In Partial Fulfillment of the Requirements for the Degree of
Doctor of Philosophy
Will defend his Preliminary Dissertation
Breathing waveform extracted via nasal thermistor is the most common method to study respiratory function in sleep studies. In essence, this is a temporal waveform of mean temperatures in the nostril region that at every time step collapses two-dimensional data into a single point. Hence, spatial heat distribution in the nostrils is lost along with valuable functional and anatomical cues. This research presents the construction and experimental validation of a spatiotemporal profile for the breathing function via thermal imaging of the nostrils. The method models nasal airflow advection by using a front-propagating level set algorithm with optimal parameter selection. It is the first time that the full two-dimensional advantage of thermal imaging is brought to the fore in breathing computation. This new multi-dimensional measure is likely to bring diagnostic value in sleep studies and beyond.
Date: Thursday, April 4, 2013
Time: 8:45 AM
Faculty, students, and the general public are invited.
Advisor: Prof. Ioannis Pavlidis