Actuator device and method

The invention claimed is: 1. An actuator device, comprising: an actuator member, the actuator member comprising: an electroactive material, wherein the electroactive material is arranged to deform in response to application of an electrical stimulus; and particles of a soft magnetic material dispersed within the electroactive material; a magnetic field generation circuit, wherein the magnetic field generation circuit is arranged to generate a magnetic field of a configurable field strength pattern, and wherein the configurable field strength pattern is applied to the actuator member; an electrical stimulus generation circuit, wherein the electrical stimulus is created by the electrical stimulus generation circuit; and a controller circuit, wherein the controller circuit is arranged to control the magnetic field generation circuit and the electrical stimulus generation circuit in a coordinated manner, and wherein the control of the magnetic field generation circuit and the electrical stimulus generation circuit realizes one or more deformation patterns in the actuator member. 2. The actuator device as claimed in claim 1 , wherein the magnetic field generation circuit is arranged to generate a magnetic field of non-uniform field strength such that the magnetic field of non-uniform field strength is applied across the actuator member. 3. The actuator device as claimed in claim 1 , wherein the coordinated manner comprises activating the magnetic field generation circuit and the electrical stimulus generation circuit simultaneously. 4. The actuator device as claimed in claim 1 , wherein the coordinated manner comprises activating the magnetic field generation circuit and the electrical stimulus generation circuit sequentially. 5. The actuator device as claimed in claim 1 , wherein the controller circuit is arranged to execute a pre-determined control schedule, wherein the pre-determined control schedule is arranged to control deformation of the actuator member, and wherein the pre-determined control schedule comprises steps for controlling both the electrical stimulus generation circuit and the magnetic field generation circuit. 6. The actuator device as claimed in claim 1 , wherein the particles of the soft magnetic material comprise at least one of a soft ferromagnetic material, a paramagnetic material, and a superparamagnetic material. 7. The actuator device as claimed in claim 1 , wherein the soft magnetic material is a magnetostrictive material, and wherein the soft magnetic material is arranged to realize a contraction or expansion of the actuator member in response to application of a magnetic field by the magnetic field generation circuit. 8. The actuator device as claimed in claim 7 , wherein the magnetic field generation circuit is arranged to generate a magnetic field of uniform field strength for application across the actuator member. 9. The actuator device as claimed in claim 1 , wherein the magnetic field generation circuit is arranged to generate a magnetic field of non-uniform field strength for application across the actuator member. 10. The actuator device as claimed in claim 9 , wherein the controller circuit is arranged to induce a bending in at least a portion of the actuator member, wherein the bending is in a given direction, and wherein the controller circuit is arranged to control the magnetic field generation circuit to generate a magnetic field of non-uniform magnetic field strength such that the magnetic field of non-uniform magnetic field strength has magnetic field lines extending through the actuator member in a direction antiparallel to the given bending direction. 11. The actuator device as claimed in claim 1 , wherein the particles are suspended in polymer droplets within the electroactive material, and wherein the polymer droplets have a viscosity lower than that of the electroactive material. 12. The actuator device as claimed in claim 1 , wherein the particles of the soft magnetic material are dispersed non-homogenously in the actuator member, so as to achieve non-uniform deformation patterns. 13. The actuator device as claimed in claim 12 , wherein the particles of the soft magnetic material are arranged in a set of spatially discrete concentrations within the actuator member. 14. The actuator device as claimed in claim 13 , wherein the magnetic field generating circuit is arranged to generate a magnetic field having different magnetic field strengths across each of the set of spatially discrete concentrations. 15. The actuator device as claimed in claim 5 , wherein the pre-determined control schedule includes steps dependent upon one or more input parameters.