Difference between revisions of "Temperature Estimation with Ultrasound"
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<sidebar>Temperature_Estimation_with_Ultrasound_Nav</sidebar> | <sidebar>Temperature_Estimation_with_Ultrasound_Nav</sidebar> | ||
===Introduction=== | ===Introduction=== | ||
| − | Research has proven that it is possible to estimate temperature from body non-invasively by observing changes in backscatter energy in an ultrasounic image of the tissue. | + | Research has proven that it is possible to estimate temperature from body non-invasively by observing changes in backscatter energy in an ultrasounic image of the tissue.[http://ieeexplore.ieee.org.libproxy.wustl.edu/xpl/tocresult.jsp?reload=true&asf_pun=58&asf_in=8&asf_iv=57&asf_sp=1724] |
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. | 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. | ||
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[[The Methods |Methods]] | [[The Methods |Methods]] | ||
| + | [[Haake Commands| ThermoHaake MATLAB Functions]] | ||
==Sources== | ==Sources== | ||
[1] R. M. Arthur, D. Basu, Y. Guo, J. W. Trobaugh, and E. Moros, "3D In Vitro Estimation of Temperature Using the Change in Backscattered Ultrasonic Energy", ''IEEE Trans. on UFFC'', vol. 57, no. 8, pp. 1724-1733, 2010. | [1] R. M. Arthur, D. Basu, Y. Guo, J. W. Trobaugh, and E. Moros, "3D In Vitro Estimation of Temperature Using the Change in Backscattered Ultrasonic Energy", ''IEEE Trans. on UFFC'', vol. 57, no. 8, pp. 1724-1733, 2010. | ||
Latest revision as of 03:51, 13 May 2011
<sidebar>Temperature_Estimation_with_Ultrasound_Nav</sidebar>
Introduction
Research has proven that it is possible to estimate temperature from body non-invasively by observing changes in backscatter energy in an ultrasounic image of the tissue.[1]
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.
Sources
[1] R. M. Arthur, D. Basu, Y. Guo, J. W. Trobaugh, and E. Moros, "3D In Vitro Estimation of Temperature Using the Change in Backscattered Ultrasonic Energy", IEEE Trans. on UFFC, vol. 57, no. 8, pp. 1724-1733, 2010.
