Reconfigurable structures that can repeatedly change their ...

The teenager was researching the Miura-ori fold when Hurricane Helene made landfall in Florida and wildfires raged in ...

Modern satellites rely on electromagnetic waveguides—hollow structures that carry high-power signals between components such ...

High-powered satellites use electromagnetic waveguides to deliver energy from one component to another. Typically, they are ...

Abstract: This paper proposes a linearly to circularly polarized conversion membrane deployable reflectarray antenna for CubeSat with a beam-tilting primary radiator for small satellites. The use of a ...

Origami is no longer just an art form — it has become a powerful tool in modern engineering. By studying how flat surfaces fold into complex structures, engineers design systems that are lightweight, ...

We’re excited to announce that Titan Dynamics has raised a $9M Seed Round. This milestone marks an important step as we accelerate the development and delivery of advanced sUAS platforms, mobile sUAS ...

Skoltech researchers and their colleagues from Ludwig Maximilian University of Munich, Germany, Nanjing University of China, and the National Institute for Materials Science of Japan have developed a ...

The rapid advancements in satellite technology have been inextricably bound up with the support provided by sophisticated space folding mechanisms. In addition, with the rapid progression of space ...

Miles Wu, 14, won a $25,000 award for his research project combining origami and physics. He measured the weight that Miura-ori origami patterns can hold across various benchmarks. Wu said the pattern ...