Device having a plurality of latching micro-actuators and method of operating the same

The invention claimed is: 1. An actuator device comprising: a plurality of transducer actuators; and a common pneumatic actuation mechanism for shaping the plurality of transducer actuators, wherein each actuator of the plurality of transducer actuators includes, a shape memory polymer membrane, an integrated stretchable heater, and an pressure interface to the common pneumatic actuation mechanism. 2. The actuator device according to claim 1 , further comprising: a power control device to control electric power supplied to the integrated stretchable heater of each actuator of the plurality of transducer actuators, to selectively activate the transducer actuators individually. 3. The actuator device according to claim 1 , wherein the common pneumatic actuation mechanism comprises: a pump that is configured to generate a positive and a negative pressure; and a pneumatic chamber having a common inlet that is arranged below the shape memory polymer membrane having a plurality of channels, each channel connected to a corresponding pressure interface of a corresponding actuator, wherein the pump is operatively connected to the common inlet of the pneumatic chamber. 4. The actuator device according to claim 1 , wherein the pressure interface is made from an opening of a flexible printed circuit board. 5. The actuator device according to claim 1 , wherein each shape memory polymer membrane is configured such that the common pneumatic actuation mechanism displaces only the actuators that are heated by the corresponding integrated stretchable heater. 6. The actuator device according to claim 1 , further comprising: a microfluidic chip including microfluidic channels, wherein each microfluidic channel is operatively associated to an actuator of the plurality of actuators, and wherein each shape memory polymer membrane acts as a valve element on the corresponding microfluidic channel to increase or decrease a fluidic resistance of the microfluidic channel. 7. The actuator device according to claim 1 , further comprising: a mirror, wherein each actuator of the plurality of actuators further includes a movable pin that is operatively attached to the shape memory polymer membrane, and wherein a top section of each movable pin is operatively attached to a non-reflective surface of the mirror. 8. The actuator device according to claim 1 , wherein the plurality of transducer actuators are arranged in an array. 9. A method for operating an actuator device, the actuator device including a plurality of transducer actuators, and a common pneumatic actuation mechanism, each transducer actuator including a shape memory polymer membrane, an integrated stretchable heater, and a pressure interface to the common pneumatic actuation mechanism, the method comprising the steps of: selectively heating some of the transducer actuators by the corresponding integrated stretchable heater; and providing a common fluid pressure to all of the transducer actuators for moving the transducer actuators that are heated by the step of selectively heating. 10. The method according to claim 8 , wherein the step of providing generates a negative fluid pressure to pull the shape memory polymer membrane downwards towards the pressure interface. 11. The method according to claim 8 , wherein the step of providing generates a positive fluid pressure to push the shape memory polymer membrane upwards away from the pressure interface. 12. The method according to claim 8 , further comprising the step of: maintaining the shape memory polymer membrane in a flat state by a memory function of the shape memory polymer membrane, while no common fluid pressure is provided.