Abstract
Deep learning has been widely used in many fields. A large number of images can be quickly recognized by the deep learning models to provide information. How to improve the robustness of deep learning applications has become the focus of research. Unfortunately, the recognition ability of the existing deep learning model has been greatly threatened, many images can cause recognition errors in a well-trained model. Although data augmentation is an effective method, the existence of adversarial examples shows that traditional data augmentation methods have no obvious effect on minor pixel changes. After analyzing the impact of pixel changes on model recognition accuracy, a data augmentation method based on a small number of pixel changes is proposed. Our method can optimize the corresponding classification boundary and improve the recognition robustness of the model. Finally, a simple evaluation method to measure the robustness of model recognition is proposed. Our experiments prove the threat of a small number of pixels and the effectiveness of our data augmentation method. Moreover, the data augmentation method has strong generalization ability and can be applied to image recognition in many different fields.
Highlights
Deep learning [1] [2] [3] technology has achieved gratifying results in many fields [4] [5] [6]
After a detailed investigation of the impact of pixel changes on the robustness of model recognition, we propose a data augmentation method based on a small number of pixel changes to generate small-distance samples with less difference from the original image
The user can and effectively find the deep learning applications of smart medicine with better recognition robustness; 3) A data augmentation method based on a small number of pixel changes is proposed
Summary
Deep learning [1] [2] [3] technology has achieved gratifying results in many fields [4] [5] [6]. After a detailed investigation of the impact of pixel changes on the robustness of model recognition, we propose a data augmentation method based on a small number of pixel changes to generate small-distance samples with less difference from the original image. The user can and effectively find the deep learning applications of smart medicine with better recognition robustness; 3) A data augmentation method based on a small number of pixel changes is proposed. This method can effectively improve the robustness of the deep learning applications and can provide defense capabilities for adversarial examples. This can prevent malicious users from attacking the model and reduce the occurrence of accidents
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