Autonomous underwater target detection is vital for enhancing the autonomy and intelligence of Autonomous Underwater Vehicles (AUVs). The main challenges in sonar image classification are insufficient underwater target samples, underwater target diversity, and the interference of noise. Most current underwater target classification methods rely on large-scale datasets and can only deal with specific categories or scenarios. To address this issue, this paper proposes a general framework (FS-UTnet) for underwater targets detection with few-shot samples, based on multi-scale local feature representation and adaptive margin. First, the multi-scale local feature representation is designed to preserve more discriminative information for each category. Then, the discriminative ability of reducing the intra-class distance while increasing inter-class distance is effectively enhanced by constructing adaptive margin loss. Real sea trial experiments were conducted to construct an underwater targets dataset based on side-scan sonar (FSL-SSS) for training and testing. Experimental results show that our proposed method outperforms several state-of-the-art techniques with very few labeled samples, achieving classification accuracies of 80.66% for the 5-way 5-shot scenario and 84.81% for the 5-way 10-shot scenario. This method exhibits remarkable capability in generalizing new detection tasks of AUV with few samples across different underwater conditions.
Multi-Level Feature Representation Framework With Adaptive Margin Loss for Few-Shot Sonar Images Classification of AUVs
IEEE Transactions on Intelligent Vehicles ; 9 , 12 ; 7751-7764
2024-12-01
4604967 byte
Article (Journal)
Electronic Resource
English
A PORTABLE, ELECTRONIC-FOCUSING SONAR SYSTEM FOR AUVS
British Library Online Contents | 2003
|A portable, electronic-focusing sonar system for AUVs
Tema Archive | 2003
|3D sonar based sensing for AUVs: Real-time experiments within the uncertainty grid framework
British Library Conference Proceedings | 1997
|Optimization of Foldable Sonar Formation Suitable for Small and Medium-Sized AUVs
Springer Verlag | 2025
|