Rethinking Out-of-Distribution Detection From a Human-Centric Perspective

O ut- O f- D istribution (OOD) detection has received broad attention over the years, aiming to ensure the reliability and safety of deep neural networks (DNNs) in real-world scenarios by rejecting incorrect predictions. However, we notice a discrepancy between the conventional evaluation vs. the es...

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Bibliographic Details
Published in:International journal of computer vision 2024-10, Vol.132 (10), p.4633-4650
Main Authors: Zhu, Yao, Chen, Yuefeng, Li, Xiaodan, Zhang, Rong, Xue, Hui, Tian, Xiang, Jiang, Rongxin, Zheng, Bolun, Chen, Yaowu
Format: Article
Language:English
Subjects:
Artificial Intelligence
Artificial neural networks
Computer Imaging
Computer Science
Computer vision
Datasets
Detection
Embedded systems
Image Processing and Computer Vision
Network reliability
Pattern Recognition
Pattern Recognition and Graphics
Performance evaluation
Special Issue on Robust Vision
Vision
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Summary:O ut- O f- D istribution (OOD) detection has received broad attention over the years, aiming to ensure the reliability and safety of deep neural networks (DNNs) in real-world scenarios by rejecting incorrect predictions. However, we notice a discrepancy between the conventional evaluation vs. the essential purpose of OOD detection. On the one hand, the conventional evaluation exclusively considers risks caused by label-space distribution shifts while ignoring the risks from input-space distribution shifts. On the other hand, the conventional evaluation reward detection methods for not rejecting the misclassified image in the validation dataset. However, the misclassified image can also cause risks and should be rejected. We appeal to rethink OOD detection from a human-centric perspective, that a proper detection method should reject the case that the deep model’s prediction mismatches the human expectations and adopt the case that the deep model’s prediction meets the human expectations. We propose a human-centric evaluation and conduct extensive experiments on 45 classifiers and 8 test datasets. We find that the simple baseline OOD detection method can achieve comparable and even better performance than the recently proposed methods, which means that the development in OOD detection in the past years may be overestimated. Additionally, our experiments demonstrate that model selection is non-trivial for OOD detection and should be considered as an integral of the proposed method, which differs from the claim in existing works that proposed methods are universal across different models.
ISSN:0920-5691
1573-1405
DOI:10.1007/s11263-024-02099-3