Whoever Started the Interference Should End It: Guiding Data-Free Model Merging via Task Vectors

Model merging seeks to integrate task-specific expert models into a unified architecture while preserving multi-task generalization capabilities, yet parameter interference between constituent models frequently induces performance degradation. Although prior work has explored many merging strategies, resolving interference without additional data for retraining or test-time computation remains challenging. In this paper, we theoretically demonstrate that the task vectors of the linear layer constitute an approximate linear subspace for its corresponding input. Therefore, we can minimize interference under the guidance of task vectors. Based on this insight, we propose \textbf{WUDI-Merging} (\textbf{W}hoever started the interference sho\textbf{U}ld en\textbf{D} \textbf{I}t), a simple yet effective model merging method that eliminates interference without any additional data or rescaling coefficients. Comprehensive empirical evaluations across vision and language benchmarks demonstrate our method's superiority, achieving state-of-the-art performance in data-free model merging scenarios (average 10.9\% improvement versus baseline methods) while even outperforming mainstream test-time adaptation approaches by 3.3\%, and only very few computing resources are required. The code will be publicly available soon.

@article{cheng2025_2503.08099,
  title={ Whoever Started the Interference Should End It: Guiding Data-Free Model Merging via Task Vectors },
  author={ Runxi Cheng and Feng Xiong and Yongxian Wei and Wanyun Zhu and Chun Yuan },
  journal={arXiv preprint arXiv:2503.08099},
  year={ 2025 }
}