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Título
Gauze Detection and Segmentation in Minimally Invasive Surgery Video Using Convolutional Neural Networks
Autor
Año del Documento
2022
Editorial
MDPI
Documento Fuente
Gauze Detection and Segmentation in Minimally Invasive Surgery Video Using Convolutional Neural Networks. Sensors 2022, 22, 5180
Abstract
Medical instruments detection in laparoscopic video has been carried out to increase the
autonomy of surgical robots, evaluate skills or index recordings. However, it has not been extended
to surgical gauzes. Gauzes can provide valuable information to numerous tasks in the operating
room, but the lack of an annotated dataset has hampered its research. In this article, we present
a segmentation dataset with 4003 hand-labelled frames from laparoscopic video. To prove the
dataset potential, we analyzed several baselines: detection using YOLOv3, coarse segmentation, and
segmentation with a U-Net. Our results show that YOLOv3 can be executed in real time but provides
a modest recall. Coarse segmentation presents satisfactory results but lacks inference speed. Finally,
the U-Net baseline achieves a good speed-quality compromise running above 30 FPS while obtaining
an IoU of 0.85. The accuracy reached by U-Net and its execution speed demonstrate that precise
and real-time gauze segmentation can be achieved, training convolutional neural networks on the
proposed dataset.
Palabras Clave
convolutional neural networks; image segmentation; image object detection; surgical tool detection; minimally invasive surgery
Revisión por pares
SI
Version del Editor
Idioma
eng
Tipo de versión
info:eu-repo/semantics/publishedVersion
Derechos
openAccess
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