Blood Volume Pulse Signal Extraction based on Spatio-Temporal Low-Rank Approximation for Heart Rate Estimation

Blood Volume Pulse Signal Extraction based on Spatio-Temporal Low-Rank Approximation for Heart Rate Estimation

We propose a novel blood volume pulse (BVP) signal extraction method for heart rate estimation that incorporates the self-similarity properties of BVP in the spatial and temporal domains. The main novelty of the proposed method is the incorporation of the temporal self-similarity of BVP via low-rank...

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Bibliographic Details
Published in:2022 IEEE International Conference on Visual Communications and Image Processing (VCIP) pp. 1 - 5
Main Authors: Kurihara, Kosuke, Maeda, Yoshihiro, Sugimura, Daisuke, Hamamoto, Takayuki
Format: Conference Proceeding
Language:English
Published: IEEE 13-12-2022
Subjects:
Behavioral sciences
Estimation
Heart rate
heart rate estimation
Image processing
low-rank approximation
non-contact vital sensing
Reliability
Sensors
time-delay embedding
Visual communication
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Summary:We propose a novel blood volume pulse (BVP) signal extraction method for heart rate estimation that incorporates the self-similarity properties of BVP in the spatial and temporal domains. The main novelty of the proposed method is the incorporation of the temporal self-similarity of BVP via low-rank approximation in the time-delay coordinate system for BVP signal extraction. To make a low-rank approximation of BVP in the time domain, we introduce knowledge of linear time-invariant systems, i.e., the autoregressive (AR) model lies in the low-rank subspace in the time-delay coordinate system. In the medical field, it is widely known that BVP has quasi-periodic temporal characteristics owing to the cardiac pulse and exhibits self-similarity properties in the temporal domain. Hence, we model the temporal behavior of BVP as an AR process, allowing for a low-rank approximation of BVP in the time-delay coordinate system. Low-rank approximation of BVP in the time and spatial domains enables reliable BVP signal extraction, resulting in accurate heart rate estimation. The experiments demonstrate the effectiveness of the proposed method.
ISSN:2642-9357
DOI:10.1109/VCIP56404.2022.10008871