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Antenna Array Diagnosis Using a Deep Learning Approach

He Ming Yao, Min Li, Lijun Jiang, Kwan L. Yeung, Michael K. Ng

2024IEEE Transactions on Antennas and Propagation22 citationsDOIOpen Access PDF

Abstract

In this paper, we propose to use a deep learning approach to detect unit failure in array antennas. Due to natural machine life cycle and/or unexpected accidents, antenna units unavoidably suffer from the risk of failure, leading to the deterioration of array performance. To realize the detection of unit failure, the far-field radiation patterns are used as the input of the deep convolutional neural network (DConvNet) for antenna array diagnosis learning. The proposed DConvNet consists of continuous functional groups of convolution, batch normalization, and activation layers, followed by a fully connected layer to realize recognition, i.e., the fault diagnosis of antenna array. Different from conventional diagnosis techniques, the main advantage of the proposed deep learning approach does not require intensive computations based on Green’s function. The training data are collected by the electromagnetic simulation tool. Additionally, the Gaussian noise is added to the training data to imitate the interference in real application scenarios. The proposed DConvNet for array diagnosis is verified by three numerical benchmarks and demonstrates that it can diagnose antenna array in a complex environment with generality.

Topics & Concepts

Computer scienceDeep learningConvolutional neural networkArtificial intelligenceAntenna (radio)Artificial neural networkAntenna arrayNormalization (sociology)Radiation patternConvolution (computer science)ComputationAlgorithmTelecommunicationsSociologyAnthropologyAntenna Design and OptimizationAdvanced SAR Imaging TechniquesWireless Signal Modulation Classification
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