Image processing
Course objectives
The course aims at providing the student with an overall vision of the image processing issues , such as the use of transformed domain, filtering, encoding, and of its main applications tc.) (such as restoration, denoising, enhancement, tomography, etc. At the end of the Course the student is aware of the main representation domains of signals and images both in continuous and discrete domain, and can manage software for image processing purposes. Through developing in depth theoretical and practical projects the students gains ability of i) autonomously comprehending cutting edge image processing papers, ii) presenting their contents, iii) realizing and critically analysing image processing experiments.
Channel 1
STEFANIA COLONNESE
Lecturers' profile
Program - Frequency - Exams
Course program
After presenting the main representation domains for continuous and discrete bidimensional signals (20 h), the course articulates into theoretical lessons devoted to the main image processing application (20 h) and mixed theoretical practical lessons (20 h) devoted to in-depth analysis of cutting edge image processing problems.
Prerequisites
Introductory (101) knowledge of signal theory is useful.
Books
Lecture notes by the teacher, scientific papers, available through Sapienza Library system.
Digital Image Processing / Gonzalez, Woods, Pearson International, isbn: 9781292223049
Digital Image Processing Using MATLAB, 2e, isbn: 978007070262-2
Teaching mode
The lessons are developed in different ways according to different teaching model. They include i)theoretical lessons, developed by frontal teaching on conventional whiteboard as well as using multimedia teaching tools for interactive visualization; ii)theoretical-practical lessons, resulting from a mix of theoretical lessons, driven study groups, laboratory experiments, presentation of ongoing lab activity.
Frequency
Attending classes is not mandatory but it is strongly encouraged.
Exam mode
Final evaluation relies on written material production, oral presentation, implementation of algorithm related to image processing, to be carried out throughout the course.
Bibliography
J. Guerrero, "Tutorial III: Image Processing and Analysis with Matlab," 2009 International Conference on Electrical, Communications, and Computers, 2009, pp. xvi-xvi, doi: 10.1109/CONIELECOMP.2009.63.
Lesson mode
The lessons are developed in different ways according to different teaching model. They include i)theoretical lessons, developed by frontal teaching on conventional whiteboard as well as using multimedia teaching tools for interactive visualization; ii)theoretical-practical lessons, resulting from a mix of theoretical lessons, driven study groups, laboratory experiments, presentation of ongoing lab activity.
- Lesson code1023029
- Academic year2025/2026
- CourseBiomedical Engineering
- CurriculumTecnologie elettroniche
- Year2nd year
- Semester2nd semester
- SSDING-INF/03
- CFU6