Method, apparatus, and system for characterizing an optical system

The invention claimed is: 1. An optical system comprising: one or more optical sensors to capture at least one image of a printed image; a processing circuitry in electronic communication with the one or more optical sensors, the processing circuitry being configured to: receive a print job specification defining an image to be printed on a print media; derive characteristic data of the image to be printed on the print media from the print job specification; identify at least a first region and a second region of the image to be printed on the print media based on the characteristic data; and capture, using the one or more optical sensors, a first image of the first region of the printed image at a first resolution and a second image of the second region of the printed image at a second resolution that is different from the first resolution. 2. The optical system of claim 1 , wherein the characteristic data defines at least the first resolution used to capture the first image of the first region of the printed image and the second resolution used to capture the second image of the second region of the printed image. 3. The optical system of claim 1 , wherein resolution requirements correspond to a minimum resolution at which the optical system is operable to effectively capture the first image of the first region of the printed image or the second image of the second region of the printed image. 4. The optical system of claim 1 , wherein the processing circuitry derives the characteristic data by analyzing one or more print job specifications defining the image to be printed on the print media. 5. The optical system of claim 1 , wherein the processing circuitry captures the first region of the image at a default resolution setting and captures the second region by adjusting the default resolution setting. 6. The optical system of claim 5 , wherein the processing circuitry adjusts the default resolution setting by combining an output of the one or more optical sensors. 7. The optical system of claim 6 , wherein the processing circuitry combines the output of the one or more optical sensors to reduce by half the default resolution setting across a width and length of the printed image. 8. The optical system of claim 5 , wherein the processing circuitry adjusts the default resolution setting by combining partial output values of the one or more optical sensors. 9. A method for improving image processing efficiency of an optical system, the method comprising: receiving a print job specification defining an image to be printed on a print media; deriving characteristic data of the image to be printed on the print media from the print job specification; identifying at least a first region and a second region of the image to be printed on the print media based on the characteristic data; and capturing, using optical sensors, a first image of the first region of the printed image at a first resolution and a second image of the second region of the printed image at a second resolution that is different from the first resolution. 10. The method of claim 9 , wherein the characteristic data defines at least the first resolution used to capture the first image of the first region of the printed image and the second resolution used to capture the second image of the second region of the printed image. 11. The method of claim 9 , wherein resolution requirements correspond to a minimum resolution at which the optical system is operable to effectively capture the first image of the first region of the printed image or the second image of the second region of the printed image. 12. The method of claim 9 , wherein the characteristic data is derived by analyzing one or more print job specifications defining the image to be printed on the print media. 13. The method of claim 9 , wherein capturing the first region of the image utilizes default resolution settings and capturing the second region comprises adjusting the default resolution settings. 14. The method of claim 9 , wherein the optical system includes one or more optical sensors. 15. The method of claim 13 , wherein combining output of the optical sensors reduces by half the default resolution settings across a width and length of the printed image. 16. The method of claim 13 , wherein the default resolution settings are adjusted by combining partial output values of the optical sensors. 17. A method of calibrating an optical system, the method comprising: printing a first test pattern comprising bars and spaces of defined specifications; scanning the first test pattern; analyzing the scanned first test pattern to validate the scanned first test pattern according to a pre-defined acceptance criterion; recording thermal management settings of a printer based on the validation of the first test pattern; printing a second test pattern at the recorded thermal management settings; and calibrating the optical system using an effective aperture size of the optical system determined based on analyzing the second test pattern. 18. The method of claim 17 , wherein analyzing the scanned first test pattern further comprises: determining a first width of at least one space in the first test pattern; determining a second width of at least one bar in the first test pattern; and comparing the first width with the second width to validate the first test pattern according to the pre-defined acceptance criterion. 19. The method of claim 17 , wherein the effective aperture size is determined based on a reference table that includes a mapping between a resolution at which an image is to be scanned and the effective aperture size. 20. The method of claim 17 , wherein the defined specifications of the bars and spaces respectively in the first test pattern includes narrow elements and wide elements.