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- Title
Robust Optimization Design of the Aerodynamic Shape and External Ballistics of a Pulse Trajectory Correction Projectile.
- Authors
Xing, Bingnan; Du, Chengxin; Du, Zhonghua; Yang, Wenxin
- Abstract
To improve the tactical and technical performance of pulse correction projectiles while maintaining stability in uncertain conditions and considering practical engineering constraints, this study performs a multi-objective robust optimization design of the aerodynamic shape and external ballistics of a projectile. The study utilizes an aerodynamic force engineering algorithm and numerical trajectory calculations to obtain the projectile's performance responses within the Latin hypercube design space. To enhance optimization efficiency, a stochastic Kriging surrogate model is established to capture the inherent uncertainty of limited input data. Ultimately, a Pareto optimal solution for the projectile is obtained using a non-dominated sorting multi-objective sparrow search algorithm. The results of this study demonstrate that the consideration of design uncertainty in the robust optimization of pulse correction projectiles leads to significant enhancements in both lateral correction ability and range while satisfying flight stability requirements. Moreover, when compared to deterministic optimization, the performance variability of the design is markedly improved. This research methodology provides valuable insights for optimizing the performance of pulse correction projectiles.
- Subjects
ROBUST optimization; PROJECTILES; BALLISTICS; AERODYNAMIC load; SEARCH algorithms; PARETO optimum; AERODYNAMICS
- Publication
Applied Sciences (2076-3417), 2023, Vol 13, Issue 12, p7007
- ISSN
2076-3417
- Publication type
Article
- DOI
10.3390/app13127007