2016 Hackaday Prize – Page 11

Hackaday Prize Entry: A WiFi Swiss Army Knife

Posted on August 8, 2016 by Brian Benchoff

WiFi is all around us, but if you want to work with this ubiquitous networking protocol, you’ll need to pull out a laptop or smartphone like a caveman. [Daniel] has a better idea. It’ s a simple, compact tool for cracking WiFi passwords or sending deauth packets to everyone at the local Starbucks. It’s an ESP Swiss Army Knife, and a great entry for the Hackaday Prize.

As you would expect, this WiFI Swiss Army Knife is powered by the ESP8266 and features a tiny OLED display and a bunch of buttons for the UI. With this, [Daniel] is able …read more

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Hackaday Prize Entry: The Strength Of 3D Printed Parts

Posted on August 7, 2016 by Gerrit Coetzee

[Sam Barrett] is doing something that is sorely needed. He’s doing real materials research on FDM parts.

There’s nothing wrong with the rough experiments like hanging a 1 L bottle of water from the end of a rectangular test print to compare strengths. We also have our rules-of-thumb, like expecting the print to perform at 30% of injection molded strength. But these experiments are primitive and the guidelines are based on hearsay. Like early metallurgy or engineering; 3D printing is full of made-up stuff.

What [Sam] has done here is really amazing. He’s produced a model of a printed ABS …read more

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Hackaday Prize Entry: Diagnosing Concussions

Posted on August 6, 2016 by Brian Benchoff

Athletes of every age receive a lot of blows to the head. After a few years of this and a lot of concussions, symptoms similar to Alzheimer’s can appear. For his Hackaday Prize entry, [Mihir] wanted to build a simple device that could be given to high school coaches that would diagnose concussions. He came up with HeadsUp, a device so simple even a high school gym teacher could use it.

The origins of HeadsUp began as an augmented reality device, but after realizing that was a difficult project, pivoted to something a bit easier and even more useful. HeadsUp …read more

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Hackaday Prize Entry: Helping Millions See Clearly

Posted on August 5, 2016 by Gerrit Coetzee

Slit lamps are prohibitively expensive in the third world areas of India where they are most needed. An invention that’s been around for over a hundred years, the slit lamp is a simple-in-concept way to see and diagnose a large array of ocular issues.

Since they are relatively old by technological standards, the principles behind them have become more and more understood as time has gone on. While a nice lab version with a corneal microscope is certainly better, innovations in manufacturing have brought the theoretical minimum cost of the device way down, or at least that’s what [Kewal Chand …read more

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Hackaday Prize Entry: Low Cost, DIY Thermal Imaging

Posted on August 4, 2016 by Brian Benchoff

A few years ago, thermal imaging sensors – cameras that could see heat – became very cheap. FLIR was going all-in with their Lepton module, and there were a number of clip-on cellphone accessories that gave the computer in your pocket the ability to see infrared.

Fast forward a few years, and you can still buy a thermal imaging sensor for your cellphone, and it still costs about the same as it did in 2013. For his Hackaday Prize project, [Josh] is building a more modern lower cost thermal imaging camera. It won’t have the resolution of the fancy $1000 …read more

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Hackaday Prize Entry: Smart USB Hub And IoT Power Meter

Posted on August 3, 2016 by Moritz Walter

[Aleksejs Mirnijs] needed a tool to accurately measure the power consumption of his Raspberry Pi and Arduino projects, which is an important parameter for dimensioning adequate power supplies and battery packs. Since most SBC projects require a USB hub anyway, he designed a smart, WiFi-enabled 4-port USB hub that is also a power meter – his entry for this year’s Hackaday Prize.

[Aleksejs’s] design is based on the FE1.1s 4-port USB 2.0 hub controller, with two additional ports for charging. Each port features an LT6106 current sensor and a power MOSFET to individually switch devices on and off as required. …read more

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Hackaday Prize Entry: A Visible Spectrophotometer

Posted on August 2, 2016 by Brian Benchoff

Spectroscopy is one of the most useful tools in all of science, and for The Hackaday Prize’s Citizen Science effort [esben] is putting spectroscopy in the hands of every high school student. He’s built a super cheap, but very good spectrophotometer.

The idea of a spectrophotometer is simple enough – shine light through a sample, send that light through a diffraction grating, focus it, and shine the light onto a CCD. Implementing this simple system is all about the details, but with the right low-cost lenses and a 3D printed enclosure, [esben] has this more or less put together.

Hackaday Prize Entry: A Linear CCD Breakout

Posted on August 1, 2016 by Brian Benchoff

Linear CCDs are an exceptionally cool component. They can be used for DIY spectrometers, and if you’re feeling very adventurous, a homemade version of those crappy handheld scanners of the early 90s. Linear CCDs don’t see much use around these parts, though, which makes [esben]’s Hackaday Prize entry very cool. He’s building a breakout to make using these linear CCDs easier.

A linear CCD module looks like an overgrown DIP chip with a glass window right on top of a few thousand pixels laid out in a straight line. The data from these pixels isn’t output as a series of …read more

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Hackaday Prize Entry: You Have No Free Will

Posted on July 31, 2016 by Brian Benchoff

The concept of free will is the perfect example of human arrogance ever conceived. If a gas molecule collides with another gas molecule, simple physics can determine the momentum of the first gas molecule, the kinetic energy imparted to the second gas molecule, and the resulting trajectories of both molecule. Chemical reactions are likewise easy to calculate. Scale a system up to something the size of a human brain, and you have a perfectly predictable system. It’s complex, yes, but predetermined since the beginning of time. You are without moral agency, or any independent thought of your own. You are …read more

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Hackaday Prize Entry: Reflectance Transformation Imaging

Posted on July 30, 2016 by Brian Benchoff

Reflectance transformation imaging (RTI), or polynomial texture mapping, is a very interesting imaging technique that allows you to capture all the detail of an object. It’s used to take finely detailed pictures of scrawlings on cave walls in archeology, capture every detail of a coin for coin collectors, and to measure the very slight changes in a work of art.

RTI does this by shining light over an object at very particular angles and then using image processing to produce the best image. Despite being only a few LEDs and a bit of software, RTI systems are outrageously expensive. For …read more

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