Convolution Neural Network with Coordinate Attention for Real-Time Wound Segmentation and Automatic Wound Assessment

Convolution Neural Network with Coordinate Attention for Real-Time Wound Segmentation and Automatic Wound Assessment

Wound treatment in emergency care requires the rapid assessment of wound size by medical staff. Limited medical resources and the empirical assessment of wounds can delay the treatment of patients, and manual contact measurement methods are often inaccurate and susceptible to wound infection. This s...

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Bibliographic Details
Published in:Healthcare (Basel) Vol. 11; no. 9; p. 1205
Main Authors: Sun, Yi, Lou, Wenzhong, Ma, Wenlong, Zhao, Fei, Su, Zilong
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 23-04-2023
MDPI
Subjects:
Accuracy
area assessment
Artificial intelligence
Care and treatment
Classification
convolutional neural networks
coordinate attention
Disease susceptibility
Emergency medical care
Health aspects
Machine learning
Medical imaging equipment
Medical research
Medicine, Experimental
Methods
Neural networks
Ulcers
wound segmentation
Wounds and injuries
China
coordinate attention
convolutional neural networks
area assessment
wound segmentation
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Summary:Wound treatment in emergency care requires the rapid assessment of wound size by medical staff. Limited medical resources and the empirical assessment of wounds can delay the treatment of patients, and manual contact measurement methods are often inaccurate and susceptible to wound infection. This study aimed to prepare an Automatic Wound Segmentation Assessment (AWSA) framework for real-time wound segmentation and automatic wound region estimation. This method comprised a short-term dense concatenate classification network (STDC-Net) as the backbone, realizing a segmentation accuracy-prediction speed trade-off. A coordinated attention mechanism was introduced to further improve the network segmentation performance. A functional relationship model between prior graphics pixels and shooting heights was constructed to achieve wound area measurement. Finally, extensive experiments on two types of wound datasets were conducted. The experimental results showed that real-time AWSA outperformed state-of-the-art methods such as mAP, mIoU, recall, and dice score. The AUC value, which reflected the comprehensive segmentation ability, also reached the highest level of about 99.5%. The FPS values of our proposed segmentation method in the two datasets were 100.08 and 102.11, respectively, which were about 42% higher than those of the second-ranked method, reflecting better real-time performance. Moreover, real-time AWSA could automatically estimate the wound area in square centimeters with a relative error of only about 3.1%. The real-time AWSA method used the STDC-Net classification network as its backbone and improved the network processing speed while accurately segmenting the wound, realizing a segmentation accuracy-prediction speed trade-off.
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content type line 23
ISSN:2227-9032
2227-9032
DOI:10.3390/healthcare11091205