[Study on lightweight plasma recognition algorithm based on depth image perception].

Q4 Medicine

生物医学工程学杂志 Pub Date : 2025-02-25 DOI:10.7507/1001-5515.202404064

Hanwen Zhang, Yu Sun, Hao Jiang, Jintian Hu, Gangyin Luo, Dong Li, Weijuan Cao, Xiang Qiu

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引用次数: 0

Abstract

In the clinical stage, suspected hemolytic plasma may cause hemolysis illness, manifesting as symptoms such as heart failure, severe anemia, etc. Applying a deep learning method to plasma images significantly improves recognition accuracy, so that this paper proposes a plasma quality detection model based on improved "You Only Look Once" 5th version (YOLOv5). Then the model presented in this paper and the evaluation system ‌were introduced‌ into the plasma datasets, and ‌the average accuracy of the final classification reached 98.7%‌. The results of this paper's experiment were obtained through the combination of several key algorithm modules including‌ omni-dimensional dynamic convolution, pooling with separable kernel attention, residual bi-fusion feature pyramid network, ‌and‌ re-parameterization convolution. The method of this paper‌ obtains the feature information of spatial mapping efficiently, and enhances the average recognition accuracy of plasma quality detection. This paper presents a high-efficiency detection method for plasma images, aiming to provide a practical approach to prevent hemolysis illnesses caused by external factors.

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基于深度图像感知的轻量化等离子体识别算法研究

在临床阶段，疑似溶血血浆可引起溶血病，表现为心力衰竭、重度贫血等症状。将深度学习方法应用于等离子体图像，显著提高了识别精度，因此本文提出了一种基于改进版《You Only Look Once》第5版（YOLOv5）的等离子体质量检测模型。然后将本文提出的模型和评价系统引入到等离子体数据集中，最终分类的平均准确率达到98.7%。本文的实验结果是通过将全维动态卷积、可分离核注意池化、残差双融合特征金字塔网络、再参数化卷积等几个关键算法模块相结合得到的。该方法有效地获取了空间映射的特征信息，提高了等离子体质量检测的平均识别精度。本文提出了一种高效的血浆图像检测方法，旨在为预防外部因素引起的溶血疾病提供一种实用的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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