Recently a non-invasive acoustical method has been developed to detect respiratory phases without airflow measurement, in which the average power of tracheal breath sounds is used to detect the onset of breaths. We improved the accuracy of the breath onsets detection by applying variance fractal dimension D/sub /spl sigma//. For the sake of a comparison, the same set of data was used. Data included tracheal breath sound recorded simultaneously with airflow from nine healthy subjects. Variance fractal dimension was used to detect the onset of breaths directly from the time domain tracheal sound signals. Result shows that onsets can be detected by the peaks of the variance fractal dimension, with an accuracy of 40/spl plusmn/9 ms. Comparing to the accuracy reported in the previous method (41.5/spl plusmn/34.7 ms), this study slightly improves the average error but also is more robust in term of standard deviation. It also provides an alternative approach to analyze breath sound signals in time domain. The result increases the reliability of acoustical phase detection algorithm and paves the way for further analysis such as actual amount of airflow estimation.
[1]
F. C. Flack,et al.
The synchronization of respiration and swallow sounds with videofluoroscopy during swallowing
,
2004,
Dysphagia.
[2]
B. Garssen.
Synchronization of respiration
,
1979,
Biological Psychology.
[3]
Christos Faloutsos,et al.
Beyond uniformity and independence: analysis of R-trees using the concept of fractal dimension
,
1994,
PODS.
[4]
F. Flack,et al.
Comparative Review of Techniques for Recording Respiratory Events at Rest and during Deglutition
,
1997,
Dysphagia.
[5]
Christos Faloutsos,et al.
Fast feature selection using fractal dimension
,
2010,
J. Inf. Data Manag..
[6]
Christos Faloutsos,et al.
Analysis of n-Dimensional Quadtrees using the Hausdorff Fractal Dimension
,
1996,
VLDB.