Weeks | Topics |
1 |
Introduction: Definitions and Basic Concepts, Open-Loop (Without Feedback) and Closed-Loop (With Feedback) Control Systems, Examples of Control Systems Applications
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2 |
Mathematical Modeling of Physical Systems and System Dynamics: Impulse Response and Transfer Functions of Linear Systems
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3 |
Mathematical Modeling of Physical Systems and System Dynamics: Block Diagrams, Signal Flow Diagrams
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4 |
Mathematical Modeling of Physical Systems and System Dynamics: State-space Modeling and Analysis of Control Systems
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5 |
Mathematical Modeling of Physical Systems and System Dynamics: Mechanical Systems, Electrical and Electronic Systems
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6 |
Mathematical Modeling of Physical Systems and System Dynamics: Liquid-level Systems, Thermal Systems
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7 |
Transient and Steady-state Response Analyses of Systems: First-order Systems
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8 |
Transient and Steady-state Response Analyses of Systems: Second-order Systems, Higher- Order Systems
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9 |
Transient and Steady-state Response Analyses of Systems: Stability Analyses
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10 |
Transient and Steady-state Response Analyses of Systems: Steady-state Error
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11 |
Basic Control Actions and Response of Control Systems: Automatic Control Systems (P, PD, PI ve PID)
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12 |
Basic Control Actions and Response of Control Systems: Effects of Integral and Derivative Control Actions on System Performance
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13 |
Basic Control Actions and Response of Control Systems: Pneumatic Controllers
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14 |
Basic Control Actions and Response of Control Systems: Hydraulic Controllers, Electronic Controllers
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