Title :
Time-varying threshold integral pulse frequency modulation
Author :
Seydnejad, Saeid R. ; Kitney, Richard I.
Author_Institution :
Dept. of Electr. & Electron. Eng., Imperial Coll. of Sci., Technol. & Med., London, UK
Abstract :
Several methods have been proposed so far for the analysis of the integral pulse frequency modulation (IPFM) model and detecting its corresponding physiological information. Most of these methods rely on the low-pass filtering method to extract the modulating signal of the model. In this paper, the authors present an entirely new approach based on vector space theory. The new method is developed for a more comprehensive form of the IPFM model, namely the time-varying threshold integral pulse frequency modulation (TVTIPFM) model. The new method decomposes the driving signals of the TVTIPFM model into a series of orthogonal basis functions and constructs a matrix identity through which the input signals can be obtained by a parametric solution. As a particular case, the authors apply this method to R-R intervals of the SA node to discriminate between its autonomic nervous modulation and the stretch induced effect.
Keywords :
electrocardiography; medical signal processing; neurophysiology; physiological models; pulse frequency modulation; vectors; R-R intervals; SA node; autonomic nervous modulation; cardiac electrophysiology; matrix identity construction; modulating signal extraction; orthogonal basis functions series; parametric solution; stretch induced effect; time-varying threshold integral pulse frequency modulation; Biological information theory; Biomedical engineering; Context modeling; Data mining; Engineering in medicine and biology; Frequency modulation; Heart rate variability; Pattern analysis; Pulse modulation; Rhythm; Heart Rate; Humans; Mathematics; Models, Cardiovascular; Signal Processing, Computer-Assisted;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
