DeepNet model empowered cuckoo search algorithm for the effective identification of lung cancer nodules.

IF 2.7 Q3 ENGINEERING, BIOMEDICAL Frontiers in medical technology Pub Date : 2023-09-11 eCollection Date: 2023-01-01 DOI:10.3389/fmedt.2023.1157919
Grace John M, Baskar S
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Abstract

Introduction: Globally, lung cancer is a highly harmful type of cancer. An efficient diagnosis system can enable pathologists to recognize the type and nature of lung nodules and the mode of therapy to increase the patient's chance of survival. Hence, implementing an automatic and reliable system to segment lung nodules from a computed tomography (CT) image is useful in the medical industry.

Methods: This study develops a novel fully convolutional deep neural network (hereafter called DeepNet) model for segmenting lung nodules from CT scans. This model includes an encoder/decoder network that achieves pixel-wise image segmentation. The encoder network exploits a Visual Geometry Group (VGG-19) model as a base architecture, while the decoder network exploits 16 upsampling and deconvolution modules. The encoder used in this model has a very flexible structural design that can be modified and trained for any resolution based on the size of input scans. The decoder network upsamples and maps the low-resolution attributes of the encoder. Thus, there is a considerable drop in the number of variables used for the learning process as the network recycles the pooling indices of the encoder for segmentation. The Thresholding method and the cuckoo search algorithm determines the most useful features when categorizing cancer nodules.

Results and discussion: The effectiveness of the intended DeepNet model is cautiously assessed on the real-world database known as The Cancer Imaging Archive (TCIA) dataset and its effectiveness is demonstrated by comparing its representation with some other modern segmentation models in terms of selected performance measures. The empirical analysis reveals that DeepNet significantly outperforms other prevalent segmentation algorithms with 0.962 ± 0.023% of volume error, 0.968 ± 0.011 of dice similarity coefficient, 0.856 ± 0.011 of Jaccard similarity index, and 0.045 ± 0.005s average processing time.

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DeepNet模型赋予杜鹃搜索算法以有效识别癌症结节。
简介:在全球范围内,癌症是癌症的一种高危害类型。一个有效的诊断系统可以使病理学家识别肺结节的类型和性质,以及增加患者生存机会的治疗模式。因此,实现从计算机断层扫描(CT)图像中分割肺结节的自动且可靠的系统在医疗行业中是有用的。方法:本研究开发了一种新的全卷积深度神经网络(以下简称DeepNet)模型,用于从CT扫描中分割肺结节。该模型包括实现逐像素图像分割的编码器/解码器网络。编码器网络利用视觉几何组(VGG-19)模型作为基础架构,而解码器网络利用16个上采样和去卷积模块。该模型中使用的编码器具有非常灵活的结构设计,可以根据输入扫描的大小针对任何分辨率进行修改和训练。解码器网络对编码器的低分辨率属性进行上采样和映射。因此,随着网络回收编码器的池化索引用于分割,用于学习过程的变量数量显著下降。阈值法和布谷鸟搜索算法确定了对癌症结节进行分类时最有用的特征。结果和讨论:在被称为癌症成像档案(TCIA)数据集的真实世界数据库上谨慎评估了预期DeepNet模型的有效性,并通过将其表示与其他一些现代分割模型在所选性能指标方面进行比较来证明其有效性。实证分析表明,DeepNet以0.962的成绩显著优于其他流行的分割算法 ± 0.023%的体积误差,0.968 ± 骰子相似系数的0.011,0.856 ± Jaccard相似性指数的0.011和0.045 ± 平均处理时间0.005s。
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CiteScore
3.70
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0.00%
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审稿时长
13 weeks
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