English

Clustering in Dynamic Environments: A Framework for Benchmark Dataset Generation With Heterogeneous Changes

Machine Learning 2024-04-10 v2 Neural and Evolutionary Computing

Abstract

Clustering in dynamic environments is of increasing importance, with broad applications ranging from real-time data analysis and online unsupervised learning to dynamic facility location problems. While meta-heuristics have shown promising effectiveness in static clustering tasks, their application for tracking optimal clustering solutions or robust clustering over time in dynamic environments remains largely underexplored. This is partly due to a lack of dynamic datasets with diverse, controllable, and realistic dynamic characteristics, hindering systematic performance evaluations of clustering algorithms in various dynamic scenarios. This deficiency leads to a gap in our understanding and capability to effectively design algorithms for clustering in dynamic environments. To bridge this gap, this paper introduces the Dynamic Dataset Generator (DDG). DDG features multiple dynamic Gaussian components integrated with a range of heterogeneous, local, and global changes. These changes vary in spatial and temporal severity, patterns, and domain of influence, providing a comprehensive tool for simulating a wide range of dynamic scenarios.

Keywords

Cite

@article{arxiv.2402.15731,
  title  = {Clustering in Dynamic Environments: A Framework for Benchmark Dataset Generation With Heterogeneous Changes},
  author = {Danial Yazdani and Juergen Branke and Mohammad Sadegh Khorshidi and Mohammad Nabi Omidvar and Xiaodong Li and Amir H. Gandomi and Xin Yao},
  journal= {arXiv preprint arXiv:2402.15731},
  year   = {2024}
}
R2 v1 2026-06-28T14:58:57.069Z