| dc.description.abstract | This study presents the design and development of DANZALYZE, an AI-based biome chanical analysis system developed to analyse dance movements, provide posture correction feedback, and support injury prevention among dancers. The system
integrates computer vision and web technologies to offer a cost effective and accessible
alternative to conventional motion-capture systems. DANZALYZE is based on the
MediaPipe Pose Landmark model, which evaluates alignment, balance, and movement
precision using 33 human body key points extracted from standard two-dimensional
video recordings. A Python-based module is used to perform pose estimation and
similarity scoring, while the ASP.NET framework supports user interaction, data
processing, and visualization. System evaluation was conducted through quantitative
accuracy testing and a usability study, indicating stable consistency with professional
instructor ratings. User satisfaction results demonstrated an average System Usability
Scale score of 86.5, reflecting positive learning impact and excellent usability. The
system provides meaningful real-time feedback that increases user awareness of posture
safety and movement quality. The study concludes that AI-based pose estimation
systems can be introduced into the field of dance to improve performance monitoring,
reduce injury risk, and expand access to biomechanical analysis. Future work includes
the adoption of three-dimensional motion analysis, cloud computing, and mobile
integration to enhance real-time accessibility. Overall, this system illustrates how
technology can bridge art and science through data-driven movement analysis in dance. | en_US |
