Related papers: High-Precision Fabric Defect Detection via Adaptive Shape Convolutions and Large Kernel Spatial Modeling

High-Precision Fabric Defect Detection via Adaptive Shape Convolutions and Large Kernel Spatial Modeling

URL: http://arxiv.org/abs/2501.14190v1
Date: Fri, 24 Jan 2025 02:53:59 GMT
Title: High-Precision Fabric Defect Detection via Adaptive Shape Convolutions and Large Kernel Spatial Modeling
Authors: Shuai Wang, Yang Xu, Hui Zheng, Baotian Li,
Abstract summary: We introduce Fab-ASLKS, an advanced fabric defect detection framework built upon the YOLOv8s architecture. We show that Fab-ASLKS achieves a 5% improvement in mAP@50 over the baseline, showcasing its capability to deliver high precision and efficiency.
Score: 9.684264979461148
License:
Abstract: Detecting fabric defects in the textile industry remains a challenging task due to the diverse and complex nature of defect patterns. Traditional methods often suffer from slow inference speeds, limited accuracy, and inadequate recognition rates, particularly in scenarios involving intricate or subtle defects. To overcome these limitations, we introduce Fab-ASLKS, an advanced fabric defect detection framework built upon the YOLOv8s architecture. Fab-ASLKS incorporates two key modules: (1) the Adaptive Shape Convolution Module (ASCM), which leverages adaptive shape convolution within the Neck to enhance feature fusion and improve efficiency by extending the capabilities of the standard C2f structure, and (2) the Large Kernel Shift Convolution Module (LKSCM), designed to emulate large kernel effects within the Backbone, enabling superior spatial information extraction. These modules collaboratively optimize feature extraction and information integration across the network. Extensive experiments conducted on the Tianchi fabric defect detection dataset demonstrate that Fab-ASLKS achieves a 5% improvement in mAP@50 over the baseline, showcasing its capability to deliver high precision and efficiency.

