Detecting loss of alignment of optical imaging modules

The invention claimed is: 1. Imaging apparatus, comprising: a housing; imaging optics mounted in the housing and configured to form an optical image, at a focal plane within the housing, of an object outside the housing; an image sensor, comprising a matrix of detector elements, which is positioned at the focal plane in alignment with the imaging optics and which is configured to output an electronic image signal in response to optical radiation that is incident on the detector elements; at least one emitter, which is fixed within the housing and is configured to emit a test beam toward one or more reflective surfaces within the housing, which reflect the test beam toward the image sensor; and a processor, which is configured to process the electronic image signal output by the image sensor in response to the reflected test beam so as to detect a change in the alignment of the image sensor with the imaging optics, wherein the detected change comprises a shift of the optical image on the image sensor, wherein the processor is configured to initiate a corrective action upon detecting that a magnitude of the change is greater than a predefined limit, and wherein the corrective action comprises processing the electronic image signal so as to compensate for the shift. 2. The apparatus according to claim 1 , wherein the at least one emitter is fixed at a location adjacent to the image sensor. 3. The apparatus according to claim 1 , wherein at least one of the one or more reflective surfaces is an interior surface of the housing. 4. The apparatus according to claim 1 , wherein the at least one emitter comprises a radiation source, which is configured to generate the test beam, and a lens, which is configured to collimate and direct the test beam toward the one or more reflective surfaces. 5. The apparatus according to claim 1 , wherein the at least one emitter comprises a plurality of emitters disposed at different, respective locations within the housing. 6. Imaging apparatus, comprising: a housing; imaging optics mounted in the housing and configured to form an optical image, at a focal plane within the housing, of an object outside the housing; an image sensor, comprising a matrix of detector elements, which is positioned at the focal plane in alignment with the imaging optics and which is configured to output an electronic image signal in response to optical radiation that is incident on the detector elements; at least one emitter, which is fixed within the housing and is configured to emit a test beam toward one or more reflective surfaces within the housing, which reflect the test beam toward the image sensor; and a processor, which is configured to process the electronic image signal output by the image sensor in response to the reflected test beam so as to detect a change in the alignment of the image sensor with the imaging optics, wherein at least one of the one or more reflective surfaces is an interior surface of the housing, and wherein the interior surface is configured as an elliptical mirror, which focuses the reflected test beam to form a predefined geometrical figure on the image sensor, wherein the processor is configured to detect the change in the alignment responsively to movement of geometrical figure on the image sensor. 7. The apparatus according to claim 6 , wherein the processor is configured to initiate a corrective action upon detecting that a magnitude of the change is greater than a predefined limit. 8. The apparatus according to claim 7 , wherein the detected change comprises a shift of the optical image on the image sensor, and wherein the corrective action comprises processing the electronic image signal so as to compensate for the shift. 9. The apparatus according to claim 6 , wherein the at least one emitter is fixed at a location adjacent to the image sensor. 10. Imaging apparatus, comprising: a housing; imaging optics mounted in the housing and configured to form an optical image, at a focal plane within the housing, of an object outside the housing, wherein the imaging optics comprise one or more lenses having refractive surfaces; an image sensor, comprising a matrix of detector elements, which is positioned at the focal plane in alignment with the imaging optics and which is configured to output an electronic image signal in response to optical radiation that is incident on the detector elements; at least one emitter, which is fixed within the housing and is configured to emit a test beam toward one or more reflective surfaces within the housing, which reflect the test beam toward the image sensor, wherein the one or more reflective surfaces comprise one or more of the refractive surfaces of at least one of the lenses; and a processor, which is configured to process the electronic image signal output by the image sensor in response to the reflected test beam so as to detect a change in the alignment of the image sensor with the imaging optics. 11. The apparatus according to claim 10 , wherein the processor is configured to initiate a corrective action upon detecting that a magnitude of the change is greater than a predefined limit. 12. The apparatus according to claim 11 , wherein the detected change comprises a shift of the optical image on the image sensor, and wherein the corrective action comprises processing the electronic image signal so as to compensate for the shift. 13. The apparatus according to claim 10 , wherein the imaging optics are configured to form the optical image of the object within a predefined spectral range, and the test beam is emitted at a wavelength outside the predefined spectral range, and wherein at least one of the refractive surfaces comprises a coating configured to pass the optical radiation within the predefined spectral range while reflecting the test beam. 14. The apparatus according to claim 10 , and comprising a pattern formed on the at least one of the lenses in an area on which the test beam is incident, wherein the pattern causes the reflected test beam to form a predefined geometrical figure on the image sensor, and wherein the processor is configured to detect the change in the alignment responsively to changes in the geometrical figure on the image sensor. 15. Imaging apparatus, comprising: a housing; imaging optics mounted in the housing and configured to form an optical image, at a focal plane within the housing, of an object outside the housing; an image sensor, comprising a matrix of detector elements, which is positioned at the focal plane in alignment with the imaging optics and which is configured to output an electronic image signal in response to optical radiation that is incident on the detector elements; at least one emitter, which is fixed within the housing and is configured to emit a test beam toward one or more reflective surfaces within the housing, which reflect the test beam toward the image sensor; and a processor, which is configured to process the electronic image signal output by the image sensor in response to the reflected test beam so as to detect a change in the alignment of the image sensor with the imaging optics, wherein the at least one emitter comprises a radiation source, which is configured to generate the test beam, and a lens, which is configured to collimate and direct the test beam toward the one or more reflective surfaces, and wherein the lens comprises a microlens, which is decentered relative to the radiation source in order to direct the test beam at a desired propagation angle toward the one or more reflective surfaces. 16. The apparatus according to cl