Artificial Intelligence Algorithm-Based Feature Extraction of Computed Tomography Images and Analysis of Benign and Malignant Pulmonary Nodules

Gao, Yuantong; Chen, Yuyang; Jiang, Yuguang; Li, Yongchou; Zhang, Xia; Luo, Mingzhang; Wang, Xiaoyang; Yang, Li

doi:10.1155/2022/5762623

Computational Intelligence and Neuroscience

2022

DOI: 10.1155/2022/5762623

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Artificial Intelligence Algorithm-Based Feature Extraction of Computed Tomography Images and Analysis of Benign and Malignant Pulmonary Nodules

Yuantong Gao

Yuyang Chen

Yuguang Jiang

et al.

Abstract: This study was aimed to explore the effect of CT image feature extraction of pulmonary nodules based on an artificial intelligence algorithm and the image performance of benign and malignant pulmonary nodules. In this study, the CT images of pulmonary nodules were collected as the research object, and the lung nodule feature extraction model based on expectation maximization (EM) was used to extract the image features. The Dice similarity coefficient, accuracy, benign and malignant nodule edges, internal signs… Show more

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2024

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Cited by 1 publication

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Lightweight Advanced Deep Neural Network (DNN) Model for Early-Stage Lung Cancer Detection

Bhatia,

Aarti,

Ansarullah

et al. 2024

Diagnostics

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Background: Lung cancer, also known as lung carcinoma, has a high mortality rate; however, an early prediction helps to reduce the risk. In the current literature, various approaches have been developed for the prediction of lung carcinoma (at an early stage), but these still have various issues, such as low accuracy, high noise, low contrast, poor recognition rates, and a high false-positive rate, etc. Thus, in this research effort, we have proposed an advanced algorithm and combined two different types of deep neural networks to make it easier to spot lung melanoma in the early phases. Methods: We have used WDSI (weakly supervised dense instance-level lung segmentation) for laborious pixel-level annotations. In addition, we suggested an SS-CL (deep continuous learning-based deep neural network) that can be applied to the labeled and unlabeled data to improve efficiency. This work intends to evaluate potential lightweight, low-memory deep neural net (DNN) designs for image processing. Results: Our experimental results show that, by combining WDSI and LSO segmentation, we can achieve super-sensitive, specific, and accurate early detection of lung cancer. For experiments, we used the lung nodule (LUNA16) dataset, which consists of the patients’ 3D CT scan images. We confirmed that our proposed model is lightweight because it uses less memory. We have compared them with state-of-the-art models named PSNR and SSIM. The efficiency is 32.8% and 0.97, respectively. The proposed lightweight deep neural network (DNN) model archives a high accuracy of 98.2% and also removes noise more effectively. Conclusions: Our proposed approach has a lot of potential to help medical image analysis to help improve the accuracy of test results, and it may also prove helpful in saving patients’ lives.

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Lightweight Advanced Deep Neural Network (DNN) Model for Early-Stage Lung Cancer Detection

Bhatia,

Aarti,

Ansarullah

et al. 2024

Diagnostics

View full text Add to dashboard Cite

show abstract

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Artificial Intelligence Algorithm-Based Feature Extraction of Computed Tomography Images and Analysis of Benign and Malignant Pulmonary Nodules

Cited by 1 publication

References 29 publications

Lightweight Advanced Deep Neural Network (DNN) Model for Early-Stage Lung Cancer Detection

Lightweight Advanced Deep Neural Network (DNN) Model for Early-Stage Lung Cancer Detection

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