Dusted Input Images: Visualizing Decision Boundary Distillation

Table of Links

Abstract and 1 Introduction

1. Related works

2. Problem setting

3. Methodology

   4.1. Decision boundary-aware distillation

   4.2. Knowledge consolidation

4. Experimental results and 5.1. Experiment Setup

   5.2. Comparison with SOTA methods

   5.3. Ablation study

5. Conclusion and future work and References

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Supplementary Material

1. Details of the theoretical analysis on KCEMA mechanism in IIL
2. Algorithm overview
3. Dataset details
4. Implementation details
5. Visualization of dusted input images
6. More experimental results

11. Visualization of dusted input images

To distill the decision boundary in an existing model, we proposed a module to dusted the input space with random Gaussian noise. By dusting the input space, we hope some samples can be relocated to the peripheral area of the learned decision boundary. Therefore, the intractable decision boundary can be manifested to some extent and distilled to the student model for knowledge retaining. The input space pollution is different with the image augmentation in the train process because of the large deviation and allowance of the polluted images to be classified to different classes besides their original labels. In fact, we hope the polluted images are prone to be classified to other category than the original category. The boundary can only be known when we know what is and what is not. The dusted input images is visualized in Fig. 10. It can be seen that the category of each image becomes vague after dusting.

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:::info Authors:

(1) Qiang Nie, Hong Kong University of Science and Technology (Guangzhou);

(2) Weifu Fu, Tencent Youtu Lab;

(3) Yuhuan Lin, Tencent Youtu Lab;

(4) Jialin Li, Tencent Youtu Lab;

(5) Yifeng Zhou, Tencent Youtu Lab;

(6) Yong Liu, Tencent Youtu Lab;

(7) Qiang Nie, Hong Kong University of Science and Technology (Guangzhou);

(8) Chengjie Wang, Tencent Youtu Lab.

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:::info This paper is available on arxiv under CC BY-NC-ND 4.0 Deed (Attribution-Noncommercial-Noderivs 4.0 International) license.

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