Mapping the discrete folding landscape
Abstract
Folding is emerging as a promising manufacturing process to transform flat materials into functional structures, offering efficiency by reducing the need for welding, gluing, and molding, while minimizing waste and enabling automation. Designing target shapes requires not only to determine cuts and folds, but also folding pathways. Simple combinatorics is impractical as the possibilities grow factorially with the number of folds. To address this, we present a graph-based algorithm for polyhedral shapes. By representing the target shape as a graph, where nodes correspond to faces and edges represent adjacency, the algorithm identifies all possible fold sequences and maps the configuration space into a discrete set of intermediate configurations. This systematic mapping is critical for the design of optimized processes, the simplifying of folding operations, the reduction of failures, and the improvement of manufacturing reliability.
Keywords
Cite
@article{arxiv.2510.15588,
title = {Mapping the discrete folding landscape},
author = {João C. Neves and Bernardo R. Marques and Cristóvão S. Dias and Nuno A. M. Araújo},
journal= {arXiv preprint arXiv:2510.15588},
year = {2025}
}
Comments
submitted to Communications Physics