Lang, an engineering consultant, explains the basic geometric concepts used to solve a broad class of origami folding challenges. Lang teaches scientists how to apply origami to their work.
As result of his research, Lang has propelled the art of origami into tools used for applied mathematics and engineering. Expanding the realm of origami applications, Jeremy Shafer, an origamist with the Bay Area Rapid Folders, shows scientists how to design their own origami models as an exercise in problem solving.
Eric Demaine, assistant professor in electrical engineering and computer science at Massachusetts Institute of Technology is fascinated by the mathematical and computer science problems that develop naturally in origami. Examples of products being designed are stents, catheters, and drug delivery mechanisms that travel through the body in a collapsed, folded form and then expand to carry out their function. While more research is required before these devices are approved for medical use, it is thought that these origami-inspired designs will be safe devices that are minimally invasive to the body.
Read more about origami at the UI Libraries:. Skip to content. Finals Week Treats at the Sciences Library. They may get the solution from various approaches. Most of the projects involve simple and few folds, and the instructions in both books are pretty clear. The ancient art of origami has inspired designs for numerous pieces of hardware on NASA missions, allowing scientists to pack more technology into smaller space-bound packages.
The first Japanese origami was used for religious ceremonial purposes only, due to the high price of paper. A reference in a poem by Ihara Saikaku from describes the origami butterflies used during Shinto weddings to represent the bride and groom. To understand why NASA was so keen on a workable space pen, you have to understand that the pencil is not suited for space travel. The problem is that they have a habit of breaking, shattering, and leaving graphite dust behind.
The wood, too, can make it a serious fire risk in the pressurized, oxygen-rich capsule. While we think of origami as art, it increasingly is being used by companies and researchers in space, medicine, robotics, architecture, public safety and the military to solve vexing design problems, often to fit big things into small spaces.
Origami principles are now used in a wide variety of applications—from the design of satellites, to heart stents, to self-assembling robots, and much more. Applying origami principles help fit large objects into a smaller shape, after which they can expand again. Origami Engineering is a relatively new field whose innovative potential is increasingly recognized by manufacturers and engineers.
The technology can be applied to many other applications and industries. So should you sell your origami? If you are creating unique origamis yourself or mass produce simple origami models you can sell them for a reasonable price. Yes, you can make money out of origami. A few people, including one of our genial moderators, even contrive to make a living out of it.
Under copyright law, origami instructions are treated much like a musical composition or a piece of software. Personal use is permitted, but any commercial use or republication requires the express permission of the composer. And the intricate folding patterns can be used to make complex mechanical systems with movements that can be controlled by a single motor.
In the ancient Japanese Imperial court, origami served as an an elegant yet amusing leisure activity. Eventually origami developed widespread appeal, and ultimately the practice transformed into an indispensable part of everyday life. The grabber, which can be attached to a robotic submarine, folds its arms with help from a single motor.
Conventional bulletproof shields used by police can weigh 90 pounds or more and provide protection for one person only. But a team of engineers at Brigham Young University used origami to design a pound shield that is wide enough to protect several people and yet can be folded into a shape that fits easily into the trunk of a car.
But it took tweaks to get the thick bulletproof fabric to fold like paper. The engineers sewed rigid panels into the fabric, and the soft areas in between plates act like hinges. Space is at a premium in spacecraft.
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