Channel-specific micro-optics for optical arrays

What is claimed is: 1. An imaging system comprising: a sensor array having a plurality of sensor channels arranged to receive light through a corresponding plurality of apertures in an aperture plane; a bulk optic module disposed in front of the sensor array and configured to focus incident light on the aperture plane to form an image of a field of view; a controller to operate the sensor array to generate image data for the field of view; and a plurality of channel-specific micro-optic elements, each channel-specific micro-optic element being disposed in front of a different one of the apertures and having an optical prescription that is different for different sensor channels. 2. The imaging system of claim 1 wherein the optical prescription for a particular one of the channel-specific micro-optic elements is based at least in part on an optical property of the bulk optic module. 3. The imaging system of claim 1 wherein the sensor channels are arranged in a plurality of sensor rows, each sensor row including: a LIDAR sensor channel; and a set of one or more ambient-light sensor channels, wherein each ambient-light sensor channel includes: a channel input aperture; a photosensor; and a channel-specific optical filter that selectively passes light having a channel-specific property to the photosensor, wherein at least some of the ambient-light sensor channels have corresponding channel-specific micro-optic elements. 4. The imaging system of claim 3 wherein the channel-specific micro-optic element for each ambient-light sensor channel has a prescription that is based at least in part on the channel-specific optical filter. 5. The imaging system of claim 4 wherein the bulk optic module exhibits chromatic aberration and wherein the optical prescription for at least some of the ambient-light sensor channels is based in part on the channel-specific optical filter and in part on the chromatic aberration of the bulk optic module. 6. The imaging system of claim 1 wherein the plurality of sensor channels includes a plurality of LIDAR sensor channels and wherein at least some of the LIDAR sensor channels have corresponding channel-specific micro-optic elements with respective optical prescriptions based in part on a LIDAR operating wavelength and in part on an optical characteristic of the bulk optic module. 7. The imaging system of claim 1 wherein the bulk optic module has a curved focal plane and wherein the optical prescription of each of the channel-specific micro-optic elements compensates for an offset between a location of the aperture and a corresponding location on the curved focal plane. 8. The imaging system of claim 7 wherein the optical prescription of each channel-specific micro-optic element is a function of a radial distance in the aperture plane from an optical axis of the bulk optic module to the corresponding aperture. 9. The imaging system of claim 7 wherein the channel-specific micro-optic elements disposed in front of different apertures have optical prescriptions with different focusing powers. 10. The imaging system of claim 7 wherein the channel-specific micro-optic elements disposed in front of different channels have different standoff distances from the aperture plane. 11. The imaging system of claim 7 wherein the bulk optic module exhibits chromatic aberration, wherein different ones of the sensor channels are configured to sense light of different wavelengths, and wherein the channel-specific micro-optic elements also compensate for the chromatic aberration of the bulk optic module. 12. The imaging system of claim 7 wherein the sensor channels include LIDAR sensor channels that provide time-of-flight measurements. 13. The imaging system of claim 7 wherein the sensor channels include ambient light sensor channels that provide light intensity measurements. 14. The imaging system of claim 7 wherein the sensor channels include a combination of LIDAR sensor channels that provide time-of-flight measurements and ambient light sensor channels that provide intensity measurements.