Limb movement detection and analysis based on visual recognition of human posture

Zhiguo Xiao; Chunxiang Wang; Tianjiao Ding; Xiangfeng Shen; Xinyuan Li; Dongni Li

doi:10.1007/s44163-025-00246-4

Limb movement detection and analysis based on visual recognition of human posture

Zhiguo Xiao, Chunxiang Wang, Tianjiao Ding, Xiangfeng Shen, Xinyuan Li, Dongni Li^*

^*Corresponding author for this work

School of Computer Science and Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Current motion detection and evaluation technologies face challenges such as limited scalability, imprecise feedback, and lack of personalized guidance. To address these challenges, this research integrated efficient BlazePose technology with pioneering DW_KNN* algorithm, resulting in the remarkable accuracy of 98.2% in action recognition and showcasing outstanding scalability. Furthermore, the established ACLstm time series prediction model could comprehensively analyze historical sports data and associated factors of users. In Rehab dataset, MAE(Mean Absolute Error, MAE) loss was 1.383 for motion count and 0.508 for motion time. This innovative framework delivered precise feedback and tailored guidance for physical exercise and medical rehabilitation.

Original language	English
Article number	27
Journal	Discover Artificial Intelligence
Volume	5
Issue number	1
DOIs	https://doi.org/10.1007/s44163-025-00246-4
Publication status	Published - Dec 2025

Keywords

Action classification
Human pose recognition
Motion detection
Posture assessment
Time-series prediction

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10.1007/s44163-025-00246-4

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title = "Limb movement detection and analysis based on visual recognition of human posture",

abstract = "Current motion detection and evaluation technologies face challenges such as limited scalability, imprecise feedback, and lack of personalized guidance. To address these challenges, this research integrated efficient BlazePose technology with pioneering DW_KNN* algorithm, resulting in the remarkable accuracy of 98.2% in action recognition and showcasing outstanding scalability. Furthermore, the established ACLstm time series prediction model could comprehensively analyze historical sports data and associated factors of users. In Rehab dataset, MAE(Mean Absolute Error, MAE) loss was 1.383 for motion count and 0.508 for motion time. This innovative framework delivered precise feedback and tailored guidance for physical exercise and medical rehabilitation.",

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author = "Zhiguo Xiao and Chunxiang Wang and Tianjiao Ding and Xiangfeng Shen and Xinyuan Li and Dongni Li",

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AU - Xiao, Zhiguo

AU - Wang, Chunxiang

AU - Ding, Tianjiao

AU - Shen, Xiangfeng

AU - Li, Xinyuan

AU - Li, Dongni

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/12

Y1 - 2025/12

N2 - Current motion detection and evaluation technologies face challenges such as limited scalability, imprecise feedback, and lack of personalized guidance. To address these challenges, this research integrated efficient BlazePose technology with pioneering DW_KNN* algorithm, resulting in the remarkable accuracy of 98.2% in action recognition and showcasing outstanding scalability. Furthermore, the established ACLstm time series prediction model could comprehensively analyze historical sports data and associated factors of users. In Rehab dataset, MAE(Mean Absolute Error, MAE) loss was 1.383 for motion count and 0.508 for motion time. This innovative framework delivered precise feedback and tailored guidance for physical exercise and medical rehabilitation.

AB - Current motion detection and evaluation technologies face challenges such as limited scalability, imprecise feedback, and lack of personalized guidance. To address these challenges, this research integrated efficient BlazePose technology with pioneering DW_KNN* algorithm, resulting in the remarkable accuracy of 98.2% in action recognition and showcasing outstanding scalability. Furthermore, the established ACLstm time series prediction model could comprehensively analyze historical sports data and associated factors of users. In Rehab dataset, MAE(Mean Absolute Error, MAE) loss was 1.383 for motion count and 0.508 for motion time. This innovative framework delivered precise feedback and tailored guidance for physical exercise and medical rehabilitation.

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KW - Posture assessment

KW - Time-series prediction

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Limb movement detection and analysis based on visual recognition of human posture

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