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Advanced Automatic Control

Vito CALDERARO Advanced Automatic Control

0622400010
DEPARTMENT OF INDUSTRIAL ENGINEERING
EQF7
ELECTRONIC ENGINEERING
2024/2025



OBBLIGATORIO
YEAR OF COURSE 1
YEAR OF DIDACTIC SYSTEM 2018
AUTUMN SEMESTER
CFUHOURSACTIVITY
990LESSONS
PAOLO SOMMELLA T Curriculum
VITO CALDERARO Curriculum
Objectives
ANALYSIS AND DESIGN OF CONTINUOUS AND DISCRETE TIME DETERMINISTIC AND STOCHASTIC CONTROL SYSTEMS.
LEARNING OF MOST MODERN METHODOLOGIES OF DYNAMIC SYSTEM CONTROLLER DESIGN
KNOWLEDGE AND UNDERSTANDING ABILITY
ADVANCED TECHNIQUES FOR THE CONTROL OF DYNAMIC SYSTEMS. ANALYSIS OF NONLINEAR SYSTEMS. OPTIMAL CONTROL.
KNOWLEDGE AND UNDERSTANDING
KNOWING HOW TO DESIGN EXCELLENT CONTROLLERS FOR LINEAR DYNAMIC SYSTEMS. TO BE ABLE TO ANALYZE LINEAR AND NONLINEAR CONTROL SYSTEMS.
AUTONOMY OF JUDGMENT
KNOWING HOW TO IDENTIFY THE MOST APPROPRIATE METHODS FOR FEEDBACK CONTROL OF DYNAMIC SYSTEMS AT ONE INPUT AND ONE OUTPUT.
COMMUNICATION SKILLS
KNOWING HOW TO EXPOSE A TOPIC OF THE COURSE ORALLY. KNOWING HOW TO WRITE A REPORT ON AN ANALYSIS OR A PROJECT CARRIED OUT.
KNOWLEDGE AND UNDERSTANDING ABILITY
BASIC OPTIMIZATION TECHNIQUES. ADVANCED TECHNIQUES FOR THE CONTROL OF DYNAMIC SYSTEMS. ANALYSIS OF NONLINEAR SYSTEMS. OPTIMAL CONTROL. STOCHASTIC SYSTEMS ANALYSIS
APPLIED KNOWLEDGE AND UNDERSTANDING ABILITY
KNOWING HOW TO DESIGN OPTIMAL CONTROLLERS FOR LINEAR SYSTEMS KNOWING HOW TO ANALYZE LINEAR AND NONLINEAR CONTROL SYSTEMS. KNOWING HOW TO IMPLEMENT OPTIMAL ESTIMATION ALGORITHMS
AUTONOMY OF JUDGMENT
KNOWING HOW TO IDENTIFY THE MOST APPROPRIATE METHODS FOR FEEDBACK CONTROL OF DYNAMIC MONOVARIABLE SYSTEMS .
COMMUNICATION SKILLS
KNOWING HOW TO EXPOSE A TOPIC OF THE COURSE ORALLY. KNOWING HOW TO WRITE A REPORT ON AN ANALYSIS OR A PROJECTCARRIED OUT.
ABILITY TO LEARN
KNOWING HOW TO APPLY THE ACQUIRED KNOWLEDGE TO DIFFERENT CONTEXTS FROM THOSE PRESENTED DURING THE COURSE, AND TO DEEPEN THEMTOPICS COVERED USING MATERIALS OTHER THAN THOSE PROPOSED.
.
Prerequisites
BASIC MATHEMATICS, WITH PARTICULAR REFERENCE TO LINEAR ALGEBRA COMPLEX ANALISYS, MULTIVARIABLE CALCULUS, BASIC CONCEPTS OF PROBABILITY IN ADDITION TO KNOWLEDGE ABOUT CLASSICAL CONTROLLER PROJECT METHODS AND TO THOSE OF ANALYSIS OF DETERMINISTIC AND RANDOM SIGNALS.
Contents
STABILITY AND STRUCTURAL PROPERTIES OF CONTINUOUS-TIME SYSTEMS: LYAPUNOV METHOD
REACHABILITY, OBSERVABILITY, CANONICAL BREAKDOWN (5 HOURS OF FRONTAL LESSONS)
SYNTHESIS OF CONTROLLERS BY THE THE ROOTS LOCUS (8 HOURS OF LECTURES)
STATE FEEDBACK CONTROL: POLE ASSIGNMENT. CONTROL SCHEME WITH AND WITHOUT, STATE OBSERVER AND OUTPUT FEEDBACK. PROJECT WITH ANALYTICAL METHODS - ASSIGNMENT OF THE CLOSED CYCLE MODEL. (5 HOURS OF FRONTAL LESSONS)
PID REGULATORS (4 FOR LECTURES AND 2 FOR EXERCISES)
ADVANCED CONTROL SCHEMES: OPEN-LOOP REGULATORS. SMITH PREDICTOR, CASCADE REGULATORS (3 HOURS OF LECTURES, 1 OF EXERCISES)
STATIC NONLINEAR OPTIMIZATION (5 HOURS OF LECTURES AND 3 HOURS OF PRACTICE)
VARIATIONAL METHODS AND OPTIMAL CONTROL (10 HOURS OF FRONTAL LESSONS)
NON-LINEAR CONTROL: EXISTENCE OF LIMIT CYCLES. THE METHOD OF THE DESCRIPTIVE FUNCTION (3 OF FRONTAL LESSON)
MODEL-BASED PREDICTIVE CONTROL: INTRODUCTION AND INDUSTRIAL REASONS FOR PREDICTIVE CONTROL. PROBLEM FORMULATION. DESIGN OF MODEL-BASED ELEMENTARY PREDICTIVE CONTROLLERS. (8 LECTURES)
DIGITAL CONTROL: DISCREET TIME SYSTEMS (5 HOURS OF FRONTAL LESSONS)
CONTINUOUS-TIME ANALYSIS AND SYNTHESIS OF DIGITAL CONTROL SYSTEMS (5 HOURS OF FRONTAL LESSONS)
CONTINUOUS-TIME ANALYSIS AND SYNTHESIS OF DIGITAL CONTROL SYSTEMS (8 LECTURES)
ANALYSIS AND SUPERVISORY CONTROL OF DISCREET EVENT SYSTEMS BY MEANS OF PETRI NET MODELS. PETRI NET: INTRODUCTION AND MAIN PROPERTIES. SUPERVISORY CONTROL BY MEANS OF MONITOR PLACES AND USE OF MATHEMATICAL PROGRAMMING. (7 HOURS OF LECTURES, 2 OF EXERCISES, 6 OF LABORATORY)
Teaching Methods
TEACHING INCLUDES THEORETICAL LESSONS, CLASSROOM EXERCISES AND EXERCISES INLABORATORY.
IN THE CLASSROOM ARE ASSIGNED, PERFORMED AND COMMENTED EXERCISES TO BE RESOLVED BY USING SCIENTIFIC CALCULATOR AND DIAGRAMS.
IN THE LABORATORY EXERCISED SIMULINK AND MATLAB WILL BE USED
Verification of learning
THE TEST OF EXAMINATION IS AIMED TO EVALUATE IN ITS COMPLEX: THE KNOWLEDGE AND THE
UNDERSTANDING OF THE CONCEPTS PRESENTED IN THE COURSE; THE ABILITY TO APPLY SUCH
KNOWLEDGE FOR THE RESOLUTION OF ANALYSIS AND CONTROL PROBLEMS OF DYNAMIC SYSTEMS;
THE JUDGMENT SKILLS, COMMUNICATION SKILLS AND LEARNING SKILLS
THE EXAM CONSISTS IN AN INTERVIEW
ORAL, WHOSE PURPOSE IS TO ASSESS THE KNOWLEDGE AND UNDERSTANDING SKILLS, THE
ABILITY TO LEARN DEMONSTRATED.
 
