Variational quantum classifier-based early identification and classification of chronic kidney disease using sparse autoencoder and LASSO shrinkage

Variational quantum classifier-based early identification and classification of chronic kidney disease using sparse autoencoder and LASSO shrinkage

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The two leading causes of chronic kidney disease (CKD) are excessive blood pressure and diabetes.Researchers worldwide utilize the rate of globular filtration and kidney inflammation biomarkers to identify chronic kidney disease that gradually reduces renal function.The mortality rate for CKD is high, and thus, a person with this illness is more likely to pass away at a younger age.Healthcare professionals must diagnose the various illnesses connected to this deadly disease as promptly as possible to liftmaster header bracket lighten the impact of CKD.A quantum machine learning (QML) based technique is presented in this research to help with the early diagnosis and prognosis of CKD.

The proposed research comprises four phases: data pre-processing, data augmentation, feature selection, and classification.In the first phase, Kalman filter and data normalization techniques are applied to handle the missing and noisy data.In the second phase, data augmentation uses sparse autoencoders to balance the data for smaller classes.In the third phase, LASSO shrinkage is used to select the significant features in the dataset.Variational Quantum classifiers, a supervised QML technique, are employed in the sweers island for sale classification phase to classify chronic kidney diseases.

The proposed system has been evaluated on the UCI dataset, which comprises 400 CKD patients in the early stages with 25 attributes.The suggested system was assessed using F1-score, precision, recall, and accuracy as evaluation metrics.With a 99.2% classification accuracy, it was found that this model performed better than the other traditional classifiers used for chronic kidney disease classification.