Abstract
In this paper, a method is proposed to measure human respiratory volume using a depth camera. The level-set segmentation method, combined with spatial and temporal information, was used to measure respiratory volume accurately. The shape of the human chest wall was used as spatial information. As temporal information, the segmentation result from the previous frame in the time-aligned depth image was used. The results of the proposed method were verified using a ventilator. The proposed method was also compared with other level-set methods. The result showed that the mean tidal volume error of the proposed method was 8.41% compared to the actual tidal volume. This was calculated to have less error than with two other methods: the level-set method with spatial information (14.34%) and the level-set method with temporal information (10.93%). The difference between these methods of tidal volume error was statistically significant n}{}{text{(p}} < {text{0.0001}}). The intra-class correlation coefficient (ICC) of the respiratory volume waveform measured by a ventilator and by the proposed method was 0.893 on an average, while the ICC between the ventilator and the other methods were 0.837 and 0.879 on an average.
Highlights
B REATHING is a critically important human physiological activity
We measured the respiratory volumes of 10 subjects with a ventilator and a depth camera
The respiratory volume waveforms obtained by the proposed method and by the other methods presented in this paper were compared to the waveform of the ventilator
Summary
B REATHING is a critically important human physiological activity. Respiration volume has been used as an important indication in the diagnosis and treatment of pulmonary diseases that require rapid medical diagnosis and attentive care. There have been numerous studies on methods for measuring respiratory volume using, for example, electrical impedance tomography [1], body plethysmography [2], and strain gauges [3]. These methods require contact with the human body and may interfere with respiration by causing a sense of physical limitation or a feeling of irritation. To overcome these inconveniences, several methods have been studied by which to measure the respiratory volume without the need for contact [4]–[6]. Convenient installation allows measurement in a variety of environments, and the cost of this method is low
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