This course presents principles of digital signal processing , continuous-time signals and systems. Spectrum representation of discrete-time signals will cover sampling theorem, the discrete-time Fourier transform (DTFT), Discrete Fourier Transform (DFT), and White Noise, Padding & Auto-correlation. Another domain presented is z-transform. The course offers an introduction to some filter types and their characteristics
This core course will be offered in 23/04 semester from EEE.
This core course will be offered in 23/04 semester from EEE.
This course introduces the concepts of control system, including bode plots, nyquist criterion, root locus methods, stability of systems, etc. Students will learn to use these concepts to design efficient control systems.
This course prepares students for working with various types of electrical instruments. Students will learn the basic workings of each instrument and understand their measurement accuracy, precision and errors.
This course provides a thorough introduction to the C programming language. It covers basic syntax and grammar, and exposes students to practical programming techniques.
In this course, students will learn to apply the concepts and theories in probability. They will also learn to determine the appropriate statistical method to analyze a given data set.
This course is the final stage for the students to integrate their knowledge and skills to solve a given project and write a formal report to explain how they use their knowledge to solve the problem with detail. The presentation will provide students the opportunity to present the work they have done.
This course covers the principles of digital system design. It builds on logic design principles learned in earlier course, digital electronics. This course demonstrates how digital design and rapid prototyping have been facilitated by FPGAs and hardware description languages (Verilog). The content of this course includes combinational and sequential logic, finite state machine, register transfer level (RTL) design, design flow, hardware description language, and FPGAs.
To expose students to fundamental principles of analog and digital modulations/demodulation and investigate the noise performance of various modulation schemes
This course is the foundation on which most other courses in the electrical engineering curriculum rest. Electrical systems involve the use of circuits. We will focus on the circuits in which the direction of current flow alternates.
This course deals with the application of solid-state electronics to the control and conversion of electrical power and meets the needs for experts in electrical engineering.