Adaptive kernel selection network with attention constraint for surgical instrument classification

Hou, Yaqing; Zhang, Wenkai; Liu, Qian; Ge, Hongwei; Meng, Jun; Zhang, Qiang; Wei, Xiaopeng

doi:10.1007/s00521-021-06368-x

Cited by 5 publications

(4 citation statements)

References 47 publications

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“…The parameter initialization method is used to generate random tensors according to Xavier normal distribution. The deep learning Adam optimizer [ 15 ] is selected. The following deep learning network provides fast iterations If the validation loss does not decrease for every 3 epochs, the learning rate is reduced to half of the original value.…”

Section: System Design and Methodologymentioning

confidence: 99%

“…[12] ResNet101 and ResNet152 are intuitive extensions of ResNet-50, and therefore, they can generate high-quality object predicting results of the image. [13][14][15] The Hourglass network model is one of the most popular models for instance segmentation and can accomplish instance detection and segmentation for each instance in a single model. [16] Zhou et al [17] introduced an enhanced RetinaNet network, incorporating an ResNet18-based encoder to generate feature maps and a dedicated subnetwork for needle detection.…”

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confidence: 99%

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Guidewire Endpoint Detection Based on Pixel‐Adjacent Relation during Robot‐Assisted Intravascular Catheterization: In Vivo Mammalian Models

Du,

Yi,

Omisore

et al. 2024

Advanced Intelligent Systems

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Existing surgical guidewire endpoint localization methods in X‐ray images face challenges owing to their small size, simple appearance, nonrigid nature of objects, low signal‐to‐noise ratio of X‐ray images, and imbalance between the number of guidewire and background pixels, which lead to errors in surgical navigation. An eight‐neighborhood‐based method for increasing the localization accuracy of guidewire endpoint to improve the safety of interventional procedures is proposed herein. The proposed method includes two stages: 1) An improved U‐Net network is employed for segmenting the data of the guidewire to extract regions of interest containing guidewire endpoints with higher precision and to reduce interference from other anatomical structures and imaging artifacts. 2) The proposed method detects guidewire endpoints using the adjacent relationship between pixels in the eight‐neighborhood regions. This stage covers skeletonization extraction, removal of bifurcation points, and repair of fracture points. This study achieves mean pixel errors of 2.02 and 2.13 pixels in an in vivo rabbit and porcine X‐ray fluoroscopy images, outperforming ten classic heatmap and regression methods, achieving state‐of‐the‐art detection results. The proposed method can also be applied to detect other tiny surgical instruments such as stents and balloons, while preserving the flexibility of the guidewire bending angle.

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Section: System Design and Methodologymentioning

confidence: 99%

mentioning

confidence: 99%

Guidewire Endpoint Detection Based on Pixel‐Adjacent Relation during Robot‐Assisted Intravascular Catheterization: In Vivo Mammalian Models

Du,

Yi,

Omisore

et al. 2024

Advanced Intelligent Systems

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show abstract

“…The authors then developed RT-MDNet, a real-time multi-domain convolutional neural network with three convolutional layers, a Region of Interest Alignment (RoIAlign) layer and three fully connected layers, and tested it on the STT Dataset. Hou et al (2022) introduced an attention-based deep neural network-SKA-ResNet-composed of a feature extractor with a selective kernel attention module and a multi-scale regularizer to exploit the relationships between feature maps. Their SKA-ResNet was tested on a new surgical instrument dataset called SID19 for the classification of surgical tools.…”

Section: Tool Presence Detection Researchmentioning

confidence: 99%

Surgical Tool Datasets for Machine Learning Research: A Survey

2022

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This paper is a comprehensive survey of datasets for surgical tool detection and related surgical data science and machine learning techniques and algorithms. The survey offers a high level perspective of current research in this area, analyses the taxonomy of approaches adopted by researchers using surgical tool datasets, and addresses key areas of research, such as the datasets used, evaluation metrics applied and deep learning techniques utilised. Our presentation and taxonomy provides a framework that facilitates greater understanding of current work, and highlights the challenges and opportunities for further innovative and useful research.

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“…In their research, the types of devices included were unique, with significant differences between instruments categories, and there were no significant recognition difficulties. Hou et al [12] proposed a new deep neural network based on SKA attention to classify similar targets in 19 surgical instruments with an average accuracy of 97.042%. However, the captured instrument images have a simple background and do not have significant background interference.…”

Section: Introductionmentioning

confidence: 99%

The recognition of surgical tools based on attention mechanism

Chen

Wang

Liao

et al. 2023

Preprint

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The application of deep learning technology in healthcare has been widely studied, but there has been limited research on the management of surgical tools. Therefore, we propose a study focusing on the recognition and classification of surgical tools to reduce the risk caused by their loss. Firstly, we design a surgical tool collection system and construct a commonly used surgical tool dataset (STD). Secondly, we investigate two embedding strategies using an attention mechanism in the benchmark network to select suitable tool recognition methods. The first strategy is to embed attention in the base module of the extraction network, known as the embedding strategy. The second strategy is to embed attention in the last step before prediction, called the additional strategy. Our experimental results show that the performance of the additional strategy is superior to that of the embedded strategy in the surgical tool detection task. Using the additional strategy with the improved Yolov5s network based on SimAM attention resulted in an average accuracy of 0.972 while keeping GFLOPs unchanged. The model proposed in this paper outperformed advanced models and showed performance improvement on STD.

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Adaptive kernel selection network with attention constraint for surgical instrument classification

Cited by 5 publications

References 47 publications

Guidewire Endpoint Detection Based on Pixel‐Adjacent Relation during Robot‐Assisted Intravascular Catheterization: In Vivo Mammalian Models

Guidewire Endpoint Detection Based on Pixel‐Adjacent Relation during Robot‐Assisted Intravascular Catheterization: In Vivo Mammalian Models

Surgical Tool Datasets for Machine Learning Research: A Survey

The recognition of surgical tools based on attention mechanism

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