Origami‐based designs refer to the application of the ancient art of origami to solve
engineering problems of different nature. Despite being implemented at dimensions that …

Abstract Mechanical Metamaterials (MMs) are artificially designed structures with
extraordinary properties that are dependent on micro architectures and spatial tessellations …

Origami-inspired systems are attractive for creating structures and devices with tunable
properties, multiple functionalities, high-ratio packaging capabilities, easy fabrication, and …

Origami structures are often attractive for a broad range of applications in engineering,
design, and robotics because of their useful characteristics such as reconfigurable …

The multi-degree of freedom Resch pattern forms most of its surfaces by tuning the folding
angles of its creases. In this research, we program the triangular Resch pattern to naturally …

Abstract Design strategies for foldable mechanisms have been developed with inspiration
from origami. In this study, we investigate a new direction that blocks are folded in a way that …

The use of origami in engineering has significantly expanded in recent years, spanning
deployable structures across scales, folding robotics and mechanical metamaterials …

Instability-induced wrinkle patterns of thin sheets are ubiquitous in nature, which often result
in origami-like patterns that provide inspiration for the engineering of origami designs …

Bayesian optimization (BO) is a popular method for solving optimization problems involving
expensive objective functions. Although BO has been applied across various fields, its use …

A novel gradient-based optimizer, which makes use of Trust Region based Moving
Asymptotes and is abbreviated as TRMA method, is proposed for the topology optimization …