Some 20 years or so, various individuals recognised that the problem of folding a square sheet of paper into an arbitrary 3D shape had many similarities to problems in computational geometry. These ...

In a 1999 paper, Erik Demaine -- now an MIT professor of electrical engineering and computer science, but then an 18-year-old PhD student at the University of Waterloo, in Canada -- described an ...

Start with a square piece of paper. Now, fold it into the shape of a tarantula. Seem like a daunting task? It’s not, if you borrow Robert J. Lang’s software. The California-based origami designer -- ...

The art of origami goes back centuries — enough time to explore every possible crease that can be made in a sheet of paper, one might think. And yet, researchers have now found a new class of origami ...

In 1970, an astrophysicist named Koryo Miura conceived what would become one of the most well-known and well-studied folds in origami: the Miura-ori. The pattern of creases forms a tessellation of ...

The folding pattern, known as the Miura-ori, is a periodic way to tile the plane using the simplest mountain-valley fold in origami. It was used as a decorative item in clothing at least as long ago ...

The pattern uses the simplest mountain-valley fold in origami to tile the plane of a sheet of paper. Miura-ori has been used as a decorative accessory in clothing for centuries and has the advantage ...

From solar panels to nanoscale machines, physics applications of origami and kirigami have surged in recent years. Simon Perks reports (Courtesy: iStock/Li Kim Goh) We’ve all admired the delicate ...

A new algorithm generates practical paper-folding patterns to produce any 3-D structure. In a 1999 paper, Erik Demaine -- now an MIT professor of electrical engineering and computer science, but then ...