带有时间过渡层的 3D DenseNet，用于从真实的 RGB 视频中估算心率。

IF 1.4 4区医学 Q4 ENGINEERING, BIOMEDICAL

Technology and Health Care Pub Date : 2025-01-01 DOI:10.3233/THC-241104

Mohammad Khaleel Sallam Ma'aitah, Abdulkader Helwan

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引用次数: 0

摘要

背景：在受控情况下，深度学习在估计心率方面的表现优于传统方法。然而，在不太受控的情况下，这种性能似乎会因训练数据集和深度学习模型的架构而有所不同：本文中，我们开发了一种基于深度学习的模型，利用三维卷积神经网络（3DCNN）的强大功能提取时间和空间特征，从而从 RGB 无预定义感兴趣区域（ROI）视频中准确估计心率：方法：我们提出了一种带有三维时间转换层的三维密集网络（3D DenseNet），用于从大规模视频数据集中估计心率：实验结果：我们的模型在这个控制较少的数据集上进行了训练和测试，结果表明心率估计性能良好，均方根误差（RMSE）为 8.68 BPM，平均绝对误差（MAE）为 3.34 BPM：此外，我们还表明，在 VIPL-HR 公共数据集上进行测试时，这种模型也能取得比最先进模型更好的结果。

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3D DenseNet with temporal transition layer for heart rate estimation from real-life RGB videos.

Background: Deep learning has demonstrated superior performance over traditional methods for the estimation of heart rates in controlled contexts. However, in less controlled scenarios this performance seems to vary based on the training dataset and the architecture of the deep learning models.

Objectives: In this paper, we develop a deep learning-based model leveraging the power of 3D convolutional neural networks (3DCNN) to extract temporal and spatial features that lead to an accurate heart rates estimation from RGB no pre-defined region of interest (ROI) videos.

Methods: We propose a 3D DenseNet with a 3D temporal transition layer for the estimation of heart rates from a large-scale dataset of videos that appear more hospital-like and real-life than other existing facial video-based datasets.

Results: Experimentally, our model was trained and tested on this less controlled dataset and showed heart rate estimation performance with root mean square error (RMSE) of 8.68 BPM and mean absolute error (MAE) of 3.34 BPM.

Conclusion: Moreover, we show that such a model can also achieve better results than the state-of-the-art models when tested on the VIPL-HR public dataset.

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来源期刊

Technology and Health Care HEALTH CARE SCIENCES & SERVICES-ENGINEERING, BIOMEDICAL

CiteScore

2.10

自引率

6.20%

发文量

282

审稿时长

>12 weeks

期刊介绍： Technology and Health Care is intended to serve as a forum for the presentation of original articles and technical notes, observing rigorous scientific standards. Furthermore, upon invitation, reviews, tutorials, discussion papers and minisymposia are featured. The main focus of THC is related to the overlapping areas of engineering and medicine. The following types of contributions are considered: 1.Original articles: New concepts, procedures and devices associated with the use of technology in medical research and clinical practice are presented to a readership with a widespread background in engineering and/or medicine. In particular, the clinical benefit deriving from the application of engineering methods and devices in clinical medicine should be demonstrated. Typically, full length original contributions have a length of 4000 words, thereby taking duly into account figures and tables. 2.Technical Notes and Short Communications: Technical Notes relate to novel technical developments with relevance for clinical medicine. In Short Communications, clinical applications are shortly described. 3.Both Technical Notes and Short Communications typically have a length of 1500 words. Reviews and Tutorials (upon invitation only): Tutorial and educational articles for persons with a primarily medical background on principles of engineering with particular significance for biomedical applications and vice versa are presented. The Editorial Board is responsible for the selection of topics. 4.Minisymposia (upon invitation only): Under the leadership of a Special Editor, controversial or important issues relating to health care are highlighted and discussed by various authors. 5.Letters to the Editors: Discussions or short statements (not indexed).