Academics
Dop Course Outline
OS7197 Digital optics
Last Revised: 2023-12-21
Course Objectives
•Make students to understand the connection between various digital
optical techniques and Fourier optics.• Enable students to use MATLAB to
write simulation code for digital optical technologies.
Prerequisite
Textbook 1.J. W. Goodman, Introduction to Fourier Optics (McGraw-Hill, 2002).2.Poon, T.-C. & Liu, J.-P. Introduction to Modern Digital Holography: with Matlab (Cambridge University Press, 2014).3.D. C. O’Shea, T. J. Suleski, A. D. Kathman, and D. W. Prather, Diffractive Optics: Design, Fabrication, and Test, (SPIE tutorial text, Washington, 2004).4.Bernd Jahne, Digital Image Processing: Concepts, Algorithms, and Scientific Applications (Springer,Germany, 2005)
Topical Outline •Fourier opticsOrthogonality of Fourier basisLinear shift invariant systemWave propagation simulation methods•Digital optical modulationDiffractive optical elementSingle-pixel image•Digital optical detectionDigital holographyCode aperture Turbidity suppression image
Prerequisite
Textbook 1.J. W. Goodman, Introduction to Fourier Optics (McGraw-Hill, 2002).2.Poon, T.-C. & Liu, J.-P. Introduction to Modern Digital Holography: with Matlab (Cambridge University Press, 2014).3.D. C. O’Shea, T. J. Suleski, A. D. Kathman, and D. W. Prather, Diffractive Optics: Design, Fabrication, and Test, (SPIE tutorial text, Washington, 2004).4.Bernd Jahne, Digital Image Processing: Concepts, Algorithms, and Scientific Applications (Springer,Germany, 2005)
Topical Outline •Fourier opticsOrthogonality of Fourier basisLinear shift invariant systemWave propagation simulation methods•Digital optical modulationDiffractive optical elementSingle-pixel image•Digital optical detectionDigital holographyCode aperture Turbidity suppression image
