Journal of System Simulation ›› 2022, Vol. 34 ›› Issue (5): 929-943.doi: 10.16182/j.issn1004731x.joss.22-0104

• Special Column •     Next Articles

Collaborative Design and Simulation Integrated Method of Civil Aircraft Take-off Scenarios Based on X Language

Pengfei Gu1,2(), Lin Zhang1,2(), Zhen Chen1,2, Junjie Ye3   

  1. 1.Beihang University, Beijing 100191, China
    2.Engineering Research Center of Complex PMBSEroduct Advanced Manufacturing System, Ministry of Education, Beijing 100191, China
    3.Aviation Industry Corporation of China Lei Hua Institute of Electronic Technology, Wuxi 214063, China
  • Received:2022-02-12 Revised:2022-04-14 Online:2022-05-18 Published:2022-05-25
  • Contact: Lin Zhang E-mail:by2003151@buaa.edu.cn;johnlin9999@163.com

Abstract:

For the large and complex products, the current traditional model-based systems engineering (MBSE) method of the integrated implementation of multiple modeling and simulation languages and platforms for system design and simulation verification can not ensure the efficient and accurate feedback of system design to realize the quick design optimization. X language, a new generation of integrated modeling and simulation language based on complex systems and supporting MBSE, is used to realize the integrated modeling and simulation on cross-domain subsystems of civil aircraft for the take-off scenarios. From the demand analysis of the take-off process of civil aircraft, the system-level model and physical-level model of the take-off scenarios are established, and the unified modeling and simulation verification is carried out by XLab, an X-language-oriented modeling and simulation software. The integrated method of collaborative design and simulation for complex products based on X language provides a new theory and method reference for the designers in different fields to realize the coordination and optimization of the complex product design.

Key words: complex products, X language, model-based system engineering (MBSE), modeling & simulation, collaborative optimization

CLC Number: