An AI-Assisted Design Method for Topology Optimization Without Pre-Optimized Training Data

TL;DR

This paper introduces an AI-assisted topology optimization method that eliminates the need for pre-optimized training data, reducing computational effort while producing comparable geometries to traditional methods.

Contribution

It presents a novel neural network-based approach for topology optimization that does not depend on pre-existing optimized datasets, enabling faster design generation.

Findings

Produces geometries similar to conventional optimizers

Requires significantly less computational effort

Operates without pre-optimized training data

Abstract

Topology optimization is widely used by engineers during the initial product development process to get a first possible geometry design. The state-of-the-art is the iterative calculation, which requires both time and computational power. Some newly developed methods use artificial intelligence to accelerate the topology optimization. These require conventionally pre-optimized data and therefore are dependent on the quality and number of available data. This paper proposes an AI-assisted design method for topology optimization, which does not require pre-optimized data. The designs are provided by an artificial neural network, the predictor, on the basis of boundary conditions and degree of filling (the volume percentage filled by material) as input data. In the training phase, geometries generated on the basis of random input data are evaluated with respect to given criteria. The results of those evaluations flow into an objective function which is minimized by adapting the predictor's parameters. After the training is completed, the presented AI-assisted design procedure supplies geometries which are similar to the ones generated by conventional topology optimizers, but requires a small fraction of the computational effort required by those algorithms. We anticipate our paper to be a starting point for AI-based methods that requires data, that is hard to compute or not available.