Hackaday Prize Entry: GoKart Tank

There is probably something in all of us that yearns to drive a tank, just once. Most of us will probably never fulfill it, in fact, unless we work in farming or construction we’re unlikely to even drive a skid-steer vehicle of any type. But that doesn’t mean we can’t have a go at building one ourselves, as [samern] is doing with his Hackaday Prize entry.

The GoKart Tank has a chequered history, as a build that started as an internal combustion go-kart, became a half-track, and eventually the fully tracked electric vehicle we see today. It has a wooden frame, two 1KW electric scooter motors, and tracks made from IntraLox modular plastic industrial conveyor belt parts. This last choice is particularly interesting because even though it isn’t designed for use as a track it is designed for heavy-duty service and could offer a component source for other tracked vehicle projects.

What you see is a working tracked vehicle, but it is not without problems. The electric motors are only powerful enough to move a child, so there are plans to return it to internal combustion power. We can, however, see it working, as you can watch the video of it we’ve put below the break.

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Hackaday Prize Entry: Another Internet Button

It’s long been a staple of future-gazing, the idea that we will reach a moment at which all of life’s comforts can be summoned at the press of a button. Through the magic of technology, that is, without the army of human servants with which wealthy Victorians surrounded themselves to achieve the same aim.

Of course, to reach this button-pressing Nirvana, someone has to make the buttons. There are plenty of contenders for the prize of One Button To Rule Them All, the one we’ll probably have seen the most of is Amazon’s Dash. Today though we’re bringing you another possibility. [Hendra Kusumah]’s A.I.B. (Another IoT Button) is as its name suggests, a button connected to the Internet. More specifically it’s a button that connects to IFTTT and allows you to trigger your action from there.

Hardware wise, it couldn’t be simpler. A button, a Particle Photon, some wires, and a resistor. Then install the code on the board, and away you go. With a small code change, it also works with an ESP8266. That’s it, it couldn’t be simpler. You might ask where the fun in that lies, but you’d be missing the point. It’s the event that you trigger using the button that matters, so why make creating the button a chore?

We’ve shown you many IoT buttons, just a couple of posts are this ESP8266 button and a look at  the second-generation Amazon Dash.

Hackaday Prize Entry: Zappotron Super Sequencer

If you fancy a go at circuit bending, where do you start? Perhaps you find a discarded musical toy at a junk sale and have a poke around, maybe you find the timing circuit and pull it a little to produce a pitch bend. Add a few wires, see what interesting things you can do connecting point A to point B, that kind of thing.

Many of us have spent an entertaining afternoon playing in this way, though it’s probable few of us have achieved much of note. [Russell Kramer] however must have persevered to become a circuit bender par excellence, as his latest project is one of the most accomplished circuit bending projects we’ve seen.

Zappotron Super Sequencer is an analog sequencer. Except that sentence simply doesn’t convey what it really is, it’s an analog sequencer with four sound sources: two tape decks, a 4046 oscillator, and a circuit-bent spelling tutor toy, and its sequencer component is controlled with a Nintendo light gun and a CRT screen.

You might be thinking that you could do all that with relative ease on a modern single board computer, but what makes this project so special is that he’s achieved it using only logic chips and diode logic gates, not a microprocessor in sight save for the one in the spelling toy. The build log goes through all the circuitry in detail, and we have to tell you it’s a work of art that demonstrated his mastery of both analog circuitry and digital logic.

To cap it all off he’s mounted it in a gloriously retro console, complete with retro embossed labeling. This is a high-quality item that we’d suggest you take a while to read about in detail. He’s posted a video demonstration if you’d like to see it in action, we’ve posted it below the break.

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Hackaday Prize Entry: Obsolete Time Lite

There are very few constants in the world of home-made electronics. Things that you might have found on the bench of a mid-1960s engineer working with germanium PNP transistors just as much as you might find on the bench of one in 2017 working on 32-bit microcontrollers. One of these constants is the humble Altoids tin. The ubiquitous mint container is as handy a size for the transistor circuits of previous decades as it is for the highly integrated circuits of today, and has become something of a standard form factor.

One thing you might not expect in an Altoids tin though is a vacuum tube, even one protruding through the lid. [opeRaptor] though has done just that, though, with a very nicely executed design for a NIXIE clock in your favorite mint container. We’re writing this up as a Hackaday Prize entry so at this stage in the competition the boards are still in design for the prototype, but the difficult power supply to make 180 V DC from a single cell is already proven to work, as it the clock circuitry. The final clock will be a very compact device given the size of the tin, and will contain an ESP8266 board for wireless network connectivity.

For a project at this early stage, there is frustratingly little real work to go on aside from some renders, but there is at least a video showing the PSU working driving a NIXIE, which we’ve put below the break.

