Aircraft aerodynamic configuration design method and system based on simulation and optimization coupling

Abstract

The invention discloses an aircraft aerodynamic configuration design method and system based on simulation and optimization coupling, and the method comprises the steps: determining an aircraft configuration parameterization method according to a given aircraft configuration model, and obtaining a design variable; generating an initial sampling point by using a constraint domain experiment designmethod; carrying out flow field simulation calculation by using a high-precision pneumatic simulation model to obtain simulation flow field distribution, constructing a training set and generating a full flow field approximation model; predicting an optimal point in a design space for the full flow field approximation model, and taking the optimal point as a new sampling point; performing simulation calculation on the new sampling point by using a high-precision pneumatic simulation model to obtain a simulation flow field approximation model of the new sampling point; and outputting a new sampling point when a convergence judgment condition is met. Through deep coupling of the optimization algorithm and the simulation model, double acceleration of convergence of the simulation solution information acceleration optimization algorithm and acceleration of aerodynamic simulation solution by the optimization algorithm is realized, so that the total time consumption of the optimization process is greatly reduced, and the aerodynamic optimization efficiency is improved.

Description

technical field [0001] The invention belongs to the field of aircraft aerodynamic shape design, in particular to an aircraft aerodynamic shape design method and system based on simulation and optimization coupling. Background technique [0002] Aerodynamic shape design is an important part of aircraft design and has a great impact on the overall performance of the aircraft. With the improvement of aircraft performance requirements, the design of aircraft becomes more complex, which puts forward higher requirements for the fine design of aerodynamic layout. [0003] Currently commonly used aerodynamic design methods are: 1. Inverse design method, such as literature 1 "CARLSON L. A direct-inverse method for the prediction of transonic and separated flows about airfoils at high angles of attack [A]. 24th Aerospace Sciences Meeting [C ]. Reston, Virigina: American Institute of Aeronautics and Astronautics, 1986." and literature 2 "Greff E, Mantel J. An engineering approach to t...

AI Technical Summary

Problems solved by technology

However, the disadvantages of the existing start-up optimization design method are: the determination of the target flow field distribution in the inverse design method requires the designer to have a deep understanding of the design target and rich design experience, and the design quality depends heavily on the selection of the target aerodynamic characteristics; On the other hand, it is difficult to deal with aerodynamic, geometrical constraints, and non-design point performance constraints

In this process, the simulation model is regarded as a "black box", and the approximate model only predicts the input-output relationship of the "black box", which cannot make full use of the large amount of data information generated by the time-consuming simulation model, which seriously weakens the ability of the proxy model to capture the real The ability of the essential characteristics of the model great

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