An Investigation in Analyzing the Food Quality Well-Being for Lung Cancer Using Blockchain through CNN
Aboamer M.A. Sikkandar M.Y. Gupta S. Vives L. Joshi K. Omarov B. Singh S.K.
2022Hindawi Limited
Journal of Food Quality
2022#2022
Deep learning (DL) is a new approach that provides exceptional speed in healthcare activities with greater accuracy. In this regard, convolutional neural networkor CNN and blockchain are two important parts that together fasten the disease detection procedures securely. CNN can detect and predict diseases like lung cancer and help determine food quality, and blockchain is responsible for data. This research is going to analyze the extension of blockchain with the help of CNN for lung cancer prediction and making food safer. CNN algorithm has been trained with a huge number of images by altering the filters, features, epoch values, padding value, kernel size, and resolution. Subsequently, the CNN accuracy has been measured to understand how these factors affect the accuracy. A linear regression analysis has been carried out in IBM SPSS where the independent variables selected are image dataset augmentation, epochs, features, pixel size (90 × 90 to 512 × 512), kernel size (0-7), filters (10-40), and padding. The dependent variable is the accuracy of CNN. Findings suggested that a larger number of epochs improve the CNN accuracy; however, when more than 12 epochs are considered, the accuracy may decrease. A greater pixel/resolution also improves the accuracy of cancer and food image detection. When images are provided with excellent features and filters, the CNN accuracy improves. The main objective of this research is to comprehend how the independent variables affect the accuracy (dependent), but the reading may not be fully exact, and thus, the researcher has conceded out a minor task, which delivered evidence supportive of the analysis and against the analysis. As a result, it can be determined that image augmentation and a large number of images develop the CNN accuracy in lung cancer prediction and food safety determination when features and filters are applied correctly. A total of 10-12 epochs are desirable for CNN to receive 99% accuracy with 1 padding.
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Department of Medical Equipment Technology, College of Applied Medical Sciences, Majmaah University, Al Majmaah, 11952, Saudi Arabia
School of Engineering and Technology, MVN University, Haryana, Delhi NCR, India
Peruvian University of Applied Sciences, Lima, Peru
UIT, Uttaranchal University, Uttarakhand, Dehradun, India
Al-Farabi Kazakh National University, Almaty, Kazakhstan
Department of Civil Engineering, Wollega University, Oromia, Nekemte, Ethiopia
Department of Medical Equipment Technology
School of Engineering and Technology
Peruvian University of Applied Sciences
UIT
Al-Farabi Kazakh National University
Department of Civil Engineering
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