Light and Image Capture, Human Visual System, Mathematics for 2D digital signals, Image Analysis, Image Enhancement, Constrained and Unconstrained Image Restoration, Image Coding Theory. (Not for students who have taken ELEG4430.)

This course first review the fundamental knowledge about semiconductor physics and MOSFET transistors and go through various advanced silicon based devices and technologies, including NMOS, CMOS, CCD, TFT and SOI. Junction devices, namely bipolar junction transistors, tunnel diodes, heterojunction and quantum-well devices, and quantum dots, are introduced. Silicon based memory technologies, including DRAM, floating gate MOSFET, flash memory, are covered. The course also gives introduction to photonic devices, for examples, light emitting devices (LEDs), semiconductor lasers, photodetectors, and solar cells. Organic electronics, including organic light emitting diodes (OLEDs) and organic thin film transistors, and flexible electronic devices are described. (Not for students who have taken ELEG4301 or ELEG4510 or ESTR4210 or ESTR4216. Prerequisites: ELEG3301 or consent of the instructor.)

Review on discrete-time signals and sampling; Analysis of discrete-time system; Discrete Fourier transform and fast Fourier transform; Time-frequency analysis of signals; Design and realization of digital filters; Basics of statistical signal processing; Optimal filter design. DSP applications and case studies. (Not for students who have taken ELEG4410 or ELEG4511 or ESTR4212 or ESTR4218. Prerequisite: ELEG3503 or consent of the instructor.)

Fundamentals of microoptics: Fraunhofer and Fresnel diffractions, spatial and temporal coherence, polarization, interferometers and thin film filters; microlens performance: diffraction limit and aberrations, scaling from macro to micro components; refractive microoptics: GRIN optics, microprisms and micromirrors; diffractive microoptics: fabrication techniques, examples of diffractive optical elements, modelling of diffractive optics; Case studies of microoptics applications in beam shaping, optical data discs and optical imaging. (Not for students who have taken ELEG4580.)