Histogram-based Parameter-efficient Tuning for Passive Sonar Classification
Parameter-efficient transfer learning (PETL) methods adapt large artificial neural networks to downstream tasks without fine-tuning the entire model. However, existing additive methods, such as adapters, sometimes struggle to capture distributional shifts in intermediate feature embeddings. We propose a novel histogram-based parameter-efficient tuning (HPT) technique that captures the statistics of the target domain and modulates the embeddings. Experimental results on three downstream passive sonar datasets (ShipsEar, DeepShip, VTUAD) demonstrate that HPT outperforms conventional adapters. Notably, HPT achieves 91.8% vs. 89.8% accuracy on VTUAD. Furthermore, HPT trains faster and yields feature representations closer to those of fully fine-tuned models. Overall, HPT balances parameter savings and performance, providing a distribution-aware alternative to existing adapters and shows a promising direction for scalable transfer learning in resource-constrained environments. The code is publicly available:this https URL.
View on arXiv@article{mohammadi2025_2504.15214,
title={ Histogram-based Parameter-efficient Tuning for Passive Sonar Classification },
author={ Amirmohammad Mohammadi and Davelle Carreiro and Alexandra Van Dine and Joshua Peeples },
journal={arXiv preprint arXiv:2504.15214},
year={ 2025 }
}