Multi-lattice Topology Optimization with Smooth Spatial Lattice Transition

Multi-Lattice Topology Optimization is a computational design framework that enables decoupled tuning of mechanical properties by embedding multiple interacting lattice architectures within a single structure. By integrating physics-based simulation and machine-learning-driven optimization, the approach supports the design of high-performance, additively manufacturable systems whose functionality emerges from their physical architecture.

Optimize part shape and lattice distribution at the same time

Related publications

Multi-lattice Topology Optimization via Generative Lattice Modeling

Jiangce Chen, Martha Baldwin, Sneha Prabha Narra, and Christopher McComb

Journal of Mechanical Design, 2024

Bib Website

@article{chen2024multi,
  title = {Multi-lattice Topology Optimization via Generative Lattice Modeling},
  author = {Chen, Jiangce and Baldwin, Martha and Prabha Narra, Sneha and McComb, Christopher},
  journal = {Journal of Mechanical Design},
  pages = {1--19},
  year = {2024},
  multilattice = {true},
}