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Robust DOA Estimation via a Deep Learning Framework with Joint Spatial–Temporal Information Fusion

Yonghong Zhao, Xiumei Fan, Jisong Liu

2025Sensors5 citationsDOIOpen Access PDF

Abstract

In this paper, we propose a robust deep learning (DL)-based method for Direction-of-Arrival (DOA) estimation. Specifically, we develop a novel CRDCNN-LSTM network architecture, which integrates a Cross-Residual Depthwise Convolutional Neural Network (CRDCNN) with a Long Short-Term Memory (LSTM) module for effective capture of both spatial and temporal features. The CRDCNN employs multi-level cross-residual connections and depthwise separable convolutions to enhance feature diversity while mitigating issues such as gradient vanishing and overfitting. Furthermore, a customized FD loss function, combining Focal Loss and Dice Loss, is introduced to emphasize low-confidence samples and promote sparsity in the spatial spectrum, thereby improving the precision and overall effectiveness of DOA estimation. A post-processing strategy based on peak detection and quadratic interpolation is also employed to refine DOA estimations and reduce quantization errors. Simulation results demonstrate that the proposed approach achieves significantly higher estimation accuracy and resolution than conventional methods and current DL models under varying SNR and snapshot conditions. In addition, it offers distinct advantages in terms of generalization and computational efficiency.

Topics & Concepts

Computer scienceResidualOverfittingConvolutional neural networkArtificial intelligencePattern recognition (psychology)AlgorithmDeep learningArtificial neural networkDirection-of-Arrival Estimation TechniquesSpeech and Audio ProcessingUnderwater Acoustics Research
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