首页|Multidisciplinary design optimization of a dual-spin guided vehicle
Multidisciplinary design optimization of a dual-spin guided vehicle
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In this research,a Multidisciplinary Design Optimization approach is proposed for the dual-spin guided flying projectile design considering external and internal parts of the body as design variables.In this way,a parametric formulation is developed.All related disciplines,including structure,aerodynamics,guidance,and control are considered.Minimum total mass,maximum aerodynamic control effective-ness,minimum miss distance,maximum yield stress in all subsystems,controllability and gyroscopic stability constraints are some of objectives/constraints taken into account.The problem is formulated in All-At-Ones Multidisciplinary Design Optimization approach structure and solved by Simulated Annealing and minimax algorithms.The optimal configurations are evaluated in various aspects.The resulted optimal configurations have met all design objectives and constraints.
Flying projectile optimal designAll-at-ones multidisciplinary optimizationStructure disciplineGuidance and control disciplineAerodynamic discipline
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