Program Overview

Program Overview

The university program in question is the Computational Optical Imaging course, which is a professional elective course for the major of Optoelectronic Information Science and Engineering.

Course Details

• Main Teacher: 肖永亮 (Xiao Yongliang)
• Teacher Team: 1 in total, including 肖永亮 (Xiao Yongliang)
• College: 湘潭大学 (Xiangtan University)
• Major: 光电信息科学与工程 (Optoelectronic Information Science and Engineering)
• Curriculum: 光电信息科学与技术 (Optoelectronic Information Science and Technology)
• Person in Charge: 肖永亮 (Xiao Yongliang)
• English Name: Computational Optical Imaging
• Credit: 2
• Period: 24

Course Introduction

This course is designed for students majoring in Optoelectronic Information Science and Engineering. It focuses on the numerical computation of optical information, utilizing Matlab as the programming platform. The course covers topics such as sampling theorem, two-dimensional optical field analysis, Fresnel diffraction, and more. Through a combination of theoretical introduction and programming simulation, students will gain a deeper understanding of optical information processing.

Course Responsibilities and Teacher Team

• Professional Title: 讲师 (Lecturer)
• Company: 湘潭大学 (Xiangtan University)
• Department: 物理与光电工程学院 (College of Physics and Optoelectronic Engineering)
• Position: 无 (None)

Teaching Methods

This course combines theoretical introduction with programming simulation, using Matlab to visualize the results of optical information theory. The teaching method involves a simple review of basic theories before proceeding to program compilation and demonstration of results related to diffraction.

Teaching Conditions

• Prerequisites: 高等数学 (Higher Mathematics), 线性代数 (Linear Algebra), 信息光学 (Optical Information)
• Facilities: 多媒体实验室 (Multimedia Laboratory) with Matlab software platform

Teaching Effects

1. Theoretical Knowledge Application: Students will be able to apply mathematical, optical information, and professional knowledge to solve practical problems.
2. Professional Knowledge Enhancement: Students will be able to apply basic knowledge of mathematics, optical information, and Matlab programming to analyze basic problems in optical information, gaining a more intuitive understanding of theoretical results.
3. Research Ability Enhancement: Students will be able to conduct research on basic problems in optical information processing based on mathematics, optical information, and Matlab scientific methods, including numerical simulation experiments, data analysis, and interpretation.

Reference Textbooks

1. 苏显渝, 曹益平, 李继陶, 张启灿编著, 《信息光学》, 科学出版社, 2010年6月.
2. 吕乃光编著, 《傅里叶光学》, 机械工业出版社, 2010年6月.
3. 陈家壁, 苏显渝, 《光学信息技术原理及应用》, 高等教育出版社, 2009年11月.
4. 李俊昌, 熊秉衡, 《信息光学教程》, 科学出版社, 2011年.
5. J.W.Goodman, Introduction to Fourier Optics, Mc Graw, Hill, 1996.

Teaching Outline

The teaching outline includes course introduction, teacher introduction, teaching methods, teaching conditions, teaching effects, reference textbooks, and more.

Examination Outline

• Examination Method: Programming simulation of given topics
• Assessment Standards: Including attendance (10%), final exam (60%), and regular grades (30%)

Learning Guidance

The course adopts a combination of classroom lectures and homework, with specific requirements for detailed explanation of basic principles and program compilation, selection of homework and examination focus, and cultivation of self-learning and improvement awareness.