Fitcam: detecting and counting repetitive exercises with deep learning

IF 8.6 2区计算机科学 Q1 COMPUTER SCIENCE, THEORY & METHODS

Journal of Big Data Pub Date : 2024-08-03 DOI:10.1186/s40537-024-00915-8

Ferdinandz Japhne, Kevin Janada, Agustinus Theodorus, Andry Chowanda

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Abstract

Physical fitness is one of the most important traits a person could have for health longevity. Conducting regular exercise is fundamental to maintaining physical fitness, but with the caveat of occurring injury if not done properly. Several algorithms exists to automatically monitor and evaluate exercise using the user’s pose. However, it is not an easy task to accurately monitor and evaluate exercise poses automatically. Moreover, there are limited number of datasets exists in this area. In our work, we attempt to construct a neural network model that could be used to evaluate exercise poses based on key points extracted from exercise video frames. First, we collected several images consists of different exercise poses. We utilize the the OpenPose library to extract key points from exercise video datasets and LSTM neural network to learn exercise patterns. The result of our experiment has shown that the methods used are quite effective for exercise types of push-up, sit-up, squat, and plank. The neural-network model achieved more than 90% accuracy for the four exercise types.

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Fitcam：利用深度学习检测和计算重复性练习

身体健康是一个人健康长寿的最重要特征之一。定期锻炼是保持身体健康的基础，但也要注意，如果锻炼不当，就会造成伤害。有几种算法可以利用用户的姿势自动监测和评估运动情况。然而，要准确地自动监测和评估运动姿势并非易事。此外，这方面的数据集数量有限。在我们的工作中，我们尝试构建一个神经网络模型，用于根据从运动视频帧中提取的关键点来评估运动姿势。首先，我们收集了几张由不同运动姿势组成的图像。我们利用 OpenPose 库从运动视频数据集中提取关键点，并利用 LSTM 神经网络学习运动模式。实验结果表明，所使用的方法对俯卧撑、仰卧起坐、深蹲和平板支撑等运动类型相当有效。神经网络模型对这四种运动类型的准确率超过了 90%。

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来源期刊

Journal of Big Data Computer Science-Information Systems

CiteScore

17.80

自引率

3.70%

发文量

105

审稿时长

13 weeks

期刊介绍： The Journal of Big Data publishes high-quality, scholarly research papers, methodologies, and case studies covering a broad spectrum of topics, from big data analytics to data-intensive computing and all applications of big data research. It addresses challenges facing big data today and in the future, including data capture and storage, search, sharing, analytics, technologies, visualization, architectures, data mining, machine learning, cloud computing, distributed systems, and scalable storage. The journal serves as a seminal source of innovative material for academic researchers and practitioners alike.