避免过拟合:卷积神经网络正则化方法综述

C. F. G. Santos, J. Papa
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引用次数: 55

摘要

一些图像处理任务,如图像分类和目标检测,已经使用卷积神经网络(CNN)得到了显着改善。像ResNet和EfficientNet一样,许多架构在创建时至少在一个数据集上取得了出色的结果。训练中的一个关键因素是网络的正则化,它可以防止结构过拟合。这项工作分析了过去几年开发的几种正则化方法,对不同的CNN模型显示了显著的改进。这些工作分为三个主要领域:第一个被称为“数据增强”,其中所有的技术都专注于对输入数据进行更改。第二种称为“内部变化”,旨在描述修改神经网络或内核生成的特征映射的过程。最后一个称为“label”,涉及转换给定输入的标签。与其他可用的关于正则化的调查相比,这项工作呈现出两个主要区别:(i)第一个涉及手稿中收集的论文,这些论文不超过五年,(ii)第二个区别是关于可重复性,即这里提到的所有作品的代码都可以在公共存储库中获得,或者它们已经直接在某些框架中实现,例如TensorFlow或Torch。
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Avoiding Overfitting: A Survey on Regularization Methods for Convolutional Neural Networks
Several image processing tasks, such as image classification and object detection, have been significantly improved using Convolutional Neural Networks (CNN). Like ResNet and EfficientNet, many architectures have achieved outstanding results in at least one dataset by the time of their creation. A critical factor in training concerns the network’s regularization, which prevents the structure from overfitting. This work analyzes several regularization methods developed in the past few years, showing significant improvements for different CNN models. The works are classified into three main areas: the first one is called “data augmentation,” where all the techniques focus on performing changes in the input data. The second, named “internal changes,” aims to describe procedures to modify the feature maps generated by the neural network or the kernels. The last one, called “label,” concerns transforming the labels of a given input. This work presents two main differences comparing to other available surveys about regularization: (i) the first concerns the papers gathered in the manuscript, which are not older than five years, and (ii) the second distinction is about reproducibility, i.e., all works referred here have their code available in public repositories or they have been directly implemented in some framework, such as TensorFlow or Torch.
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