BANet: Enhancing Weakly Aligned Multimodal Object Detection via Balanced Bidirectional Alignment Network

计算机科学 目标检测 人工智能 计算机视觉 对象(语法) 雷达跟踪器 信号处理 探测理论 雷达探测 模式识别(心理学) 人工神经网络 特征提取 算法 特征(语言学) 图像处理 噪音(视频) 信噪比(成像) 算法设计
作者
Yutian Shi,Guoquan Li,Zhilong Shen,Hongying Meng,Yu Pang
出处
期刊:IEEE Transactions on Geoscience and Remote Sensing [Institute of Electrical and Electronics Engineers]
卷期号:64: 1-14
标识
DOI:10.1109/tgrs.2026.3674946
摘要

Multimodal object detection in remote sensing imagery has achieved remarkable performance, primarily owing to its ability to exploit complementary information from multiple modalities. However, most existing methods often suffer from substantial performance degradation under weakly aligned conditions, primarily due to the asymmetric utilization of information across different modalities. Therefore, we propose a novel multi-modal object detection network, termed Bidirectional Alignment Network (BANet), which aims to improve detection accuracy in weakly aligned multimodal remote sensing imagery by adopting a dual-path architecture and incorporating a dedicated Weakly Aligned Module (WAM) to explicitly mitigate misalignment and enhance cross-modal feature interaction. Specifically, WAM includes three cooperative components. Firstly, the Adaptive Cross-Modal Correlation Module (ACMCM) is designed to establish semantic correspondence by jointly modeling global dependencies and local similarities in a bidirectional manner. Then, the Symmetric Offset Generator (SOG) adopts a coarse-to-fine strategy to produce stable and symmetric offsets, thereby enabling precise and robust spatial alignment. Finally, the Progressive Fusion Strategy (PFS) adaptively integrates the original and aligned features through learnable weighting, effectively preserving modality-specific characteristics while enhancing both spatial alignment and semantic consistency. Extensive experiments on the DroneVehicle and VEDAI multimodal remote sensing datasets demonstrate the superiority of the proposed method over other advanced multimodal remote sensing object detectors. Notably, BANet performs best on the two datasets with only 8.8M parameters, highlighting its effectiveness and efficiency for real-time UAV applications.
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