RFID Technologies in Intelligent Medical Applications
Pynnönen, Lauri (2010)
Pynnönen, Lauri
2010
Sähkötekniikan koulutusohjelma
Tieto- ja sähkötekniikan tiedekunta
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Hyväksymispäivämäärä
2010-12-08
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tty-201012161392
https://urn.fi/URN:NBN:fi:tty-201012161392
Tiivistelmä
This thesis examines RFID-technologies as a part of the development of intelligent medical applications. In this context the intelligence is interpreted as a property of a system that is more automatic, safe or efficient due to solutions achieved by information technology. RFID-technologies offer a wide range of possibilities for both containing and acquiring information. With the help of RFID-systems information such as the count, location, or status of hospital equipment can be obtained and monitored without the need for line of sight. In this thesis the task of applying RFID-technologies to achieve more intelligent medical applications is approached by researching the compatibility of all the known RFID-technologies at the moment of writing. However researches presented in this thesis are generally related to systems operating within the UHF-frequency band.
The thesis describes the main characteristics of the four main RFID-technology standards. As this research is concentrated on the solutions specialized in hospital environments, the compliances to such a setting are highlighted from the research papers undergone in this thesis. Functionalities that are considered to be useful in an intelligent hospital setting are presented in the literature study. Such functionalities include RFID-tags that are aware of their location and orientation, tags that carry user updatable data and even tags that update their data by themselves.
After revising the RFID-technologies, a case-related research conducted for this thesis is presented. The research analyzes and estimates the saturation times of the carbon dioxide absorbers that are used in anesthesia machines. The measurements are conducted by multiple tests where environmental variables are changed to different known values and the results are recorded. The goal of the research is to find out if it is possible to predict the absorber behavior, and whether saving the information needed or the prediction can be done directly to the absorbers themselves. To predict saturation, lifetime and usability of the absorbers a formula is calculated, and the formula is evaluated based on the values measured. As a conclusion UHF-RFID-technology is evaluated to be most compatible to be used in the prototype for the case. In this thesis the RFID-technologies are evaluated to be an economical and functional solution for the monitoring of absorber state, and the case is agreed to be a convenient solution to begin the transformation to intelligent hospitals. /Kir10
The thesis describes the main characteristics of the four main RFID-technology standards. As this research is concentrated on the solutions specialized in hospital environments, the compliances to such a setting are highlighted from the research papers undergone in this thesis. Functionalities that are considered to be useful in an intelligent hospital setting are presented in the literature study. Such functionalities include RFID-tags that are aware of their location and orientation, tags that carry user updatable data and even tags that update their data by themselves.
After revising the RFID-technologies, a case-related research conducted for this thesis is presented. The research analyzes and estimates the saturation times of the carbon dioxide absorbers that are used in anesthesia machines. The measurements are conducted by multiple tests where environmental variables are changed to different known values and the results are recorded. The goal of the research is to find out if it is possible to predict the absorber behavior, and whether saving the information needed or the prediction can be done directly to the absorbers themselves. To predict saturation, lifetime and usability of the absorbers a formula is calculated, and the formula is evaluated based on the values measured. As a conclusion UHF-RFID-technology is evaluated to be most compatible to be used in the prototype for the case. In this thesis the RFID-technologies are evaluated to be an economical and functional solution for the monitoring of absorber state, and the case is agreed to be a convenient solution to begin the transformation to intelligent hospitals. /Kir10