Development of an Architecture for a Tele-Medicine-Based Longterm Monitoring System
Tietz, Lukas Hermann Benjamin (2016)
2016
Master's Degree Programme in Biomedical Engineering
Luonnontieteiden tiedekunta - Faculty of Natural Sciences
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Hyväksymispäivämäärä
2016-06-08
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tty-201605264159
https://urn.fi/URN:NBN:fi:tty-201605264159
Tiivistelmä
Every day gigantic amounts of digital data are produced by billions of devices around the globe. Using this kind of data and develop applications of unlimited possibilities have created the Internet of Things (IoT) idea. Furthermore, wearable devices have taken up the recognition not only for private users, but also medical device producers and start-up companies. They have realized the potential of wearables in medical applications and their importance for the future of tele-medical systems, when being combined with an IoT based architecture. Despite the development of recent tele medicine platforms, none has used printed electronics to obtain physiological signals.
This thesis will provide a description of an architecture, that not only uses an IoT application as backbone, but also a hybrid printed electronics design for ECG and Bioimpedance Pneumography measurements. The recorded bio-signals are transferred via Bluetooth Low Energy to a mobile gateway and then onto a server. On the server the data will be processed in order to obtain features of each signal that provide significant information about the patient’s health. Finally this data is stored in a backup system and can be viewed through a graphical user interface.
As this thesis is rather a literature review than an experimental work, there will be no methods segment. An extensive background with the state-of-the-art technologies will be provided. The description of the architecture, shows that all the principal layers of an IoT application are met. Issues that arise with the usage of these systems are critically evaluated. This is the basis for researchers in the DISSE (DISappering SEnsors) project, in order to enable them to see the overall picture around their work within the project.
This thesis will provide a description of an architecture, that not only uses an IoT application as backbone, but also a hybrid printed electronics design for ECG and Bioimpedance Pneumography measurements. The recorded bio-signals are transferred via Bluetooth Low Energy to a mobile gateway and then onto a server. On the server the data will be processed in order to obtain features of each signal that provide significant information about the patient’s health. Finally this data is stored in a backup system and can be viewed through a graphical user interface.
As this thesis is rather a literature review than an experimental work, there will be no methods segment. An extensive background with the state-of-the-art technologies will be provided. The description of the architecture, shows that all the principal layers of an IoT application are met. Issues that arise with the usage of these systems are critically evaluated. This is the basis for researchers in the DISSE (DISappering SEnsors) project, in order to enable them to see the overall picture around their work within the project.