未知信噪比高斯螺旋桨噪声的可解释深度学习检测

2021 IEEE 31st International Workshop on Machine Learning for Signal Processing (MLSP) Pub Date : 2021-10-25 DOI:10.1109/mlsp52302.2021.9596566

M. Thomas, Fillatre Lionel, Deruaz-Pepin Laurent

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引用次数: 2

摘要

由于对鲁棒性和可靠性的要求，水下目标检测对深度学习应用来说是一项具有挑战性的任务。尽管许多人尝试使用专家特征来处理这个问题，但很少有作品评估设计深度原始波形架构的好处，尽管它在其他领域表现出色。研究了基于可解释原始波形的神经网络水下螺旋桨检测方法。为此，我们设计了一类贝叶斯可解释的深度神经网络，其中包含与最优贝叶斯检测器结构匹配的神经网络。本课程源自水下螺旋桨噪声的真实声学模型。证明了我们的类的近似误差与期望的一样小。我们还证明了该类可以有效地实现为卷积神经网络。数值模拟研究了我们的类与通常的卷积神经网络相比的风险和可解释性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Explainable Deep Learning Detection of Gaussian Propeller Noise with Unknown Signal-to-Noise Ratio

Due to its need for robustness and reliability, underwater target detection is a challenging task for deep learning applications. Though many attempts were made to deal with this problem using expert features, few works assessed the benefit of designing deep raw waveform architecture despite its performance in other domains. This paper is focused on explainable raw waveform based neural network for underwater propeller detection. To this purpose, we design a class of Bayes explainable deep neural networks that contains neural networks whose architecture matches the structure of the optimal Bayes detector. This class is derived from a realistic acoustic model of underwater propeller noise. It is established that the approximation error of our class is as small as desired. We also show that this class can be efficiently implemented as a convolutional neural network. Numerical simulations study the risk and explainability of our class compared to a usual convolutional neural network.

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2021 IEEE 31st International Workshop on Machine Learning for Signal Processing (MLSP)

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