Building surrogate models for engineering problems by integrating limited simulation data and monotonic engineering knowledge

Jia Hao, Wenbin Ye, Liangyue Jia, Guoxin Wang, Janet Allen

Research output: Contribution to journalArticlepeer-review

11 Citations (Scopus)

Abstract

The use of surrogate models to replace expensive computations with computer simulations has been widely studied in engineering problems. However, often only limited simulation data is available when designing complex products due to the cost of obtaining this kind of data. This presents a challenge for building surrogate models because the information contained in the limited simulation data is incomplete. Therefore, a method for building surrogate models by integrating limited simulation data and engineering knowledge with evolutionary neural networks (eDaKnow) is presented. In eDaKnow, a neural network uses an evolutionary algorithm to integrate the simulation data and the monotonic engineering knowledge to learn its weights and structure synchronously. This method involves converting both limited simulation data and engineering knowledge into the respective fitness functions. Compared with the previous work of others, we propose a method to train the surrogate model by combining data and knowledge through evolutionary neural network. We take knowledge as fitness function to train the model, and use a network structure self-learning method, which means that there is no need to adjust the network structure manually. The empirical results show that: (1) eDaKnow can be used to integrate limited simulation data and monotonic knowledge into a neural network, (2) the prediction accuracy of the newly constructed surrogate model is increased significantly, and (3) the proposed eDaKnow outperforms other methods on relatively complex benchmark functions and engineering problems.

Original languageEnglish
Article number101342
JournalAdvanced Engineering Informatics
Volume49
DOIs
Publication statusPublished - Aug 2021

Keywords

  • Engineering knowledge
  • Evolutionary neural network
  • Limited simulation data
  • Neuro Evolution of augmenting topologies (NEAT)
  • Surrogate model

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