Students who successfully complete the course will demonstrate knowledge and understanding of:
- z transform analysis of sampled data feedback loops
- a suite of techniques for digital controller design
- expressing real engineering problems as an exercise in linear digital controller design
- choice of appropriate design methodology
- choice of performance analysis tools
- ability to program control system design and analysis problems in matlab
- ability to use the matlab control toolbox
- ability to successfully design a linear digital controller
- write and debug a matlab program
- formulate a digital control problem, design a solution, and test the result by simulating it via matla
- z transform analysis of sampled data feedback loops
- a suite of techniques for digital controller design
- expressing real engineering problems as an exercise in linear digital controller design
- choice of appropriate design methodology
- choice of performance analysis tools
- ability to program control system design and analysis problems in matlab
- ability to use the matlab control toolbox
- ability to successfully design a linear digital controller
- write and debug a matlab program
- formulate a digital control problem, design a solution, and test the result by simulating it via matla
scheda docente
materiale didattico
-Discrete time system representation
-Mathematical modelling of sampling process
-Data reconstruction
Modeling discrete time systems
-Pulse transfer function
-Mapping of s-plane to z-plane
Stability analysis of discrete time system
-Routh Hourwitz stability test
-Jury stability test
Time response of discrete systems
-Transient and steady state responses
-Time response parameters of a prototype second order system
Design of sampled data control systems
-Bode plot
-Steady state compensator
-Discretization of Continuous Controllers
-Difference Approximations
-Impulse/Step Discretization
-Zero-Pole Matching
-Compensator design in w domain
PID controllers
-PID actions
-System identification
-PID parameters tuning
Quantization errors
Introduction to microcontroller: the Arduino board
Mutuazione: 20801959 CONTROLLO DIGITALE in Ingegneria Informatica e dell'Intelligenza Artificiale L-8 N0 PASCUCCI FEDERICA
Programma
Introduction to Digital Control System-Discrete time system representation
-Mathematical modelling of sampling process
-Data reconstruction
Modeling discrete time systems
-Pulse transfer function
-Mapping of s-plane to z-plane
Stability analysis of discrete time system
-Routh Hourwitz stability test
-Jury stability test
Time response of discrete systems
-Transient and steady state responses
-Time response parameters of a prototype second order system
Design of sampled data control systems
-Bode plot
-Steady state compensator
-Discretization of Continuous Controllers
-Difference Approximations
-Impulse/Step Discretization
-Zero-Pole Matching
-Compensator design in w domain
PID controllers
-PID actions
-System identification
-PID parameters tuning
Quantization errors
Introduction to microcontroller: the Arduino board
Testi Adottati
Charles L. Phillips, Troy Nagle, Aranya Chakrabortty, "Digital Control System Analysis & Design", Pearson Education,2014Modalità Erogazione
--Modalità Frequenza
--Not applicableModalità Valutazione
Written test. Oral exam. Project evaluation.