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Anti-confocal versus confocal assessment of the middle ear simulated by Monte Carlo methods (2015)
Journal Article
Jung, D. S., Crowe, J. A., Birchall, J. P., Somekh, M. G., & See, C. W. (2015). Anti-confocal versus confocal assessment of the middle ear simulated by Monte Carlo methods. Biomedical Optics Express, 6(10), 3820-3825. https://doi.org/10.1364/BOE.6.003820

The ability to monitor the inflammatory state of the middle ear mucosa would provide clinical utility. To enable spectral measurements on the mucosa whilst rejecting background signal from the eardrum an anti-confocal system is investigated. In contr... Read More about Anti-confocal versus confocal assessment of the middle ear simulated by Monte Carlo methods.

Objective methods for reliable detection of concealed depression (2015)
Journal Article
Solomon, C., Valstar, M. F., Morriss, R. K., & Crowe, J. (2015). Objective methods for reliable detection of concealed depression. Frontiers in ICT, 2, Article 5. https://doi.org/10.3389/fict.2015.00005

Recent research has shown that it is possible to automatically detect clinical depression from audio-visual recordings. Before considering integration in a clinical pathway, a key question that must be asked is whether such systems can be easily fool... Read More about Objective methods for reliable detection of concealed depression.

Monte Carlo photon simulation of an anti-confocal system to monitor middle ear inflammation (2015)
Conference Proceeding
Jung, D. S., Birchall, J. P., Crowe, J. A., See, C. W., & Somekh, M. G. (2015). Monte Carlo photon simulation of an anti-confocal system to monitor middle ear inflammation. In Optical Molecular Probes, Imaging and Drug Delivery 2015 (Paper# JT3A.41). https://doi.org/10.1364/BODA.2015.JT3A.41

Monte Carlo simulations of an anti-confocal system to monitor middle ear inflammation showed that using a stop to reject the scattering plane, the eardrum, rather than a pinhole to select the imaging plane, improved the signal-to-background ratio.