetorheological elastomer is operable to be transitioned between a plurality of shapes dependent upon a variable strength of a magnetic field applied to the magnetorheological elastomer, and wherein each shape of the magnetorheological elastomer actuates the mechanical gripper to one of the gripping poses; and a force feedback controller operable to control the variable strength of the magnetic field applied to the magnetorheological elastomer based on an estimation of a gripping force of the mechanical gripper and on a sensing of a load force of the object responsive to the gripping force of the mechanical gripper. 6. The force feedback gripping device of claim 5 , wherein the mechanical gripper includes at least one load sensor operable to sense the load force of the object responsive to the gripping force of the mechanical gripper. 7. The force feedback gripping device of claim 5 , wherein the electromagnetic actuator further includes a coil wrapped around the magnetorheological elastomer. 8. The force feedback gripping device of claim 5 , wherein the electromagnetic actuator further includes a bipolar arrangement of coils relative to the magnetorheological elastomer. 9. The force feedback gripping device of claim 5 , wherein electromagnetic actuator further includes an iron core and a coil wrapped around the iron core, and wherein the magnetorheological elastomer is positioned within an air gap of the iron core. 10. The force feedback gripping device of claim 5 , wherein the variable strength of the magnetic field applied to the magnetorheological elastomer is derived as a function of a differential between the estimation of the gripping force of the mechanical gripper and the sensing of the load force of the object responsive to the gripping force of the mechanical gripper. 11. The force feedback gripping device of claim 5 , wherein the gripping force of the mechanical gripper is a function of a material stiffness of the magnetorheological elastomer responsive to the magnetic field. 12. The force feedback gripping device of claim 5 , wherein the mechanical gripper includes a plurality of gripper arms actuatable between a minimum gripping pose and a maximum gripping pose; and wherein the electromagnetic actuator is connected to the plurality of gripper arms. 13. The force feedback gripping device of claim 5 , wherein the mechanical gripper includes a plurality of gripper arms actuatable between a minimum gripping pose and a maximum gripping pose; and wherein the electromagnetic actuator is coupled to the plurality of gripper arms. 14. A method of controlling a force feedback gripper device including a mechanical gripper and an electromagnetic actuator including a magnetorheological elastomer, the method comprising: applying a magnetic field to the magnetorheological elastomer, wherein the magnetorheological elastomer is transitioned between a plurality of shapes dependent upon a variable strength of a magnetic field, and wherein each shape of the magnetorheological elastomer actuates the mechanical gripper to one of a plurality of gripping poses for gripping the object; and controlling the variable strength of the magnetic field applied to the magnetorheological elastomer based on an estimation of a gripping force of the mechanical gripper and a sensing of a load force of the object responsive to the gripping force of the mechanical gripper. 15. The method of claim 14 , wherein the variable strength of the magnetic field applied to the magnetorheological elastomer is derived as a function of a differential between the estimation of the gripping force of the mechanical gripper and the sensing of the load force of the object responsive to the gripping force of the mechanical gripper. 16. The method of claim 15 , wherein the gripping force of the mechanical gripper is a function of a material stiffness of the magnetorheological elastomer responsive to the magnetic field. 17. The method of claim 14 , wherein the mechanical gripper includes a plurality of gripper arms actuatable between a minimum gripping pose and a maximum gripping pose.