Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models
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Advanced AI modeling and optimization for determination of
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41598-023-37232-8/MediaObjects/41598_2023_37232_Fig9_HTML.png)
Computational intelligence modeling of hyoscine drug solubility
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41598-022-17350-5/MediaObjects/41598_2022_17350_Figa_HTML.png)
Design of predictive model to optimize the solubility of Oxaprozin
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://www.researchgate.net/publication/338780422/figure/tbl2/AS:850664875905028@1579825719307/Performance-comparison-between-KPCA-and-other-feature-selection-algorithms-in-the-IEEE.png)
Performance comparison between KPCA and other feature selection
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PDF) Computational intelligence modeling of hyoscine drug
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://ars.els-cdn.com/content/image/1-s2.0-S0378517318300632-fx1.jpg)
Computational prediction of drug solubility in water-based systems
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://pub.mdpi-res.com/bioengineering/bioengineering-10-01404/article_deploy/html/images/bioengineering-10-01404-g009b.png?1702032628)
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prediction surface in final ADA + GPR.
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://d3i71xaburhd42.cloudfront.net/21e70cb3669c40dc5d6ca6c32e7e82279d7eb378/7-Figure2-1.png)
PDF] Ensembles of extremely randomized trees and some generic
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41598-023-37232-8/MediaObjects/41598_2023_37232_Fig7_HTML.png)
Computational intelligence modeling of hyoscine drug solubility
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://media.springernature.com/lw685/springer-static/image/chp%3A10.1007%2F978-3-030-62625-9_2/MediaObjects/505667_1_En_2_Fig5_HTML.png)
Cluster-Based Regression Model for Predicting Aqueous Solubility
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://media.springernature.com/lw685/springer-static/image/chp%3A10.1007%2F978-3-030-62625-9_2/MediaObjects/505667_1_En_2_Fig1_HTML.png)
Cluster-Based Regression Model for Predicting Aqueous Solubility
![Computational intelligence modeling of hyoscine drug solubility and solvent density in supercritical processing: gradient boosting, extra trees, and random forest models](https://www.mdpi.com/molecules/molecules-27-05140/article_deploy/html/images/molecules-27-05140-g005.png)
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