Jin LIU, Run-juan FU, Tong-shuai HAN, Rong LIU, Di SUN. Spectral Analysis of Human Tissues Based on a Direct Effective Attenuation Coefficient Measurement[J]. Spectroscopy and Spectral Analysis, 2022, 42(9): 2746
- Spectroscopy and Spectral Analysis
- Vol. 42, Issue 9, 2746 (2022)
Fig. 1. Schematic diagram of the diffuse reflectance measurement system with two source-detector separations
Fig. 2. Results of effective attenuation coefficients (EAC) for 3% Intralipid solutions of five glucose concentrations
(a): EAC spectra; (b): Changes of EAC spectra
(a): EAC spectra; (b): Changes of EAC spectra
Fig. 3. Results of effective attenuation coefficients (EAC) for 3% Intralipid solutions with some variables
(a): EAC spectra; (b): Equivalent changes of EAC spectra referred by 3% Intralipid solution
(a): EAC spectra; (b): Equivalent changes of EAC spectra referred by 3% Intralipid solution
Fig. 4. Results of effective attenuation coefficients (EAC) for a finger and a site at inner arm of a subject
(a): EAC spectra; (b): Difference between the spectra in (a)
(a): EAC spectra; (b): Difference between the spectra in (a)
Fig. 5. Results of effective attenuation coefficients (EAC) for various human bodies
(a): EAC spectra for five sites of a subject; (b): Changes of EAC spectra between five spectra in (a) referred the spectrum of finger; (c): EAC spectra for fingers of three subjects; (d): Difference between the spectra in (c)
(a): EAC spectra for five sites of a subject; (b): Changes of EAC spectra between five spectra in (a) referred the spectrum of finger; (c): EAC spectra for fingers of three subjects; (d): Difference between the spectra in (c)
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