Lens assembly with integrated feedback loop and time-of-flight sensor

What is claimed is: 1. A vision system comprising: a 2D image sensor that acquires images of a scene; an imager lens that projects received light from the scene onto the image sensor; a time-of-flight sensor that a receives a distance measurement from the scene; and a processor arranged to receive distance data from the time-of-flight sensor, and based upon the distance data, determine one or more height measurements with respect to one or more objects within the scene so as to perform an analysis process on the one or more objects. 2. The vision system as set forth in claim 1 wherein the one or more objects define a rectilinear shape and the analysis process defines measuring dimensions of the one or more objects by (a) measuring a distance between the image sensor and the object in the center of the image; (b) searching for a rectangular shape in the center of an image acquired by the image sensor with one or more vision system tools, (c) computing dimensions of a top surface of the one or more objects relative to the rectangular shape, based on the measured distance and known optical properties of image sensor and imager lens, and (d) calculating a height of the one or more objects, based on a measured shortest distance between the image sensor and the top surface and a known height position of the image sensor based upon a reference surface. 3. The vision system as set forth in claim 2 wherein the reference surface comprises a moving conveyor that passes the one or more objects through the scene. 4. The vision system as set forth in claim 3 wherein the processor is arranged to determine deviations from the rectilinear shape to determine a defect in the one or more objects. 5. The vision system as set forth in claim 2 wherein the one or more objects are in relative motion with respect to the image sensor and the time-of-flight sensor. 6. The vision system as set forth in claim 5 wherein the image sensor and the imager lens are mounted to acquire images image the one or more objects transported on a conveyor through a scene and are operatively connected to an ID decoder that finds and decodes ID information on the one or more objects. 7. The vision system as set forth in claim 6 wherein the time-of-flight sensor is a single-point time-of-flight sensor. 8. The vision system as set forth in claim 1 wherein the time-of-flight sensor is a multi-point time-of-flight sensor. 9. The vision system as set forth in claim 8 wherein the processor receives a plurality of height values concurrently from the multi-point time-of-flight sensor relative to discrete parts of the scene, and based on the measured height values defines at least one region of interest with respect to the one or more objects. 10. The vision system as set forth in claim 9 further comprising an ID decoder that receives image data from the scene and locates and decodes ID information within the at least one region of interest. 11. The vision system as set forth in claim 9 further comprising an ID decoder that receives image data from the scene and locates and decodes ID information from the image data, and wherein the processor is arranged to detect a plurality of objects based on the height values in the scene and to associate one or more located IDs relative to respective of the plurality of objects. 12. The vision system as set forth in claim 1 wherein the imager lens defines a removable lens assembly that includes an electrically controlled variable lens and a lens controller circuit operatively connected to the variable lens, the lens controller circuit being housed in the removable lens assembly. 13. The vision system as set forth in claim 12 wherein the time-of-flight sensor is contained integrally within the removable lens assembly and interconnected to the lens controller circuit.