Difference between revisions of "Temperature Estimation with Ultrasound"

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<sidebar>Trilateration_in_Robotic_Sensing_using_Acoustic_Sensors_Nav</sidebar>
 
===Introduction===
 
===Introduction===
 
Research has proven that it is possible to estimate temperature from body temperature (37°C) to 60°C. Our overall goal was to contribute to the extension of this research such that it temperature estimation would be possible up to 70°C. To contribute to this research, the purpose of this work was to modify MATLAB code to be capable of data acquisition for synchronous temperature measurements and ultrasonic imaging from 36°C to 70°C. In addition to modifying the code, the design of the experiment was also modified to more efficiently produce results.
 
Research has proven that it is possible to estimate temperature from body temperature (37°C) to 60°C. Our overall goal was to contribute to the extension of this research such that it temperature estimation would be possible up to 70°C. To contribute to this research, the purpose of this work was to modify MATLAB code to be capable of data acquisition for synchronous temperature measurements and ultrasonic imaging from 36°C to 70°C. In addition to modifying the code, the design of the experiment was also modified to more efficiently produce results.

Revision as of 02:24, 12 May 2011

<sidebar>Trilateration_in_Robotic_Sensing_using_Acoustic_Sensors_Nav</sidebar>

Introduction

Research has proven that it is possible to estimate temperature from body temperature (37°C) to 60°C. Our overall goal was to contribute to the extension of this research such that it temperature estimation would be possible up to 70°C. To contribute to this research, the purpose of this work was to modify MATLAB code to be capable of data acquisition for synchronous temperature measurements and ultrasonic imaging from 36°C to 70°C. In addition to modifying the code, the design of the experiment was also modified to more efficiently produce results.