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41
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Course Description

Control engineering or control systems engineering is the engineering discipline that applies control theory to design systems with desired behaviors. The practice uses sensors to measure the output performance of the device being controlled and those measurements can be used to give feedback to the input actuators that can make corrections toward desired performance. When a device is designed to perform without the need of human inputs for correction it is called automatic control

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Course Syllabus
  • Lec-1 Introduction to control problem
  • Lec-2 Basic Feedback Structure
  • Lec-3 Introduction to Control Problem (Contd.)
  • Lec-4 Dynamic Systems and Dynamic Response
  • Lec-5 Dynamic Systems and Dynamic Response (Contd.)
  • Lec-6 Dynamic Systems and Dynamic Response (Contd.)
  • Lec-7 Dynamic Systems and Dynamic Response (Contd.)
  • Lec-8 Dynamic Systems and Dynamic Response (Contd.)
  • Lec-9 Dynamic Systems and Dynamic Response (Contd.)
  • Lec-10 Models of Industrial Control Devices and Systems
  • Lec-11 Models of Industrial Control Devices and Systems (Contd.)
  • Lec-12 Models of Industrial Control Devices and Systems( Contd.)
  • Lec-13 Models of Industrial Control Devices and Systems( Contd.)
  • Lec-14 Models of Industrial Control Devices and Systems( Contd.)
  • Lec-15 Models of Industrial Control Devices and Systems( Contd.)
  • Lec-16 Models of Industrial Control Devices and Systems (Contd.)
  • Lec-17 Models of Industrial Control Devices and Systems (Contd.)
  • Lec-18 Models of Industrial Control Devices and Systems (Contd.)
  • Lec-19 Basic Principles of Feedback Control
  • Lec-20 Basic Principles of Feedback Control (Contd.)
  • Lec-21 Basic Principles of Feedback Control (Contd.)
  • Lec-22 Basic Principles of Feedback Control (Contd.)
  • Lec-23 Concepts of stability and Routh Stability Criterion
  • Lec-24 Concepts of stability and Routh Stability Criterion (Contd.)
  • Lec-25 Concepts of stability and Routh Stability Criterion (Contd.)
  • Lec-26 The Performance of Feedback Systems
  • Lec-27 The Performance of Feedback Systems (Contd.)
  • Lec-28 The Performance of Feedback Systems (Contd.)
  • Lec-29 The Performance of Feedback Systems (Contd.)
  • Lec-30 Compensator Design Using Root Locus Plots
  • Lec-31 Compensator Design Using Root Locus Plots (Contd.)
  • Lec-32 Compensator Design Using Root Locus Plots (Contd.)
  • Lec-33 Compensator Design Using Root Locus Plots (Contd.)
  • Lec-34 Compensator Design Using Root Locus Plots (Contd.)
  • Lec-35 The Nyquist Stability Criterion and Stability Margins
  • Lec-36 The Nyquist Stability Criterion and Stability Margins (Contd.)
  • Lec-37 The Nyquist Stability Criterion and Stability Margins (Contd.)
  • Lec-38 The Nyquist Stability Criterion and Stability Margins (Contd.)
  • Lec-39 Feedback System Performance Based on the Frequency Response
  • Lec-40 Feedback System Performance Based on the Frequency Response (Contd.)
  • Lec-41 Compensator Design Using Frequency Response Plots
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