Introduction to the Course System Dynamics and Control 0.01 Introduction to the course HCM City Univ.. of Technology, Faculty of Mechanical Engineering Nguyen Tan Tien Chapter 00– Introd
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00 Introduction to the Course
System Dynamics and Control 0.01 Introduction to the course
HCM City Univ of Technology, Faculty of Mechanical Engineering Nguyen Tan Tien
Chapter 00– Introduction
-Name of course: SYSTEM DYNAMICS AND CONTROL
-Number of Credits: 3
-Level: 1st, 2ndyear student
-Time allocation
• Lecture: 4 hrs/week
• Assignment: 4 hrs/week
-Course Description
This course provides an introduction to linear systems, transfer functions, and Laplace transforms It covers stability and feedback, and provides basic design tools for specifications of transient response It also briefly covers frequency-domain techniques This course includes laboratory experiments and a control design project
HCM City Univ of Technology, Faculty of Mechanical Engineering Nguyen Tan Tien System Dynamics and Control 0.02 Introduction to the course
-Overall Educational Objectives/Learning Outcomes
At the end of the course a successful student should be able to
• analysis a feedback system
• design a feedback system
-Student responsibility
• Student is expected that you will spend at least 8 hours/week
studying this course (4 lecture + 4 assignment)
• University regulations indicate that if students attend less than
80% of scheduled classes they may be refused final
assessment
HCM City Univ of Technology, Faculty of Mechanical Engineering Nguyen Tan Tien
System Dynamics and Control 0.03 Introduction to the course
-Course Assessment Policy
• In-class quizzes, class participation and learning attitude: 20%
-Textbooks
• Norman S Nise,
Control Systems Engineering, 6Ed,
John Wiley and Sons, Inc., 2011
• William J Palm III,
System Dynamics, 3Ed
Mc Graw Hill Higher Education, 2014
• William J Palm III,
Introduction to MATLAB for Engineers, 3Ed
Mc Graw Hill, 2010 HCM City Univ of Technology, Faculty of Mechanical Engineering Nguyen Tan Tien System Dynamics and Control 0.04 Introduction to the course
-Grade scale: 10
-Course Outline
Introduction to control system Modelling of physical linear
time-invariant systems Transient and steady-state response
specifications State space representation of systems
Frequency response characterization Stability Feedback
control systems PID controller design Root locus and
frequency response design methods Lead, lag and PID
compensators
HCM City Univ of Technology, Faculty of Mechanical Engineering Nguyen Tan Tien
System Dynamics and Control 0.05 Introduction to the course