Litcius/Paper detail

Explainable AI models for predicting drop coalescence in microfluidics device

Jinwei Hu, Kewei Zhu, Sibo Cheng, Nina M. Kovalchuk, Alfred Soulsby, Mark Simmons, Omar K. Matar, Rossella Arcucci

2024Chemical Engineering Journal34 citationsDOIOpen Access PDF

Abstract

In the field of chemical engineering, understanding the dynamics and probability of drop coalescence is not just an academic pursuit, but a critical requirement for advancing process design by applying energy only where it is needed to build necessary interfacial structures, increasing efficiency towards Net Zero manufacture. This research applies machine learning predictive models to unravel the sophisticated relationships embedded in the experimental data on drop coalescence in a microfluidics device. Through the deployment of SHapley Additive exPlanations values, critical features relevant to coalescence processes are consistently identified. Comprehensive feature ablation tests further delineate the robustness and susceptibility of each model. Furthermore, the incorporation of Local Interpretable Model-agnostic Explanations for local interpretability offers an elucidative perspective, clarifying the intricate decision-making mechanisms inherent to each model’s predictions. As a result, this research provides the relative importance of the features for the outcome of drop interactions. It also underscores the pivotal role of model interpretability in reinforcing confidence in machine learning predictions of complex physical phenomena that are central to chemical engineering applications.

Topics & Concepts

InterpretabilitySoftware deploymentComputer scienceMachine learningRobustness (evolution)MicrofluidicsCoalescence (physics)Artificial intelligenceDrop (telecommunication)Biochemical engineeringNanotechnologyEngineeringMaterials scienceChemistryPhysicsTelecommunicationsOperating systemGeneBiochemistryAstrobiologyInnovative Microfluidic and Catalytic Techniques InnovationData Stream Mining TechniquesFluid Dynamics and Mixing