遥感光敏血压计的最佳信号质量指标

Mohamed Elgendi, Igor Martinelli, Carlo Menon
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摘要

远程血压计(rPPG)可利用移动设备对循环信号进行无创监测,是生物传感领域的一项重要进步。尽管具有潜力,但在噪声和伪影中确保信号质量仍是一项重大挑战,尤其是在医疗保健应用中。为了解决这个问题,我们的研究侧重于 rPPG 的单一信号质量指数 (SQI),旨在简化用于心率检测和心脏评估的高质量视频捕获。我们为该 SQI 引入了一个实用的阈值,特别是信噪比指数(NSQI),该指数经过优化,可在便携式设备上直接实施,用于实时视频分析。采用(NSQI <0.293)作为阈值,我们的方法成功地识别了视频帧中的高质量心脏信息,有效地减轻了噪声和伪影的影响。我们的方法通过先进的机器学习算法和留空交叉验证在公开数据集上进行了验证,大大降低了计算复杂度。这一创新不仅提高了健康监测应用的效率,还为远程生物传感提供了实用的解决方案。我们的研究成果是 rPPG 信号质量评估领域的一个显著进步,标志着具有广泛医疗意义的远程心脏监测技术的发展向前迈出了关键一步。
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Optimal signal quality index for remote photoplethysmogram sensing
Remote photoplethysmography (rPPG) enables non-invasive monitoring of circulatory signals using mobile devices, a crucial advancement in biosensing. Despite its potential, ensuring signal quality amidst noise and artifacts remains a significant challenge, particularly in healthcare applications. Addressing this, our study focuses on a singular signal quality index (SQI) for rPPG, aimed at simplifying high-quality video capture for heart rate detection and cardiac assessment. We introduce a practical threshold for this SQI, specifically the signal-to-noise ratio index (NSQI), optimized for straightforward implementation on portable devices for real-time video analysis. Employing (NSQI < 0.293) as our threshold, our methodology successfully identifies high-quality cardiac information in video frames, effectively mitigating the influence of noise and artifacts. Validated on publicly available datasets with advanced machine learning algorithms and leave-one-out cross-validation, our approach significantly reduces computational complexity. This innovation not only enhances efficiency in health monitoring applications but also offers a pragmatic solution for remote biosensing. Our findings constitute a notable advancement in rPPG signal quality assessment, marking a critical step forward in the development of remote cardiac monitoring technologies with extensive healthcare implications.
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