Unit APPLIED IMAGE AND SIGNAL PROCESSING

Course
Informatics
Study-unit Code
A002085
Curriculum
Cybersecurity
Teacher
Gianluca Vinti
Teachers
  • Gianluca Vinti
  • Danilo Costarelli (Codocenza)
Hours
  • 52 ore - Gianluca Vinti
  • 10 ore (Codocenza) - Danilo Costarelli
CFU
6
Course Regulation
Coorte 2020
Offered
2021/22
Learning activities
Affine/integrativa
Area
Attività formative affini o integrative
Academic discipline
MAT/05
Type of study-unit
Opzionale (Optional)
Type of learning activities
Attività formativa monodisciplinare
Language of instruction
English
Contents
• Introduction to the course
•Summary of images and applications of the sampling theorem to image
•Approximate sampling and sampling-Kantorovich operators:

•MATLAB and its applications to Image Processing

•GIMP, IMAGEJ, PHYTON and their applications to Image Processing
•Medical diagnostics:
-General introduction to medical diagnostics
- Diagnostic and interventional vascular surgery

•Applied Mathematics Lab


•New diagnostic methods in ophthalmology
-OCT, Angio OCT and new techniques. Maculopaties and retinopaties
-Image Processing for the diagnosis

•Hospital visits:
-Visit to the radiology department: radiography (RX), Computer Tomography (CT), Magnetic resonance imaging (MRI), Echography, CardioCT
-Vascular Surgery interventions: endovascular treatments
-Innovative instrumentation for ophthalmic diagnosis
-Clinical trials of a microwaves mammography and image processing

•Non invasive diagnostic: applications
-Image Processing for seismic vulnerability
-Image Processing for thermal bridges
-Use of thermography

•Visit to the Centre for Research on pollution and environment
-Hot-Box, thermography, thermal bridges and noise
Reference texts
Notes and slides of the teacher. It will be recommended some books.
Educational objectives
Learning outcomes:

The course provides knowledge of the major concepts of image processing with particular reference to the medical ones.

The main knowledge (descriptor Dublin 1) will be acquired:

• knowledge of the reconstruction of signals and images by sampling;
• Knowledge of the main concepts and analysis techniques and image processing;
• knowledge of the main problems of medical diagnostics and application of algorithms for the improvement of image;

The main skills acquired (ability to apply the knowledge gained descriptor Dublin 2, and to take with independent judgment the appropriate approach, the Dublin descriptor 3) will be:
• analytical skills and image processing whose purpose is to medical diagnosis;
• ability to develop a line of reasoning that leads the student to identify the methods of solving the problem in question;
• ability to identify the right approach to the solution of the problem with an eye toward the medical diagnostics.
Prerequisites
Knowledge of reconstruction of signals and images by sampling;
Knowledge of the main concepts and analysis techniques and image processing;
Knowledge of the main problems of medical diagnostics and of the application of algorithms for the improvement of image.
Teaching methods
The course is organized as follows:

1) Lectures on all topics of the course;

2) Classroom exercises.

3) laboratory: No. 6 guided visits to four hours each at the Hospital Santa Maria della Misericordia, Perugia (sections: radiology, vascular surgery and ophthalmology).
Other information
Attendance is strongly recommended for all lessons.
Learning verification modality
Oral exam.

The verification of the educational objectives of teaching (examination) include an oral exam. The oral exam will be held on the dates set out in the examinations of the CdS calendar.

The oral examination, consists of a discussion of the duration not exceeding 40 minutes each aimed at verifying: i) the level of knowledge of the theoretical and laboratory course content (Dublin descriptor 1), ii) the level of expertise in exposing the logical and mathematical reasoning skills (descriptor Dublin 2), iii) the independence of judgment (Dublin descriptor 3) to propose the most appropriate approach to argue what is required. The oral examination also aims to verify the student's ability to present with properties of language questions proposed by the Commission, to support a dialectical relationship during discussion and dimostrate logical-deductive ability and synthetic exposition (descriptor Dublin 4).

The final mark will be made by the Commission in thirty.
Extended program
• Introduction to the course
•Summary of images and applications of the sampling theorem to image
•Approximate sampling and sampling-Kantorovich operators:
- Theory -Applications to reconstruction and enhancement of images
- Implementation of the theory to Image processing
•MATLAB and its applications to Image Processing

•GIMP, IMAGEJ, PHYTON and their applications to Image Processing
•Medical diagnostics:
-General introduction to medical diagnostics
- Diagnostic and interventional vascular surgery

•Applied Mathematics Lab:
-Preparation and image processing
-Application of algorithms, evaluation of results and interpretation of errors

•New diagnostic methods in ophthalmology
-OCT, Angio OCT and new techniques. Maculopaties and retinopaties
-Image Processing for the diagnosis

•Hospital visits:
-Visit to the radiology department: radiography (RX), Computer Tomography (CT), Magnetic resonance imaging (MRI), Echography, CardioCT
-Vascular -Surgery interventions: endovascular treatments
-Innovative instrumentation for ophthalmic diagnosis
-Clinical trials of a microwaves mammography and image processing

•Non invasive diagnostic: applications
-Image Processing for seismic vulnerability
-Image Processing for thermal bridges
-Use of thermography

•Visit to the Centre for Research on pollution and environment
-Hot-Box, thermography, thermal bridges and noise.
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