Abstract
In node-based shape optimization, there are a vast amount of design parameters, and the objectives, as well as the physical constraints, are non-linear in state and design. Robust optimization algorithms are required. The methods of feasible directions are widely used in practical optimization problems and know to be quite robust. A subclass of these methods is the gradient projection method. It is an active-set method, it can be used with equality and non-equality constraints, and it has gained significant popularity for its intuitive implementation. One significant issue around efficiency is that the algorithm may suffer from zigzagging behavior while it follows non-linear design boundaries. In this work, we propose a modification to Rosen’s gradient projection algorithm. It includes the efficient techniques to damp the zigzagging behavior of the original algorithm while following the non-linear design boundaries, thus improving the performance of the method.
Highlights
The aim of this paper is to propose a modified algorithm for constrained node-based shape optimization
To overcome issues with gradient projection methods in our optimization problems, we introduce the proposed method, a relaxed gradient projection algorithm (RGP)
The results show that the RGP method is not efficient in solving analytical problems
Summary
The aim of this paper is to propose a modified algorithm for constrained node-based shape optimization. We are interested in iterative optimization methods, where a continuous evolution of the design produced. General, constrained shape-optimization problems can be formulated as follows: minimize : f (x) design variables : x s.t.:gj (x) ≤ 0, where j = 1..ng hk(x) = 0, where k = 1..nh (1). In the explicit parametrization, such as Vertex Morphing (Bletzinger 2017; Hojjat et al 2014) or CAD-based parametrization (Xu et al 2014; Agarwal et al 2018; Hardee et al 1999), the representation of the geometry is directly used as a design parameter field.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
