Course No:1121118
Title:Modern Optical Information Techniques
Class Hours/Week: 3-1 Credit: 2 Category: Specialty
Prerequisites:Optical Engineering
Test and Grading Criteria:
open-book exam (70%)+usually works(30%)
Course objectives and basic requirements:
This course will provide students with a deep understanding of optical information processing technique and. Through the visualization of the image process to make student master the basic principle of optical information processing technique. Application will also given.
Course introduction:
Mathematical techniques pertaining to linear systems theory; Fresnel and Fraunhoffer diffraction; Fourier transform properties of lenses; frequency analysis of optical systems, spatial filtering, application such as optical information processing and holography(All the theory equations are realized by MATLAB).
Application will include:
1.Optical image processing
2.Wavefront coding technique
3.Optical low pass filter
4.Polarization interference filter
5.Optical projection display
6.Spatical light modulatorwith aberration, Strehl ratio and Alaising), Optimization(MatLab realization), Optical Coordinate Transform and Code V
1.Optical image processing
2.Wavefront coding technique
3.Optical low pass filter
4.Polarization interference filter
5.Optical projection display
6.Spatical light modulatorwith aberration, Strehl ratio and Alaising), Optimization(MatLab realization), Optical Coordinate Transform and Code V
Suggested textbooks or references:
Textbooks:
讲义+PPT
References:
1. J.W.Goodman. Introduction to Fourier Optics
2. Optical Computing Hardware, Jahns and S.H.Lee
3. SPIE Proceeding
4 Applied Optics
1. J.W.Goodman. Introduction to Fourier Optics
2. Optical Computing Hardware, Jahns and S.H.Lee
3. SPIE Proceeding
4 Applied Optics