Bcg fiber optic sensor
AI-driven system for non-contact continuous nocturnal blood pressure
Here we introduce a non-contact system for continuous monitoring of nocturnal blood pressure, utilizing ballistocardiogram signals. The key component of this system is the utilization of
Ballistocardiography sensor based on polymeric optical fiber: a
These systems can collect information from the vibrations in the chest due to blood pumping and the movements generated by breathing, known as ballistocardiography (BCG). This work presents the
Contactless Arrhythmia Detection and Short-Term HRV
This article presents a noncontact ballistocardiogram (BCG) monitoring system utilizing a fiber optic sensor (FOS) for PAC identification and short-term heart rate variability (HRV) analysis.
BCG signal analysis based on improved VMD algorithm
Based on the use of fiber optic sensing, an algorithm for heart rate signal analysis with optimized variational modal decomposition (OVMD) is proposed. Fiber Bragg Grating Sensors
Ballistocardiogram signal processing: a review
After studying the different approaches used to interpret the hydraulic based-BCG signals, the following section will address the various strategies used to analyze fiber optic based-BCG signals.
Compressed sensing framework for BCG signals based on the
Abstract: A compressed sensing (CS) framework is built for ballistocardiography (BCG) signals, which contains two parts of an optical fiber sensor-based heart monitoring system with a CS module and an
Quality evaluation of ballistocardiogram from fiber optic sensors using
The micro-bend fiber optic BCG sensor and fiber Bragg grating BCG sensor are designed and manufactured, and experiments show that they can effectively acquire BCG.
BCG equipment and signal based on optical fiber sensor. (A) Fiber-optic
Aims: To improve telemonitoring strategies in heart failure patients, there is a need for novel non-obtrusive sensors that monitor parameters closely related to intracardiac filling pressures.
Heart Rate Demodulation System for BCG Signal Analysis
Real time heart rate acquisition testing is conducted for testers, using an electrocardiograph and fiber optic sensing system simultaneously. The system obtains BCG and
BCG equipment and signal based on optical fiber
Aims: To improve telemonitoring strategies in heart failure patients, there is a need for novel non-obtrusive sensors that monitor parameters closely related to
Quality evaluation of ballistocardiogram from fiber optic sensors using
A packaging structure for fiber Bragg grating sensors is proposed, and experimental results demonstrate its effectiveness in capturing BCG signals. Evaluating the quality of
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