20810011 - SIGNAL PROCESSING FOR BIOMEDICAL ENGINEERING

To acquire fundamental knowledges on digital operations to analyze discrete signals in biomedical environments. To link different operating blocks in one complex system for analysis and processing. To provide an overview of some typical application of biomedical signals for processing and transmission, by a short description of main operating concepts.
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Programme

Discrete signals and systems. Operations between sequences. Scale changes. Digital transforms. Filtering. Linear system analysis. Optimum filters. Digital estimators and performance. Prediction. Spectral estimators. Applications of telemedicine. Digital health systems.
Laboratory of numerical examples by MatLab platform.
Further details at: http://host.uniroma3.it/laboratori/sp4te/teaching/sp4bme/program.html

Core Documentation

G. Giunta, Slides of Signal Processing for Biomedical Engineering, edition 2015.
TAMAL BOSE, FRANCOIS MEYER, "DIGITAL SIGNAL AND IMAGE PROCESSING", DECEMBER 2003, WILEY PUBL.
A.V. OPPENHEIM, R.W. SHAFER, J.R. BUCK, "DISCRETE-TIME SIGNAL PROCESSING", PRENTICE-HALL, UPPER SADDLE RIVER, NJ (USA), 1999.
B. Fong, A.C.M. Fong, C.K. Li, Telemedicine Technologies, Wiley, 2011.

Reference Bibliography

G. Giunta, Slides of Signal Processing for Biomedical Engineering, edition 2015. TAMAL BOSE, FRANCOIS MEYER, "DIGITAL SIGNAL AND IMAGE PROCESSING", DECEMBER 2003, WILEY PUBL. A.V. OPPENHEIM, R.W. SHAFER, J.R. BUCK, "DISCRETE-TIME SIGNAL PROCESSING", PRENTICE-HALL, UPPER SADDLE RIVER, NJ (USA), 1999. B. Fong, A.C.M. Fong, C.K. Li, Telemedicine Technologies, Wiley, 2011.

Type of delivery of the course

lectures and excercises

Attendance

optional

Type of evaluation

Oral test with preliminary written test. nel periodo di emergenza COVID-19 l’esame di profitto sarà svolto secondo quanto previsto all’art.1 del Decreto Rettorale n°. 703 del 5 maggio 2020