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Simulation-Based Optimization over Discrete Spaces Using Projection to Continuous Latent Spaces.

Gabriel Hernández-Morales1,2, Brenda Cansino-Loeza1, Arturo Jiménez-Gutiérrez2

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Summary
This summary is machine-generated.

This study introduces a novel method using Variational AutoEncoders to optimize complex systems by transforming discrete decision spaces into continuous latent spaces. This approach significantly reduces the computational cost of simulations for system design.

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Area of Science:

  • Computational Chemistry
  • Process Systems Engineering
  • Machine Learning

Background:

  • Simulation-based optimization of complex systems with discrete decision spaces presents significant computational challenges due to combinatorial explosion.
  • Existing methods struggle with the vast number of possible alternatives, making exhaustive simulation infeasible.
  • Efficiently navigating these discrete spaces is crucial for designing complex chemical processes.

Purpose of the Study:

  • To develop a novel computational approach for optimizing complex systems with discrete decision spaces.
  • To reduce the computational burden associated with simulation-based optimization.
  • To enable efficient navigation of complex design spaces for chemical process engineering.

Main Methods:

  • Transformation of discrete decision spaces into a continuous latent space using Variational AutoEncoders (VAEs).
  • Integration of VAEs with Bayesian optimization (BO) for efficient exploration of the latent space.
  • Application of the proposed method to design complex distillation systems.

Main Results:

  • The proposed VAE-based transformation effectively projects discrete decision spaces into a continuous latent space.
  • Bayesian optimization in the latent space significantly reduces the number of required expensive simulations.
  • Successful application demonstrated in case studies for designing distillation systems, including caprylic acid recovery and extractive dividing wall columns.

Conclusions:

  • The integration of Variational AutoEncoders and Bayesian optimization offers a powerful and efficient solution for simulation-based optimization of complex systems with discrete decision spaces.
  • This approach significantly alleviates computational challenges, paving the way for improved design of chemical processes.
  • The method shows practical utility in designing challenging separation systems, highlighting its potential for broader applications in process engineering.