Research Article
An Intelligent Ranking Evaluation Method of Simulation Models Based on Graph Neural Network
@INPROCEEDINGS{10.1007/978-3-031-57523-5_10, author={Fan Yang and Ping Ma and Jianchao Zhang and Huichuan Cheng and Wei Li and Ming Yang}, title={An Intelligent Ranking Evaluation Method of Simulation Models Based on Graph Neural Network}, proceedings={Simulation Tools and Techniques. 15th EAI International Conference, SIMUtools 2023, Seville, Spain, December 14-15, 2023, Proceedings}, proceedings_a={SIMUTOOLS}, year={2024}, month={4}, keywords={Ranking Evaluation of Simulation Models Multivariate and Correlated Outputs Graph Neural Network (GNN)}, doi={10.1007/978-3-031-57523-5_10} }- Fan Yang
Ping Ma
Jianchao Zhang
Huichuan Cheng
Wei Li
Ming Yang
Year: 2024
An Intelligent Ranking Evaluation Method of Simulation Models Based on Graph Neural Network
SIMUTOOLS
Springer
DOI: 10.1007/978-3-031-57523-5_10
Abstract
To validate the alternative simulation models and select the most credible one when the models have multivariate and correlated outputs, an intelligent ranking evaluation method of simulation models based on Graph Neural Network (GNN) is proposed. The process of ranking evaluation is divided into three parts: graph structure conversion for evaluation data, feature extraction based on Graph Representation Learning (GRL) and ranking evaluation based on feature distance. A graph structure modeling method is presented to provide the pre-define graph structure for further GRL primarily. Next the interdependencies and dynamic evolutionary patterns among variables are captured by GNN so that the graph representations of evaluation data can be obtained. Then ranking evaluation is achieved by similarity measurement of the graph representations. In the end, the effectiveness of the proposed method on feature extraction of evaluation data and simulation models ranking is illustrated through an application example on a prediction model for aerodynamic parameters of a certain flight vehicle.
