Split-camera autoalignment

The invention claimed is: 1. A camera comprising: an objective portion configured to collect light from a subject; a sensor portion separable from and re-alignable to the objective portion, the sensor portion including an array of optical sensor elements; an alignment-sensing system configured to sense a deviation from a predetermined relative positioning between the objective and sensor portions due to imprecise re-alignment of the objective and sensor portions, and to provide an output responsive to the deviation; an actuator configured to move the objective or sensor portion; and a computer configured to control the actuator responsive to the output of the alignment-sensing system, so as to move the objective or sensor portion toward the predetermined relative positioning to reduce the deviation due to the imprecise re-alignment sensed by the alignment-sensing system. 2. The camera of claim 1 wherein the actuator is a linear actuator configured to move the objective portion. 3. The camera of claim 1 wherein the actuator is a linear actuator configured to move the sensor portion. 4. The camera of claim 1 wherein the alignment-sensing system is an optical system. 5. The camera of claim 1 wherein the actuator is a piezoelectric actuator. 6. The camera of claim 1 wherein the actuator is one of a plurality of linear actuators configured to move the objective or sensor portion in a corresponding plurality of directions. 7. The camera of claim 6 wherein the plurality of directions include a horizontal direction perpendicular to an optical axis of the camera and a vertical direction perpendicular both to the optical axis and to the horizontal direction. 8. The camera of claim 6 wherein the deviation includes an axial component parallel to an optical axis of the camera, and wherein the plurality of directions includes a depth direction parallel to the optical axis. 9. The camera of claim 6 wherein the plurality of linear actuators includes outer and inner actuators configured to move the objective or sensor portion in a same direction, wherein the outer actuator has a different stroke and is differently frequency-damped than the inner actuator, and wherein the outer actuator moves a floating stage on which the inner actuator is coupled. 10. The camera of claim 9 wherein the inner actuator provides optical image stabilization for the camera. 11. The camera of claim 1 wherein the actuator is a linear actuator configured to slide one optical wedge along another to increase an optical path in the objective or sensor portion and thereby move the objective or sensor portion in a depth direction. 12. The camera of claim 1 wherein the objective or sensor portion includes an electrooptical lens having an electronically tunable focal length. 13. An electronic device comprising: an objective portion configured to collect light from a subject; a sensor portion separable from and re-alignable to the objective portion, the sensor portion including an array of optical sensor elements; an alignment-sensing system configured to sense a deviation from a predetermined relative positioning between the objective and sensor portions due to imprecise re-alignment of the objective and sensor portions, and to provide an output responsive to the deviation; a linear actuator configured to move the objective or sensor portion; a computer configured to control the linear actuator responsive to the output of the alignment-sensing system, so as to move the objective or sensor portion toward the predetermined relative positioning to reduce the deviation due to the imprecise re-alignment sensed by the alignment-sensing system; and a retaining member configured to couple the objective portion to the sensor portion when the objective and sensor portions are separated and when the objective and sensor portions are opposing each other. 14. The electronic device of claim 13 wherein the retaining member is a hinge. 15. The electronic device of claim 13 wherein the retaining member is a slide. 16. The electronic device of claim 13 further comprising a mechanical or magnetic latch to discourage separation of the objective and sensor portions. 17. The electronic device of claim 13 wherein the objective portion is coupled to a first display panel and the sensor portion is coupled to a second display panel. 18. A camera comprising: an objective portion configured to collect light from a subject; a sensor portion separable from and re-alignable to the objective portion, the sensor portion including an array of optical sensor elements; an alignment-sensing system configured to sense a deviation from a predetermined relative positioning between the objective and sensor portions due to imprecise re-alignment of the objective and sensor portions, and to provide an output responsive to the deviation; a translational linear actuator configured to shift the objective or sensor portion; a rotational linear actuator configured to tilt the objective or sensor portion; and a computer configured to control the translational and rotational linear actuators responsive to the output of the alignment-sensing system, so as to move the objective or sensor portion toward the predetermined relative positioning to reduce the deviation due to the imprecise re-alignment sensed by the alignment-sensing system. 19. The camera of claim 18 wherein the translational linear actuator is coupled to a floating stage of the objective or sensor portion. 20. The camera of claim 18 wherein the rotational linear actuator is coupled to a rotating stage of the objective or sensor portion.