CM2013 Signal Processing and Data Analytics in Biomedical Engineering
KTH Royal Institute of Technology
B.Sc. degree in engineering, social sciences or medical science (e.g. medical science or technology, engineering, applied physics, industrial management, entrepreneurship) or similar.
English 6.
The course is an introduction to the field of signal processing and data analytics in biomedical engineering. The focus is on providing a comprehensive introduction to the concepts of methods and techniques popular for the analysis of biosignals for medical, health, and sports applications. The course will at least cover the following topics:
•Origin and characteristics of biosignals and medical images
•Discretization of signals
oAnalogue-to-digital conversion processes
oSampling theorem and random sampling
•Applications and implementation of transform theory in biomedical applications
oSignal decomposition using Fourier series
oFourier Transform and Fast Fourier transform
oTime and Frequency Analysis
oOther relevant transforms methods
•Digital filters and their applications in biomedical engineering
oIntroduction to digital filters design
oApplication of filters and transform methods to 1-D (signals and time series) and 2-D signals (images)
•Stochastic processes and biosignal Modelling
oSpectrum estimation
•Types of noise and methods for noise reduction in biosignals
•Machine learning techniques and pattern recognition in biomedical applications
oFeature extraction and selection
oSupervised learning
oUnsupervised learning
•Methods and applications of multivariable data analysis in biomedical applications
•And other new developments in the field
After the course, students should be able to:
L1. Describe and discuss the principles of biomedical signal acquisition, sampling, and processing
L2. Characterize biosignals origin and noise features
L3. Design and implement fundamental biosignal analysis, modelling, and visualization tools
L4. Select and apply appropriate methods for pattern recognition and classification of biosignals for solving a given problem in biomedical engineering
L5. Design, motivate, implement, and evaluate a signal processing method for solving a specific problem in biomedical engineering
L6. Effectively work as part of a project team
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