Forest-Genetic method to optimize parameter design of multiresponse experiment

Authors

  • Adriana Villa-Murillo Universidad Viña del Mar
  • Andrés Carrión Universitat Politecnica de Valencia
  • Antonio Sozzi Universidad de la República

DOI:

https://doi.org/10.4114/intartif.vol23iss66pp9-25

Keywords:

Genetic Algorithm, Random Forest, Neural Networks, Multivariate Analysis, Artificial Intelligence

Abstract

We propose a methodology for the improvement of the parameter design that consists of the combination of
Random Forest (RF) with Genetic Algorithms (GA) in 3 phases: normalization, modelling and optimization.
The rst phase corresponds to the previous preparation of the data set by using normalization functions. In the
second phase, we designed a modelling scheme adjusted to multiple quality characteristics and we have called it
Multivariate Random Forest (MRF) for the determination of the objective function. Finally, in the third phase,
we obtained the optimal combination of parameter levels with the integration of properties of our modelling
scheme and desirability functions in the establishment of the corresponding GA. Two illustrative cases allow us to
compare and validate the virtues of our methodology versus other proposals involving Articial Neural Networks
(ANN) and Simulated Annealing (SA).

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Published

2020-08-27

How to Cite

Villa-Murillo, A., Carrión, A., & Sozzi, A. (2020). Forest-Genetic method to optimize parameter design of multiresponse experiment. Inteligencia Artificial, 23(66), 9-25. https://doi.org/10.4114/intartif.vol23iss66pp9-25