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Optimizing lung cancer classification through hyperparameter tuning.

Syed Muhammad NabeelSibghat Ullah BazaiNada AlasbaliYifan LiuMuhammad Imran GhafoorRozi KhanChin Soon KuJing YangSana ShahabPor Lip Yee
Published in: Digital health (2024)
Artificial intelligence is steadily permeating various sectors, including healthcare. This research specifically addresses lung cancer, the world's deadliest disease with the highest mortality rate. Two primary factors contribute to its onset: genetic predisposition and environmental factors, such as smoking and exposure to pollutants. Recognizing the need for more effective diagnosis techniques, our study embarked on devising a machine learning strategy tailored to boost precision in lung cancer detection. Our aim was to devise a diagnostic method that is both less invasive and cost-effective. To this end, we proposed four methods, benchmarking them against prevalent techniques using a universally recognized dataset from Kaggle. Among our methods, one emerged as particularly promising, outperforming the competition in accuracy, precision and sensitivity. This method utilized hyperparameter tuning, focusing on the Gamma and C parameters, which were set at a value of 10. These parameters influence kernel width and regularization strength, respectively. As a result, we achieved an accuracy of 99.16%, a precision of 98% and a sensitivity rate of 100%. In conclusion, our enhanced prediction mechanism has proven to surpass traditional and contemporary strategies in lung cancer detection.
Keyphrases
  • machine learning
  • artificial intelligence
  • deep learning
  • healthcare
  • big data
  • cardiovascular disease
  • genome wide
  • type diabetes
  • cardiovascular events
  • risk factors