@article{4642,
  author = {Zhenzhen Yun},
  title = {Analysis of Human Motion Video Images Based on a Fuzzy Clustering Algorithm},
  journal = {Journal of Multimedia Processing and Technologies},
  year = {2026},
  volume = {17},
  number = {1},
  doi = {https://doi.org/10.6025/jmpt/2026/17/1/21-33},
  url = {https://www.dline.info/jmpt/fulltext/v17n1/jmptv17n1_3.pdf},
  abstract = {The paper proposes an integrated approach for analyzing human movements using fuzzy clustering combined
with deep learning techniques. It addresses challenges in traditional computer vision methods such as
occlusion, motion blur, and lighting variations that hinder accurate player tracking and posture recognition
in dynamic match environments. The proposed methodology involves preprocessing video frames to reduce
noise, followed by fuzzy clustering based image segmentation to distinguish players from the background.
Deep learning is then applied for feature extraction, posture identification, and motion tracking. The fuzzy Cmeans
(FCM) algorithm plays a central role, offering soft clustering that accommodates ambiguous
boundaries and overlapping actions. The paper reviews related work, highlights FCM's strengths and
limitations, and introduces enhancements, including residual-driven FCM and contextual clustering, to
improve noise robustness. Experimental validation using university human data demonstrates that the model
effectively quantifies movement accuracy and supports performance improvement through targeted training
feedback. Results show a measurable increase in motion precision over three months, confirming the model's
practical utility. The study concludes that fuzzy clustering, especially when fused with deep learning, provides
a robust framework for human motion analysis in sports, offering coaches and athletes actionable insights
for performance evaluation and tactical refinement.},
}