2022
DOI: 10.22541/au.166061526.65697833/v1
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Reliable and robust f(T,P,I)-QSPR models for ionic liquids enabled by balancing data distribution and LOIO-CV

Abstract: The thermodynamic properties at variable temperature and pressure, such as density (ρ) and viscosity (η) are necessary in chemical process design. The quantitative structure-property relationship (QSPR) is a quick and accurate method to obtain the properties from a large number of potential ionic liquids (ILs). The QSPR models for ρ and η may have “pseudo-high” robustness validated by leave-one-out cross-validation (LOO-CV) and weakened stability with the unbalanced data point distribution. A rigorous model ev… Show more

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“…For internal validation, the leaveone-ion-out cross-validation (LOIO-CV) with stringent rules is adopted, rather than the leave-one-out cross-validation (LOO-CV) and K-fold cross-validation (K-CV) adopted in most previous reference studies. 25 The LOIO-CV takes ILs with the same ion (cation or anion) as the test set to verify the robustness of the model, which includes the leave-one-anionout cross-validation (LOAO-CV) and the leave-one-cation-out cross-validation (LOCO-CV). The use of LOIO-CV could avoid the "pseudo-high" accuracy brought by LOO-CV and K-CV in evaluating QSPR models for ILs.…”
Section: Model Evaluationmentioning
confidence: 99%
“…For internal validation, the leaveone-ion-out cross-validation (LOIO-CV) with stringent rules is adopted, rather than the leave-one-out cross-validation (LOO-CV) and K-fold cross-validation (K-CV) adopted in most previous reference studies. 25 The LOIO-CV takes ILs with the same ion (cation or anion) as the test set to verify the robustness of the model, which includes the leave-one-anionout cross-validation (LOAO-CV) and the leave-one-cation-out cross-validation (LOCO-CV). The use of LOIO-CV could avoid the "pseudo-high" accuracy brought by LOO-CV and K-CV in evaluating QSPR models for ILs.…”
Section: Model Evaluationmentioning
confidence: 99%