Journal of Systems Engineering and Electronics

• SOFTWARE ALGORITHM AND SIMULATION • Previous Articles     Next Articles

EMMD-Prony approach for dynamic validation of simulation models

Yongxing Chen*, Xiaoyan Wu, Xiangwei Bu, and Ruiyang Bai   

  1. Air and Missile Defense College, Air Force Engineering University, Xi’an 710051, China
  • Online:2015-02-13 Published:2010-01-03

Abstract:

Model validation and updating is critical to model credibility growth. In order to assess model credibility quantitatively and locate model error precisely, a new dynamic validation method based on extremum field mean mode decomposition (EMMD) and the Prony method is proposed in this paper. Firstly, complex dynamic
responses from models and real systems are processed into stationary components by EMMD. These components always have definite physical meanings which can be the evidence about rough model error location. Secondly, the Prony method is applied to identify the features of each EMMD component. Amplitude similarity,
frequency similarity, damping similarity and phase similarity are defined to describe the similarity of dynamic responses. Then quantitative validation metrics are obtained based on the improved entropy weight and energy proportion. Precise model error location is realized based on the physical meanings of these features. The application of this method in aircraft controller design provides evidence about its feasibility and usability.

Key words: dynamic validation, extremum field mean mode decomposition (EMMD), Prony method, error location, model updating