We present Design-by-Morphing (DbM), a novel design methodology applicable to creating a search space for topology optimization of 2D airfoils. Most design techniques impose geometric constraints and sometimes designers' bias on the design space itself, thus restricting the novelty of the designs created, and only allowing for small local changes. We show that DbM methodology does not impose any such restrictions on the design space and allows for extrapolation from the search space, thus granting truly radical and large search space with a few design parameters. In comparison to other shape design methodologies, we apply DbM to create a search space for 2D airfoils. We optimize this airfoil shape design space for maximizing the lift-over-drag ratio, $CLD_{max}$, and stall angle tolerance, $\Delta \alpha$. Using a bi-objective genetic algorithm to optimize the DbM space, it is found that we create a Pareto-front of radical airfoils exhibiting remarkable properties for both objectives.
翻译:我们提出了“按部就班”设计(DbM)的新设计方法,它适用于为2D气泡的地形优化创造搜索空间。大多数设计技术都对设计空间本身施加几何限制,有时设计师对设计空间本身有偏向,从而限制了所设计空间的新颖性,只允许局部改动。我们表明,DbM方法没有对设计空间施加任何此类限制,允许从搜索空间进行外推,从而允许使用少数设计参数进行真正的激进和大型搜索空间。与其他形状设计方法相比,我们应用DbM来为2D气质制造搜索空间。我们优化这种气料形状设计空间,以最大限度地实现升降率比率、$CLD ⁇ max}和悬浮角度的容度,$\Delta\alpha$。我们发现,利用双向遗传算法优化DbM空间,我们创造了一个显示两个目标显著特性的直方的直方气流油。