Related papers

SPFFNet: Strip Perception and Feature Fusion Spatial Pyramid Pooling for Fabric Defect Detection [0.0]
We propose an improved fabric defect detection model based on YOLOv11. We introduce a Strip Perception Module (SPM) that improves feature capture through multi-scale convolution. We also propose a novel focal enhanced complete intersection over union (FECIoU) metric with adaptive weights.
arXiv Detail & Related papers (2025-02-03T15:33:11Z)
Fab-ME: A Vision State-Space and Attention-Enhanced Framework for Fabric Defect Detection [4.272401529389713]
We propose Fab-ME, an advanced framework based on YOLOv8s for accurate detection of 20 fabric defect types. Our contributions include the introduction of the cross-stage partial bottleneck with two convolutions (C2F) vision state-space (C2F-VMamba) module. Experimental results on the Tianchi fabric defect detection dataset demonstrate that Fab-ME achieves a 3.5% improvement in mAP@0.5 compared to the original YOLOv8s.
arXiv Detail & Related papers (2024-12-04T10:40:17Z)
FAM Diffusion: Frequency and Attention Modulation for High-Resolution Image Generation with Stable Diffusion [63.609399000712905]
Inference at a scaled resolution leads to repetitive patterns and structural distortions. We propose two simple modules that combine to solve these issues. Our method, coined Fam diffusion, can seamlessly integrate into any latent diffusion model and requires no additional training.
arXiv Detail & Related papers (2024-11-27T17:51:44Z)
Towards Neural Scaling Laws for Time Series Foundation Models [63.5211738245487]
We examine two common TSFM architectures, encoder-only and decoder-only Transformers, and investigate their scaling behavior on both ID and OOD data. Our experiments reveal that the log-likelihood loss of TSFMs exhibits similar scaling behavior in both OOD and ID settings. We provide practical guidelines for designing and scaling larger TSFMs with enhanced model capabilities.
arXiv Detail & Related papers (2024-10-16T08:23:39Z)
YOLO-pdd: A Novel Multi-scale PCB Defect Detection Method Using Deep Representations with Sequential Images [7.368447690189973]
This paper proposes a high-precision, robust, and real-time end-to-end method for PCB defect detection based on CNN. We propose a novel approach combining YOLOv5 and multiscale modules for hierarchical residual-like connections. Experiments on a large-scale PCB dataset demonstrate significant improvements in precision, recall, and F1-score compared to existing methods.
arXiv Detail & Related papers (2024-07-22T07:08:22Z)
M2CVD: Enhancing Vulnerability Semantic through Multi-Model Collaboration for Code Vulnerability Detection [52.4455893010468]
Large Language Models (LLMs) have strong capabilities in code comprehension, but fine-tuning costs and semantic alignment issues limit their project-specific optimization. Code models such CodeBERT are easy to fine-tune, but it is often difficult to learn vulnerability semantics from complex code languages. This paper introduces the Multi-Model Collaborative Vulnerability Detection approach (M2CVD) to improve the detection accuracy of code models.
arXiv Detail & Related papers (2024-06-10T00:05:49Z)
Joint Attention-Guided Feature Fusion Network for Saliency Detection of Surface Defects [69.39099029406248]
We propose a joint attention-guided feature fusion network (JAFFNet) for saliency detection of surface defects based on the encoder-decoder network. JAFFNet mainly incorporates a joint attention-guided feature fusion (JAFF) module into decoding stages to adaptively fuse low-level and high-level features. Experiments conducted on SD-saliency-900, Magnetic tile, and DAGM 2007 indicate that our method achieves promising performance in comparison with other state-of-the-art methods.
arXiv Detail & Related papers (2024-02-05T08:10:16Z)
CINFormer: Transformer network with multi-stage CNN feature injection for surface defect segmentation [73.02218479926469]
We propose a transformer network with multi-stage CNN feature injection for surface defect segmentation. CINFormer presents a simple yet effective feature integration mechanism that injects the multi-level CNN features of the input image into different stages of the transformer network in the encoder. In addition, CINFormer presents a Top-K self-attention module to focus on tokens with more important information about the defects.
arXiv Detail & Related papers (2023-09-22T06:12:02Z)
Effective Transfer of Pretrained Large Visual Model for Fabric Defect Segmentation via Specifc Knowledge Injection [15.171188183349395]
This study introduces an innovative method to infuse specialized knowledge of fabric defects into the Segment Anything Model (SAM) By introducing and training a unique set of fabric defect-related parameters, this approach seamlessly integrates domain-specific knowledge into SAM. The experimental results reveal a significant improvement in the model's segmentation performance, attributable to this novel amalgamation of generic and fabric-specific knowledge.
arXiv Detail & Related papers (2023-06-28T13:08:08Z)
Adaptive Memory Networks with Self-supervised Learning for Unsupervised Anomaly Detection [54.76993389109327]
Unsupervised anomaly detection aims to build models to detect unseen anomalies by only training on the normal data. We propose a novel approach called Adaptive Memory Network with Self-supervised Learning (AMSL) to address these challenges. AMSL incorporates a self-supervised learning module to learn general normal patterns and an adaptive memory fusion module to learn rich feature representations.
arXiv Detail & Related papers (2022-01-03T03:40:21Z)
A Cascaded Zoom-In Network for Patterned Fabric Defect Detection [8.789819609485225]
We propose a two-step Cascaded Zoom-In Network (CZI-Net) for patterned fabric defect detection. In the CZI-Net, the Aggregated HOG (A-HOG) and SIFT features are used to instead of simple convolution filters for feature extraction. Experiments based on real-world datasets are implemented and demonstrate that our proposed method is not only computationally simple but also with high detection accuracy.
arXiv Detail & Related papers (2021-08-15T15:29:26Z)

This list is automatically generated from the titles and abstracts of the papers in this site.