Unit CIRCUITS FOR MODELLING OF SYSTEMS AND PROCESSES
- Course
- Industrial engineering
- Study-unit Code
- A000399
- Curriculum
- In all curricula
- Teacher
- Pietro Burrascano
- CFU
- 12
- Course Regulation
- Coorte 2023
- Offered
- 2023/24
- Type of study-unit
- Opzionale (Optional)
- Type of learning activities
- Attività formativa integrata
APPLICATION OF CIRCUITS FOR MODELLING OF SYSTEMS AND PROCESSES
Code | A000401 |
---|---|
CFU | 4 |
Teacher | Pietro Burrascano |
Teachers |
|
Hours |
|
Learning activities | Affine/integrativa |
Area | Attività formative affini o integrative |
Academic discipline | ING-IND/31 |
Type of study-unit | Opzionale (Optional) |
Language of instruction | Italian-APPLICATION OF CIRCUITS FOR MODELLING OF SYSTEMS AND PROCESSES |
Contents | Practical examples of applications of the fundamentals of Analog and Numerical Signal Processing Techniques: Implementation theory and techniques for non-destructive material diagnostics. |
Reference texts | Teaching materials prepared by the teacher. Optional text (in Italian) Alessandro Falaschi: Trasmissione dei segnali e sistemi di Telecomunicazione. https://teoriadeisegnali.it/wiki/Libro/OnLine Ultrasonic Nondestructive Evaluation Systems: Industrial Application Issues, Editors: Burrascano, P., Callegari, S., Montisci, A., Ricci, M., Versaci, M. (Eds.), SPRINGER |
Educational objectives | The module "CIRCUITS APPLICATION FOR SYSTEM AND PROCESS MODELING" of the course "CIRCUITS FOR SYSTEM AND PROCESS MODELING" provides the basic elements for applying the signal processing tools necessary for the control of industrial processes and products. The main knowledge acquired will be related to the application of the technique for: -Frequency and time domains representation of signals -Frequency and time characterisation of linear signal processing via analogue or digital circuits; -synthesis of elementary circuits The main skills will be: -to represent a signal in the time domain or in the frequency domain -to know how to characterize in the time domain or in the frequency domain the transit of a signal through a circuit for its elaboration -to know how to synthesize an elementary signal processing circuit for Industrial Process Control |
Prerequisites | Fundamentals of the theory of linear analog and stationary circuits. Understanding the basic rules for the study of these circuits in time and frequency domains, and their energetic aspects. |
Teaching methods | Lectures, classroom exercises |
Other information | Attending lessons is highly recommended |
Learning verification modality | Oral examination. The test consists of questions related to the implementation of theoretical aspects related to the issues addressed in individual lessons and, to demonstrate their knowledge and understanding on the part of the student, as well as the ability to describe its contents. The approximate duration of the test is 20 -30 min. (once the pandemic crisis is over) For information on support services for students with disabilities and/or DSA, visit http://www.unipg.it/disabilita-e-dsa |
Extended program | The basic knowledge acquired in the course of "CIRCUITS FOR MODELLING SYSTEMS AND PROCESSES" will be implemented in practice in three laboratory experiences:I experience: circuits and waveformsII experience: impulse response and transfer functionIII experience: correspondence between FIR filter and analogue filter |
CIRCUITS FOR MODELLING OF SYSTEMS AND PROCESSES
Code | A000400 |
---|---|
CFU | 8 |
Teacher | Pietro Burrascano |
Teachers |
|
Hours |
|
Learning activities | Affine/integrativa |
Area | Attività formative affini o integrative |
Academic discipline | ING-IND/31 |
Type of study-unit | Opzionale (Optional) |
Language of instruction | Italian |
Contents | Theoretical fundamentals of techniques analog and Digital Signal Processing: Theory and implementation techniques for non-destructive diagnostics of materials. Practical examples are in the Applications module. |
Reference texts | Teaching materials prepared by the teacher. Optional text (in Italian) Alessandro Falaschi: Trasmissione dei segnali e sistemi di Telecomunicazione. https://teoriadeisegnali.it/wiki/Libro/OnLine Ultrasonic Nondestructive Evaluation Systems: Industrial Application Issues, Editors: Burrascano, P., Callegari, S., Montisci, A., Ricci, M., Versaci, M. (Eds.), SPRINGER |
Educational objectives | The module " CIRCUITS FOR MODELLING OF SYSTEMS AND PROCESSES " of the course " CIRCUITS FOR MODELLING OF SYSTEMS AND PROCESSES " provides the basic theoretical elements for the signal processing, necessary for the monitoring of industrial processes and products. The main knowledge gained will be: -Representation In frequency and in time domains of the signals -Characterization In frequency and in time domains of linear processing of signals using analog or digital circuits -Synthesis of elementary circuits The main skills are: -be able to represent a signal in the time or in the frequency domain -being able to characterize in the time domain or in the frequency domain the transit of a signal through a circuit for its processing -be able to synthesize an elementary signal processing circuit for the Control of Industrial Processes |
Prerequisites | Fundamentals of the theory of linear analog and stationary circuits. Understanding the basic rules for the study of these circuits in time and frequency domains, and their energetic aspects. |
Teaching methods | Lectures, classroom exercises |
Other information | Attending lectures is strongly recommended |
Learning verification modality | Oral examination. The test consists of questions related to the theoretical aspects related to the issues addressed in individual lessons and, to demonstrate their knowledge and understanding on the part of the student, as well as the ability to describe its contents. The approximate duration of the test is 20 -30 min. (once the pandemic crisis is over) For information on support services for students with disabilities and/or DSA, visit http://www.unipg.it/disabilita-e-dsa. |
Extended program | Basics Recalls on the Representation of Harmonic signals Representation of the signals in the time domain: impulse response and convolution Introduction MATLAB and LabVIEW MyDaq Signals and Systems A / D conversion and sampling TD Circuits, Digital Circuits Laplace transform and z transform Canonical structures of Digital Filters and elementary methods of synthesis of digital filters |