This join course created by SPSU and ETU includes 5 modules dedicated to different stages of the system development. Its modules represent several widely separated fields of biomedical engineering. We interconnect them by applying the knowledge from them all to a common task – the development of a prototype of an mHealth ECG system with built-in data-driven signal processing and analysis. Working on this task throughout the course, you will acquire a knowledge on how these branches of science, including electronics, mathematics, data science and programming are applied together in a real project. Pieces of hardware and software, as well as the data sets that we utilize in this course are the same components that we use in our work developing prototypes of devices and algorithms for our tasks in science and engineering.
The course is a joint work of Saint Petersburg State University and Saint Petersburg Electrotechnical University ETU ("LETI").
Note that the goal of the course is not to provide you with fundamental knowledge on any of the topics highlighted in the modules, but to give you some useful skills on implementing them in practical tasks.
教學大綱 - 您將從這門課程中學到什麼
週
1完成時間為 4 小時
Remote health monitoring system hardware
Welcome to Module 1! Medical systems for remote monitoring of patients have become extremely popular in recent years. Most of them have a similar structure, which will be discussed in detail in this module using the example of an electrocardiogram signal registration device. We will talk about hardware part of modern ECG recorders, and problems, connected with processing of biomedical signals.
11 個視頻 (總計 70 分鐘), 4 個閱讀材料, 2 個測驗
11 個視頻
Introduction3分鐘
The Structure of Remote Health Monitoring Systems5分鐘
Problems Related to Hardware Development5分鐘
Typical Scheme of an ECG Recording Channel3分鐘
The Basics of Analog-to-Digital Conversion. Types of ADC5分鐘
AFE Implementation for ECG Registration8分鐘
Implementation of an AFE Evaluation Board8分鐘
Basics of Arduino Platform Programming7分鐘
A Simple Program for the Arduino Board8分鐘
Arduino Peripheral Devices (UART, ADC, GPIO)6分鐘
Programming an Arduino ADC7分鐘
4 個閱讀材料
Basics of remote monitoring systems design10分鐘
Basics of Analog-to-digital convertion10分鐘
Basics of Electrocardiography15分鐘
Basics of Arduino10分鐘
1 個練習
Remote health monitoring system hardware30分鐘
週
2完成時間為 4 小時
Data Exchange Between Device And Personal Computer
Welcome to Module 2! The implementation of the protocol for transferring data from a patient’s wearable device to a computer is an extremely important step in the entire development of a telemedicine system. This module will consider the easiest and most affordable wired data transfer method using the RS-232 interface, virtual Com ports and the MatLab software environment.
7 個視頻 (總計 62 分鐘), 2 個閱讀材料, 2 個測驗
7 個視頻
COM-Port Setup in MATLAB5分鐘
Package Data Transferring6分鐘
Connecting Arduino Via Virtual COM-Port10分鐘
Working with Arduino Hardware Support Package for MATLAB10分鐘
Plotting Real-Time Data with Arduino Hardware Package10分鐘
Saving Data from Arduino Virtual COM-Port9分鐘
2 個閱讀材料
Serial communication basics10分鐘
Serial communication in MATLAB10分鐘
1 個練習
Data Exchange Basics20分鐘
週
3完成時間為 4 小時
Preprocessing of Biomedical Signals
Welcome to Module 3! Use you may know, biomedical signals are corrupted by a significant amount of noise. So, noise removal is used in order to increase signal quality. We will talk about basics method to prepare your signal for future analysis. In the Programming part of the Module we will learn how to evaluate and analyze ECG-signal spectrum and create a digital filter using MATLAB.
8 個視頻 (總計 66 分鐘), 2 個閱讀材料, 2 個測驗
8 個視頻
Noise in Biomedical Signals5分鐘
Spectral Analysis Basics. The Fourier Transform7分鐘
Alternative Spectral Estimation5分鐘
Spectral Analysis in MATLAB13分鐘
Digital Filters7分鐘
Transfer Function8分鐘
Filter Design Using MATLAB10分鐘
2 個閱讀材料
Spectral Estimation Approaches15分鐘
Digital Filters13分鐘
1 個練習
Biomedical signal preprocessing20分鐘
週
4完成時間為 4 小時
Event Detection in Biomedical Signals
Welcome to Module 4! In most cases, biomedical signal analysis assumes that we have some reference or basic events in the signal. It can be QRS-complexes (for ECG), breaths (for spirogram), eyes movements (for EEG) or steps (for accelerometric signal). We will look closely to this task in the context of ECG-analysis. You will learn different QRS-detection algorithms and create QRS-detector using MATLAB.
10 個視頻 (總計 88 分鐘), 3 個閱讀材料, 2 個測驗
10 個視頻
Feature Extraction Based on Signal Spectral Characteristics5分鐘
Statistical Signal Processing Methods3分鐘
Feature Extraction Using MATLAB11分鐘
Peak Detection Algorithms6分鐘
Simple Derivative-Based Algorithm for QRS Detection12分鐘
Peak Detector in MATLAB17分鐘
Feature Engineering in Accordance with the Task9分鐘
Feature Engineering Example for an ECG Signal12分鐘
Results Visualization and Analysis4分鐘
3 個閱讀材料
Feature Extraction10分鐘
Peak Detection Algorithms12分鐘
Multi-Dimensional Feature Space10分鐘
1 個練習
Event detection in biomedical signals20分鐘
講師
Evgenii Pustozerov
Assoc. ProfessorBiomedical Engineering (ETU)
Yuliya Zhivolupova
Assistant Professor (ETU)Biomedical Engineering (ETU)
Aleksei Anisimov
Assoc. ProfessorBiomedical Engineering (ETU)
關於 圣彼得堡国立大学
The Saint-Petersburg University (SPbU) is a state university, located in Saint-Petersburg, Russia. Founded in 1724, SPbU is the oldest institution of higher education in Russia. At present, there are more than 30 000 students in SPbU studying 398 programmes
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