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Main Authors: Zhang, Bowen, Chen, Ying, Bai, Long, Zhao, Yan, Sun, Yuxiang, Yuan, Yixuan, Zhang, Jianhua, Ren, Hongliang
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.10508
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author Zhang, Bowen
Chen, Ying
Bai, Long
Zhao, Yan
Sun, Yuxiang
Yuan, Yixuan
Zhang, Jianhua
Ren, Hongliang
author_facet Zhang, Bowen
Chen, Ying
Bai, Long
Zhao, Yan
Sun, Yuxiang
Yuan, Yixuan
Zhang, Jianhua
Ren, Hongliang
contents Foundation models have become prominent in computer vision, achieving notable success in various tasks. However, their effectiveness largely depends on pre-training with extensive datasets. Applying foundation models directly to small datasets of capsule endoscopy images from scratch is challenging. Pre-training on broad, general vision datasets is crucial for successfully fine-tuning our model for specific tasks. In this work, we introduce a simplified approach called Adapt foundation models with a low-rank adaptation (LoRA) technique for easier customization. Our method, inspired by the DINOv2 foundation model, applies low-rank adaptation learning to tailor foundation models for capsule endoscopy diagnosis effectively. Unlike traditional fine-tuning methods, our strategy includes LoRA layers designed to absorb specific surgical domain knowledge. During the training process, we keep the main model (the backbone encoder) fixed and focus on optimizing the LoRA layers and the disease classification component. We tested our method on two publicly available datasets for capsule endoscopy disease classification. The results were impressive, with our model achieving 97.75% accuracy on the Kvasir-Capsule dataset and 98.81% on the Kvasirv2 dataset. Our solution demonstrates that foundation models can be adeptly adapted for capsule endoscopy diagnosis, highlighting that mere reliance on straightforward fine-tuning or pre-trained models from general computer vision tasks is inadequate for such specific applications.
format Preprint
id arxiv_https___arxiv_org_abs_2406_10508
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Learning to Adapt Foundation Model DINOv2 for Capsule Endoscopy Diagnosis
Zhang, Bowen
Chen, Ying
Bai, Long
Zhao, Yan
Sun, Yuxiang
Yuan, Yixuan
Zhang, Jianhua
Ren, Hongliang
Computer Vision and Pattern Recognition
Foundation models have become prominent in computer vision, achieving notable success in various tasks. However, their effectiveness largely depends on pre-training with extensive datasets. Applying foundation models directly to small datasets of capsule endoscopy images from scratch is challenging. Pre-training on broad, general vision datasets is crucial for successfully fine-tuning our model for specific tasks. In this work, we introduce a simplified approach called Adapt foundation models with a low-rank adaptation (LoRA) technique for easier customization. Our method, inspired by the DINOv2 foundation model, applies low-rank adaptation learning to tailor foundation models for capsule endoscopy diagnosis effectively. Unlike traditional fine-tuning methods, our strategy includes LoRA layers designed to absorb specific surgical domain knowledge. During the training process, we keep the main model (the backbone encoder) fixed and focus on optimizing the LoRA layers and the disease classification component. We tested our method on two publicly available datasets for capsule endoscopy disease classification. The results were impressive, with our model achieving 97.75% accuracy on the Kvasir-Capsule dataset and 98.81% on the Kvasirv2 dataset. Our solution demonstrates that foundation models can be adeptly adapted for capsule endoscopy diagnosis, highlighting that mere reliance on straightforward fine-tuning or pre-trained models from general computer vision tasks is inadequate for such specific applications.
title Learning to Adapt Foundation Model DINOv2 for Capsule Endoscopy Diagnosis
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2406.10508