TITLE:
Adaptive Music Recommendation: Applying Machine Learning Algorithms Using Low Computing Device
AUTHORS:
Tianhui Zhang, Xianchen Liu, Zhen Guo, Yuanhao Tian
KEYWORDS:
Music Recommendation, Media Arts and Sciences, Artificial Intelligence, Machine Learning, Algorithms, Comparative Analysis
JOURNAL NAME:
Journal of Software Engineering and Applications,
Vol.17 No.11,
November
28,
2024
ABSTRACT: In the digital music landscape, the accuracy and response speed of music recommendation systems (MRS) are crucial for user experience optimization. Traditional MRS often relies on the use of high-performance servers for large-scale training to produce recommendation results, which may result in the inability to achieve music recommendation in some areas due to substandard hardware conditions. This study evaluates the adaptability of four popular machine learning algorithms (K-means clustering, fuzzy C-means (FCM) clustering, hierarchical clustering, and self-organizing map (SOM)) on low-computing servers. Our comparative analysis highlights that while K-means and FCM are robust in high-performance settings, they underperform in low-power scenarios where SOM excels, delivering fast and reliable recommendations with minimal computational overhead. This research addresses a gap in the literature by providing a detailed comparative analysis of MRS algorithms, offering practical insights for implementing adaptive MRS in technologically diverse environments. We conclude with strategic recommendations for emerging streaming services in resource-constrained settings, emphasizing the need for scalable solutions that balance cost and performance. This study advocates an adaptive selection of recommendation algorithms to manage operational costs effectively and accommodate growth.