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Autore principale: Kumar, Subhadip
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2506.22517
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author Kumar, Subhadip
author_facet Kumar, Subhadip
contents Containers are an integral part of the logistics industry and act as a barrier for cargo. A typical service life for a container is more than 20 years. However, overtime containers suffer various types of damage due to the mechanical as well as natural factors. A damaged container is a safety hazard for the employees handling it and a liability for the logistic company. Therefore, a timely inspection and detection of the damaged container is a key for prolonging service life as well as avoiding safety hazards. In this paper, we will compare the performance of the damage detection by three state-of-the-art advanced computer vision models Yolov12, Yolov11 and RF-DETR. We will use a dataset of 278 annotated images to train, validate and test the model. We will compare the mAP and precision of the model. The objective of this paper is to identify the model that is best suited for container damage detection. The result is mixed. mAP@50 score of Yolov11 and 12 was 81.9% compared to RF-DETR, which was 77.7%. However, while testing the model for not-so-common damaged containers, the RF-DETR model outperformed the others overall, exhibiting superiority to accurately detecting both damaged containers as well as damage occurrences with high confidence.
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publishDate 2025
record_format arxiv
spellingShingle Container damage detection using advanced computer vision model Yolov12 vs Yolov11 vs RF-DETR A comparative analysis
Kumar, Subhadip
Computer Vision and Pattern Recognition
Containers are an integral part of the logistics industry and act as a barrier for cargo. A typical service life for a container is more than 20 years. However, overtime containers suffer various types of damage due to the mechanical as well as natural factors. A damaged container is a safety hazard for the employees handling it and a liability for the logistic company. Therefore, a timely inspection and detection of the damaged container is a key for prolonging service life as well as avoiding safety hazards. In this paper, we will compare the performance of the damage detection by three state-of-the-art advanced computer vision models Yolov12, Yolov11 and RF-DETR. We will use a dataset of 278 annotated images to train, validate and test the model. We will compare the mAP and precision of the model. The objective of this paper is to identify the model that is best suited for container damage detection. The result is mixed. mAP@50 score of Yolov11 and 12 was 81.9% compared to RF-DETR, which was 77.7%. However, while testing the model for not-so-common damaged containers, the RF-DETR model outperformed the others overall, exhibiting superiority to accurately detecting both damaged containers as well as damage occurrences with high confidence.
title Container damage detection using advanced computer vision model Yolov12 vs Yolov11 vs RF-DETR A comparative analysis
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2506.22517