Learning Effective Discriminative Features with Differentiable Magnet Loss

2021 International Joint Conference on Neural Networks (IJCNN) Pub Date : 2021-07-18 DOI:10.1109/IJCNN52387.2021.9534158

Xiaojing Zhang, Lin Wang, Bo Yang

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Abstract

Neural network optimization relies on the ability of the loss function to learn highly discriminative features. In recent years, Softmax loss has been widely used to train neural network models in various tasks. In order to further enhance the discriminative power of the learned features, Center loss is introduced as an auxiliary function to aid Softmax loss jointly reduce the intra-class variances. In this paper, we propose a novel loss called Differentiable Magnet loss (DML), which can optimize neural nets independently of Softmax loss without joint supervision. This loss offers a more definite convergence target for each class, which not only allows the sample to be close to the homogeneous (intra-class) center but also to stay away from all heterogeneous (inter-class) centers in the feature embedding space. Extensive experimental results demonstrate the superiority of DML in a variety of classification and clustering tasks. Specifically, the 2-D visualization of the learned embedding features by t-SNE effectively proves that our proposed new loss can learn better discriminative representations.

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学习可微磁损失的有效判别特征

神经网络优化依赖于损失函数学习高度判别特征的能力。近年来，Softmax loss被广泛应用于各种任务中训练神经网络模型。为了进一步增强学习到的特征的判别能力，引入Center loss作为辅助函数，辅助Softmax loss共同减小类内方差。在本文中，我们提出了一种新的损耗，称为可微磁损耗(DML)，它可以在没有联合监督的情况下独立于Softmax损耗对神经网络进行优化。这种损失为每个类提供了更明确的收敛目标，既使样本接近同质(类内)中心，又使样本远离特征嵌入空间中的所有异质(类间)中心。大量的实验结果证明了DML在各种分类和聚类任务中的优越性。具体来说，通过t-SNE对学习到的嵌入特征进行二维可视化，有效地证明了我们提出的新损失可以学习到更好的判别表示。

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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来源期刊

2021 International Joint Conference on Neural Networks (IJCNN)

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