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Real-time Tidal Volume Estimation using Iso-surface Reconstruction

Abstract: Breathing volume measurement has long been an important physiological indication widely used for the diagnosis and treatment of pulmonary diseases. However, most of existing breathing volume monitoring techniques require either physical contact with the patient or are prohibitively expensive. In this paper we present an automated and inexpensive non-contact, vision-based method for monitoring an individual's tidal volume, which is extracted from a three-dimensional (3D) chest surface reconstruction from a single depth camera. In particular, formulating the respiration monitoring process as a 3D space-time volumetric representation, we introduce a real-time surface reconstruction algorithm to generate omni-direction deformation states of a patient's chest while breathing, which reflects the change in tidal volume over time. These deformation states are then used to estimate breathing volume through a per-patient correlation metric acquired through a Bayesian-network learning process. Through prototyping and implementation, our results indicate that we have achieved 92.2% to 94.19% accuracy in the tidal volume estimations through the experimentation based on the proposed vision-based method.

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Paper [PDF]

Citation:
Shane Transue, Phuc Nguyen, Tam Vu, and Min-Hyung. Choi, "Real-time Tidal Volume Estimation using Iso-surface Reconstruction", in The First IEEE Conference on Connected Health: Applications, Systems, and Engineering (CHASE), pp. 209-218. June, 2016.