Mobile_ViT: Underwater Acoustic Target Recognition Method Based on Local-Global Feature Fusion

To overcome the challenges of inadequate representation and ineffective information exchange stemming from feature homogenization in underwater acoustic target recognition, we introduce a hybrid network named Mobile_ViT, which synergizes MobileNet and Transformer architectures. The network begins with a convolutional backbone incorporating an embedded coordinate attention mechanism to enhance the local details of inputs. This mechanism captures the long-term temporal dependencies and precise frequency-domain relationships of signals, focusing the features on the time-frequency positions. Subsequently, the Transformer's Encoder is integrated at the end of the backbone to facilitate global characterization, thus effectively overcoming the convolutional neural network's shortcomings in capturing long-range feature dependencies. Evaluation on the Shipsear and DeepShip datasets yields accuracies of 98.50% and 94.57%, respectively, marking a substantial improvement over the baseline. Notably, the proposed method also demonstrates obvious separation coefficients, signifying enhanced clustering effectiveness, and is lighter than other Transformers.