Related papers: FiLo: Zero-Shot Anomaly Detection by Fine-Grained Description and High-Quality Localization

FiLo: Zero-Shot Anomaly Detection by Fine-Grained Description and High-Quality Localization

URL: http://arxiv.org/abs/2404.13671v1
Date: Sun, 21 Apr 2024 14:22:04 GMT
Title: FiLo: Zero-Shot Anomaly Detection by Fine-Grained Description and High-Quality Localization
Authors: Zhaopeng Gu, Bingke Zhu, Guibo Zhu, Yingying Chen, Hao Li, Ming Tang, Jinqiao Wang,
Abstract summary: We propose a novel zero-shot anomaly detection (ZSAD) method called FiLo. FG-Des introduces fine-grained anomaly descriptions for each category using Large Language Models (LLMs) HQ-Loc, utilizing Grounding DINO for preliminary localization, position-enhanced text prompts, facilitates more accurate localization of anomalies of different sizes and shapes.
Score: 31.854923603517264
License: http://creativecommons.org/licenses/by-nc-sa/4.0/
Abstract: Zero-shot anomaly detection (ZSAD) methods entail detecting anomalies directly without access to any known normal or abnormal samples within the target item categories. Existing approaches typically rely on the robust generalization capabilities of multimodal pretrained models, computing similarities between manually crafted textual features representing "normal" or "abnormal" semantics and image features to detect anomalies and localize anomalous patches. However, the generic descriptions of "abnormal" often fail to precisely match diverse types of anomalies across different object categories. Additionally, computing feature similarities for single patches struggles to pinpoint specific locations of anomalies with various sizes and scales. To address these issues, we propose a novel ZSAD method called FiLo, comprising two components: adaptively learned Fine-Grained Description (FG-Des) and position-enhanced High-Quality Localization (HQ-Loc). FG-Des introduces fine-grained anomaly descriptions for each category using Large Language Models (LLMs) and employs adaptively learned textual templates to enhance the accuracy and interpretability of anomaly detection. HQ-Loc, utilizing Grounding DINO for preliminary localization, position-enhanced text prompts, and Multi-scale Multi-shape Cross-modal Interaction (MMCI) module, facilitates more accurate localization of anomalies of different sizes and shapes. Experimental results on datasets like MVTec and VisA demonstrate that FiLo significantly improves the performance of ZSAD in both detection and localization, achieving state-of-the-art performance with an image-level AUC of 83.9% and a pixel-level AUC of 95.9% on the VisA dataset.

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