DURING THE ORAL INTERVIEW, THE STUDENT MUST PREVIOUSLY DESCRIBE THE PROJECT DEVELOPED DURING THE COURSE AND ITS PARTICULAR CONTRIBUTION IN THE CASE OF GROUP WORK. THE INTERVIEW WILL THEN BE ON ALL THE TOPICS OF THE COURSE AND THE EVALUATION WILL BE HELD
ACCOUNT OF KNOWLEDGE PROVEN BY THE STUDENT AND THE DEGREE OF THEM
DEEPENING, ABILITY TO LEARN DEMONSTRATED, OF QUALITY
EXPOSURE.
THE FINAL EVALUATION, EXPRESSED IN THIRTY YEARS, WILL DEPEND ON THE MATURITY ACQUIRED ON THE
CONTENTS OF THE COURSE, TAKING INTO ACCOUNT THE QUALITY OF THE EXHIBITION OF THE PROJECT
 AND THE AUTONOMY OF JUDGMENT DEMONSTRATED. THE PRAISE CAN BE ATTRIBUTED TO THE
STUDENTS WHO DEMONSTRATE THAT YOU KNOW HOW TO APPLY THE KNOWLEDGE ACQUIRED WITH AUTONOMY
ALSO IN CONTEXTS DIFFERENT FROM THOSE PROPOSED IN THE COURSE.
Texts
REFERENCE BOOKS:
- P. BOLZERN, R. SCATTOLINI, N. SCHIAVONI, FONDAMENTI DI CONTROLLI AUTOMATICI 4 ED , MCGRAW-HILL, MILANO,
2008, ISBN 978-88-386-6882-1.
- J. S. ARORA, INTRODUCTION TO OPTIMUM DESIGN, ELSEVIER
- D. S. NAIDU, OPTIMAL CONTROL SYSTEMS, CRC PRESS

IN-DEPTH BOOKS
-R.F. STENGEL, OPTIMAL CONTROL AND ESTIMATION, DOVER PUBNS 1994, ISBN-13: 978-0486682006
More Information
THE REFERENCE LANGUAGE OF THE COURSE IS ITALIAN
Lessons Timetable

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