Skip to main content
Graph
Search
fr
|
en
Login
Search
All
Categories
Concepts
Courses
Lectures
MOOCs
People
Practice
Publications
Startups
Units
Show all results for
Home
Lecture
Tuning PID Parameters: Closed Loop Experimental Test
Graph Chatbot
Related lectures (32)
Previous
Page 1 of 4
Next
Model Reference Method: PID Regulator Design
Explores the Model Reference Method for designing PID regulators and cascade controllers for complex systems.
Cascade Control: Furnace Temperature and Gas Pressure Regulation
Explores cascade control for furnace temperature and gas pressure regulation, showcasing its advantages over single-loop systems.
Lead-lag Controller: Recap and Feedforward Action
Explains the lead-lag controller, process control, feedforward action, and disturbance rejection in feedback systems.
Control and Field Level Devices
Covers the fundamentals of control and field level devices in industrial automation, including PLCs, programming, different types of controllers, and advanced control strategies.
PID Control in Robotics
Explores the impact of P, D, and I parameters on control systems in robotics.
Nyquist Stability Criteria
Explains Nyquist stability criteria and loop shaping for system performance and robustness.
StateSpace ControlDesign
Explores full state feedback control design, focusing on pole placement and linear state-feedback controller design for systems like a pendulum.
Digital Controller Design: Discrete-Time Models
Covers digital controller design, discrete-time models, RST controller, pole placement, regulation, tracking, and time-domain performance.
Feedback Control Systems: PID Regulator Synthesis
Explores closed-loop control systems, PID regulator design, and performance analysis.
Multivariable Control: Eigenvalue Assignment and Disturbance Estimation
Discusses closed-loop eigenvalue selection and disturbance impact in multivariable control systems.
