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Advancements in Lung Cancer Diagnosis: A Comprehensive Study on the Role of PCA, LDA, and t-SNE in Deep Learning Frameworks

B Vikas, Satya Sukumar Makkapati, Srinivasa Rao Bogireddy, K S Balamurugan, M Deepa

202444 citationsDOI

Abstract

In the ever-evolving domain of medical imaging, the integration of deep learning techniques holds the promise of transformative advancements. This research delved into the potential of employing data transfer within deep learning architectures for the automated detection of three distinct lung cancer types. Leveraging sophisticated methodologies like linear discriminant analysis (LDA), t-SNE, and PCA, the study aimed to enhance accuracy and efficiency in detecting malignancies from lung CT scan images. On rigorous evaluation, the models demonstrated compelling accuracy rates: salivary gland-type lung tumors at $\mathbf{9 0. 5 \%}$, pleomorphic (spindle/giant cell) carcinoma at $88.2 \%$, and primary pulmonary sarcomas at $91.3 \%$. Additionally, ROC curve analysis further highlighted the robust discriminative capability of the models across varied decision thresholds. The promising results accentuate the potential of integrating data transfer techniques with deep learning in a clinical setting. This research not only exhibits a significant stride in lung cancer detection but also paves the path for further innovations in automated medical image analysis.

Topics & Concepts

Computer scienceDeep learningLung cancerArtificial intelligenceCancerMedicinePathologyInternal medicineRadiomics and Machine Learning in Medical ImagingArtificial Intelligence in Healthcare