3D Printed Braille Puzzle Helps the Visually Impaired to Learn Words

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Learning to read Braille increases the likelihood of a visually impaired person’s finding employment or pursuing higher education by more than three times. Unfortunately, many resources for learning Braille are either ineffective or too costly for the average person. A digital Braille reading device costs over $1,000, which is unaffordable for many, particularly for the 90% of the visually impaired population living in developing countries. Instead, these people often receive very basic, outdated learning material that’s largely ineffective.

3D printing lends itself well to Braille, as has been shown through projects like 3D printed Braille Rubik’s cubes and chess sets. Now a new 3D printed puzzle has been developed, and it’s designed to help the user learn how to read Braille. Fittle was designed through a collaboration between Indian designer Tania Jain, India’s leading eye institute LVPEI, German educational toy company Ravensburger, and independent global communication group Serviceplan.

Each puzzle is divided into pieces, with a Braille letter on each piece. Together, they spell out the name of an object. Connecting marks on each piece help the user figure out how they fit together, and once complete, they can feel the shape of the object and learn the Braille word for it. Originally, the design team made the puzzles out of wood, but they realized they needed something lower-cost and so turned to 3D printing. With support from Novabeans, they decided to go with the Ultimaker 2+ for its quality, usability and price. They had tried both larger and cheaper 3D printers, but the large printers were too expensive while the budget printers could not deliver the durability and accuracy they needed.

The Fitttle pieces are 3D printed with a hollow design to minimize material usage. 3D printing also lowered the cost of prototyping so that the team could get feedback from the visually impaired community.

There are now multiple Fittle shapes, which are 3D printed and distributed across India. The puzzles are given to LVPEI’s regional centers, which pass them on to Braille learners. Users can learn how to spell things such as ‘fish,’ ‘mouse,’ ‘ship,’ ‘rocket’ and many other words; Fittle is continuously developing new shapes and plans to introduce more of them in the future.

“Feedback has been overwhelming so far,” said Christoph Bohlender, Creative Director at Serviceplan Health and Life. “More and more children are learning braille better with Fittle.”

$10,000 buys four digital Braille readers or 200 Braille books – or 16,000 3D printed puzzles plus a 3D printer. Fittle’s future goals include funding more 3D printers, creating new shapes, distributing more puzzles, and ultimately expanding to other regions. The puzzles have also been made open source for download from Fittle’s website.

3D printing has played a major role in improving the lives of the visually impaired, being used to create such things as tactile maps and tactile books, as well as learning tools. It isn’t easy to get around in the world without sight, but many thoughtful and inventive people have used technology to make it a little bit easier.

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[Source/Images: Ultimaker]

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Researchers Use 3D Printing to Learn How Orchids are Tricking Insects

Image: Just Add Ice Orchids

[Image: Just Add Ice Orchids]

Most garden centers, and some grocery stores, carry potted orchids that are advertised as being the easiest plant in the world to care for. All you have to do is drop a few ice cubes in the pot once a week; the company will even text or email you to remind you when it’s time to water your plant. It’s the perfect plant for the lazy or forgetful indoor gardener with a habit of killing plants; these particular cultivated orchids are apparently pretty difficult to kill.

While these grocery store orchids are about as simple as they come, orchids as a species are incredibly complex. There are over 27,000 known species of orchid in the world; no wonder there are numerous societies dedicated to the delicate flowers. They’re beautiful, colorful, and wonderfully fragranced – or are they? Some orchids, as a matter of fact, smell like human body odor, fungus, or other odious scents, so the next time you buy flowers for your date, give them a good sniff first.

As it turns out, orchids are much smarter than we give them credit for. One of the reasons they’ve become such a prolific plant is that many of them have developed a brilliantly sneaky way of attracting pollinators. Rather than luring insects in with sweet nectar, certain orchids will trick those insects by mimicking their favorite foods, or even potential mates or rivals, to get the bugs to come running. (Or flying.) The orchids’ disguises often take the form of certain smells, depending on the preferred scents of their favorite pollinators; for example, the orchid that smells like people prefers to be pollinated by mosquitoes.

Dracula orchid [Image: Bitty Roy]

Dracula orchid [Image: Bitty Roy]

Of course, once the insect lands on the orchid, it realizes it’s been had, and presumably flies off feeling stupid and annoyed. But the orchid’s mission has been accomplished, as the insect inadvertently carries pollen with it when it leaves – pollen that will be deposited on another orchid later, after the insect’s short memory causes it to fall for the exact same trick it fell for a few minutes ago.

It’s a remarkable con for a plant to pull off, and scientists are trying to figure out exactly how they do it — using 3D printing, of all things. It’s difficult to determine what part of a plant is attracting pollinators, and how – is it mimicking a scent, or an appearance, or both? Scientists have developed several tests using fake flowers made of anything from construction paper to cotton balls, to which different scents are applied. This allows them to observe which scents attract certain pollinators, but it doesn’t tell them much about how the insects respond to visual disguises – which is where 3D printing comes in.

Tobias Policha, a plant ecologist at the University of Oregon, led a recent study focused on a particular variety of orchid known as Dracula lafleuri, or the Dracula orchid. The orchid, which grows in Ecuador’s cloud forest, is a complex plant with large maroon-speckled petals and a single, oddly-shaped petal at its center. That petal, known as the labellum, looks remarkably like the mushrooms that grow nearby, which happen to be a favorite of fruit flies.

Image: Tobias Policha

[Image: Tobias Policha]

The appearance of the Dracula orchid is pretty much impossible to reproduce with paper, so Policha and his team enlisted Melinda Barnadas, a co-author on the study and a visual artist at the University of California San Diego. Barnadas is the co-owner of Magpie Studio, which creates models and illustrations for museums and researchers, and she used her expertise to scan the orchids and 3D print realistic silicone replicas of them. The team then went to work on the 3D models, applying different color patterns and scents and placing the replicas among the real orchids. They also created flowers from a mix of fake and real parts, to further confuse the flies.

The orchid on the bottom left is the only entirely real one. [Image: Aleah Davis]

The orchid on the bottom left is the only entirely real one. [Image: Aleah Davis]

The outcome of the study revealed that the mushroom-like labellum was indeed the part of the plant that attracted the flies. While this may not have been entirely surprising, the scientists did learn that both scent and appearance were equally important to the disguise; the insects weren’t fooled unless the petal both looked and smelled like a mushroom. (Perhaps flies are a little bit smarter than we thought.)

It’s a lot of work for what may seem to the layperson to be an insignificant discovery; why go to all the trouble? Understanding exactly how an orchid attracts an insect is actually an important step in understanding natural selection and evolution, which in turn plays a critical role in conservation.

“Mimicry is one of the best examples of natural selection that we have,” said Barbara “Bitty” Roy, a biology professor and co-author on the study. “How mimicry evolves is a big question in evolutionary biology. In this case, there are about 150 species of these orchids. How are they pollinated? What sorts of connections are there? It’s a case where these orchids plug into an entire endangered system. This work was done in the last unlogged watershed in western Ecuador, where cloud forests are disappearing at an alarming rate.”

We’ve seen 3D printing save the lives of individual humans and animals; now it seems that it could play a role in saving entire ecosystems. Think on that as you go drop your weekly ice cubes into your cultivated orchid – and be grateful that it doesn’t smell like fungus or worse.

Real orchids are in the cups; the one on the right is 3D printed. [Image: Melinda Barnadas]

Real orchids are in the cups; the one on the right is 3D printed. [Image: Melinda Barnadas]