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Fundamentals of Control

The course is an introduction to the fundamental principles and methodologies of classical feedback control and its applications. Topics include analytical, graphical and computer-aided (MATLAB) techniques for analyzing and designing automatic control systems; analysis of performance, stability criteria, realizability, and speed of response; compensating methods in the frequency domain, root-locus and frequency response design, and pole-zero synthesis techniques; robust controller design; systems with delay and computer control systems; transfer function and state space modeling of linear systems, nonlinearities in control systems; and control engineering sotware (MATLAB).

Course ID
ECEN315
Level
Undergraduate
Professors
Credit Hours
CH:3

Identify, formulate, and solve complex engineering problems by applying engineering fundamentals, basic science and mathematics.Develop and conduct appropriate experimentation and/or simulation, analyze and interpret data, assess and evaluate findings, and use statistical analyses and objective engineering judgment to draw conclusions.Practice research techniques and methods of investigation as an inherent part of learning.Classify and evaluate the applications and market segments in the ICT market to create a specific ICT product including estimation of the required resources