Highly scattering optical system identificationvia frequency response analysis of NIR-TRS spectra
Author:
Publisher
Springer Science and Business Media LLC
Subject
Biomedical Engineering
Link
http://link.springer.com/content/pdf/10.1007/BF02368231.pdf
Reference26 articles.
1. Bruley, D.F.; Prados, J.W. The frequency response analysis of a wetted wall adiabatic humidifier. AIChE J. 10:612–616; 1964.
2. Chance, B.; Smith, D.S.; Nioka, S.; Miyake, H.; Holton, G.; Maris, M. Photon migration in muscle and brain. In Chance, B., ed. Photon migration in tissue, New York: Plenum Press; 1989: pp. 121–135.
3. Chance, B.; Kang, K.A.; He, L.; Weng, J.; Sevick, E. Highly sensitive object location in tissue models with linear in-phase and anti-phase multi-element optical arrays in one and two dimensions. PNAS 90:3423–3427; 1993.
4. Chance, B.; Zhuang, A.; UnAh, C.; Alter, C.; Lipton, L. Cognition-activated low frequency modulation of light absorption in human brain. PNAS 90:3770–3774; 1993.
5. Clements, W.C., Jr.; Schnelle, K.B. Pulse testing for dynamic analysis. I & EC Process Des. Dev. 2:94–102; 1963.
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