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Surgical Instrument Detection Algorithm Based on Improved YOLOv7x

The counting of surgical instruments is an important task to ensure surgical safety and patient health. However, due to the uncertainty of manual operations, there is a risk of missing or miscounting instruments. Applying computer vision technology to the instrument counting process can not only imp...

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Autores principales: Ran, Boping, Huang, Bo, Liang, Shunpan, Hou, Yulei
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10255780/
https://www.ncbi.nlm.nih.gov/pubmed/37299761
http://dx.doi.org/10.3390/s23115037
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author Ran, Boping
Huang, Bo
Liang, Shunpan
Hou, Yulei
author_facet Ran, Boping
Huang, Bo
Liang, Shunpan
Hou, Yulei
author_sort Ran, Boping
collection PubMed
description The counting of surgical instruments is an important task to ensure surgical safety and patient health. However, due to the uncertainty of manual operations, there is a risk of missing or miscounting instruments. Applying computer vision technology to the instrument counting process can not only improve efficiency, but also reduce medical disputes and promote the development of medical informatization. However, during the counting process, surgical instruments may be densely arranged or obstruct each other, and they may be affected by different lighting environments, all of which can affect the accuracy of instrument recognition. In addition, similar instruments may have only minor differences in appearance and shape, which increases the difficulty of identification. To address these issues, this paper improves the YOLOv7x object detection algorithm and applies it to the surgical instrument detection task. First, the RepLK Block module is introduced into the YOLOv7x backbone network, which can increase the effective receptive field and guide the network to learn more shape features. Second, the ODConv structure is introduced into the neck module of the network, which can significantly enhance the feature extraction ability of the basic convolution operation of the CNN and capture more rich contextual information. At the same time, we created the OSI26 data set, which contains 452 images and 26 surgical instruments, for model training and evaluation. The experimental results show that our improved algorithm exhibits higher accuracy and robustness in surgical instrument detection tasks, with F1, AP, AP50, and AP75 reaching 94.7%, 91.5%, 99.1%, and 98.2%, respectively, which are 4.6%, 3.1%, 3.6%, and 3.9% higher than the baseline. Compared to other mainstream object detection algorithms, our method has significant advantages. These results demonstrate that our method can more accurately identify surgical instruments, thereby improving surgical safety and patient health.
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spelling pubmed-102557802023-06-10 Surgical Instrument Detection Algorithm Based on Improved YOLOv7x Ran, Boping Huang, Bo Liang, Shunpan Hou, Yulei Sensors (Basel) Article The counting of surgical instruments is an important task to ensure surgical safety and patient health. However, due to the uncertainty of manual operations, there is a risk of missing or miscounting instruments. Applying computer vision technology to the instrument counting process can not only improve efficiency, but also reduce medical disputes and promote the development of medical informatization. However, during the counting process, surgical instruments may be densely arranged or obstruct each other, and they may be affected by different lighting environments, all of which can affect the accuracy of instrument recognition. In addition, similar instruments may have only minor differences in appearance and shape, which increases the difficulty of identification. To address these issues, this paper improves the YOLOv7x object detection algorithm and applies it to the surgical instrument detection task. First, the RepLK Block module is introduced into the YOLOv7x backbone network, which can increase the effective receptive field and guide the network to learn more shape features. Second, the ODConv structure is introduced into the neck module of the network, which can significantly enhance the feature extraction ability of the basic convolution operation of the CNN and capture more rich contextual information. At the same time, we created the OSI26 data set, which contains 452 images and 26 surgical instruments, for model training and evaluation. The experimental results show that our improved algorithm exhibits higher accuracy and robustness in surgical instrument detection tasks, with F1, AP, AP50, and AP75 reaching 94.7%, 91.5%, 99.1%, and 98.2%, respectively, which are 4.6%, 3.1%, 3.6%, and 3.9% higher than the baseline. Compared to other mainstream object detection algorithms, our method has significant advantages. These results demonstrate that our method can more accurately identify surgical instruments, thereby improving surgical safety and patient health. MDPI 2023-05-24 /pmc/articles/PMC10255780/ /pubmed/37299761 http://dx.doi.org/10.3390/s23115037 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ran, Boping
Huang, Bo
Liang, Shunpan
Hou, Yulei
Surgical Instrument Detection Algorithm Based on Improved YOLOv7x
title Surgical Instrument Detection Algorithm Based on Improved YOLOv7x
title_full Surgical Instrument Detection Algorithm Based on Improved YOLOv7x
title_fullStr Surgical Instrument Detection Algorithm Based on Improved YOLOv7x
title_full_unstemmed Surgical Instrument Detection Algorithm Based on Improved YOLOv7x
title_short Surgical Instrument Detection Algorithm Based on Improved YOLOv7x
title_sort surgical instrument detection algorithm based on improved yolov7x
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10255780/
https://www.ncbi.nlm.nih.gov/pubmed/37299761
http://dx.doi.org/10.3390/s23115037
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AT houyulei surgicalinstrumentdetectionalgorithmbasedonimprovedyolov7x