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Noninvasive thermometry using multiple-frequency-band radiometry: a feasibility study.

S D Prionas, G M Hahn

    Bioelectromagnetics
    |January 1, 1985
    PubMed
    Summary
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    Multiple-frequency-band radiometry offers a noninvasive method for sensing temperature profiles. This study numerically solves the radiative energy transfer equation to analyze temperature-depth relationships.

    Area of Science:

    • Remote Sensing
    • Electromagnetics
    • Thermodynamics

    Background:

    • Noninvasive temperature sensing is crucial in various scientific and industrial applications.
    • Accurate measurement of one-dimensional temperature profiles remains a challenge.

    Purpose of the Study:

    • To explore the feasibility of using multiple-frequency-band radiometry for noninvasive temperature profile sensing.
    • To numerically investigate the relationship between radiometric measurements and temperature distributions.

    Main Methods:

    • Solving the radiative energy transfer equation numerically.
    • Analyzing ideal-condition thermal noise spectra.
    • Examining distributions of received energy.

    Main Results:

    Related Experiment Videos

    • Presented ideal-condition thermal noise spectra for different temperature-depth profiles.
    • Showcased distributions of received energy corresponding to specific temperature-depth profiles.
    • Discussed the performance characteristics of the proposed method.

    Conclusions:

    • Multiple-frequency-band radiometry shows potential for noninvasive one-dimensional temperature profile sensing.
    • Numerical solutions of the radiative energy transfer equation provide insights into the method's capabilities.
    • Further investigation into performance characteristics is warranted.