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The Internet Of Tampons

At the 2016 Hackaday Superconference, Amanda Brief and Jacob McEntire gave a talk on what they’ve been working on for the past few years. It’s My.Flow, the world’s first tampon monitor capable of tracking saturation, and eliminating anxiety, leakage, and infection. It’s better than a traditional tampon, and it’s one of the rare Internet of Things things that actually makes sense.

There’s a long history of technological innovation to deal with menstruation. What began with simply sending women out of the village for a week turned into a ‘sanitary belt’ after a few thousand years. This astonishing technological advance of treating women as people led to the pad, the cup, and eventually, the disposable tampon. Now My.Flow is applying modern electrochemical technology to move the state of the art forward.

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After The Prize: A Libre Space Foundation

The Hackaday Prize is the greatest hardware build-off on the planet, and with that comes some spectacular prizes. For the inaugural Hackaday Prize in 2014, the top prize was $196,418. That’s a handsome sum, and with that, the right hardware, and enough time, anything is possible.

The winners of the first Hackaday Prize was the SatNOGs project. The SatNOGs project itself is very innovative and very clever; it’s a global network of satellite ground stations for amateur cubesats. This, in itself, is a huge deal. If you’re part of a student team, non-profit, or other organization that operates a cubesat, you only have access to that satellite a few minutes every day — whenever it’s in the sky, basically. SatNOGs is a project to put directional, tracking antennas everywhere on Earth, all connected to the Internet. This is a project that gives global ground station coverage to every amateur-built cubesat.

It’s been two years since SatNOGs won the Hackaday Prize, so how are they doing now? I caught up with some of the midwest reps of SatNOGs at this year’s Hamvention, and the project is doing very well. The steerable antenna mount designed by the SatNOGs project is fantastic, some of the Earth stations are seeing a lot of use, and the network is growing.

Two years is a long time, and since then SatNOGs has evolved into the Libre Space Foundation, a not-for-profit foundation with a mission to promote, advance and develop free and open source technologies and knowledge for space.

The premier project for the Libre Space Foundation is the UPSat, the first Open Source satellite ever launched. For the last two years, this is what the Libre Space Foundation has been working on, and soon this satellite will be orbiting the Earth. The satellite itself was recently delivered, and next month it will be launched to the International Space Station aboard a Cygnus spacecraft. After that, it will be deployed to low Earth orbit from Nanoracks’ deployment platform on the station.

This is truly an amazing project. SatNOGs brought a network of ground stations to amateur cubesats orbiting the Earth, and now the Libre Space Foundation will put an Open Source satellite into low Earth orbit. All the documentation is available on Github, and this is the best the open hardware movement has to offer. We’re proud to have SatNOGs and the Libre Space Foundation proving that Open Hardware can change the world, and we can only hope this year’s winner of the Hackaday Prize has such an impact.

Beyond The Prize: Eye Driving Wheelchairs

For this year’s Hackaday Prize, we opened up five challenges for hackers and tinkerers to create the greatest hardware in five categories. We asked citizen scientists to build something to expand the frontiers of knowledge. We asked automation experts to build something more useful than the Internet of chocolate chip cookies. In the Assistive Technologies portion of the prize, we asked our community of engineers to build something that would open the world up to all of us.

While this year’s Assistive Technologies challenge brought out some great projects, there is one project from last year that must be mentioned. The Eyedrivomatic is a project to turn any electric wheelchair into a gaze-controlled robotic wheelchair, opening up the world to a population who has never had this level of accessibility at a price this low.

eyedriveomatic-hardwareThe Eyedrivomatac was the winner of last year’s Hackaday Prize, and given the scope of the project, it’s not hard to see why. The Eyedriveomatic is the solution to the problem of mobility for quadriplegics. It does this surprisingly simply by adding a servo-powered robot onto the joystick of an electric wheelchair, with everything controlled by eye gaze technology. While other systems similar to this exist, it’s the cost of the Eyedrivomatic system that makes it special. The robotic half of the project can be easily manufactured on any 3D printer, all the associated hardware can be bought for just a few dollars, and the software stack is completely open source. The entire system is interchangeable between different models of electric wheelchairs without any modifications, too.

Since winning last year’s Hackaday Prize, Patrick, Steve, and David of the Eyedrivomatic project received the grand prize of $196,883, and are now working towards starting their own production run of their revolutionary device. Right now, there’s a small cottage industry of eye gaze controlled wheelchairs cropping up, and the Eyedrivomatic team is busy building and assembling systems for electric wheelchair users across the globe.

The Eyedrivomatic is the best the Hackaday Prize has to offer. At its heart, it’s an extremely simple device — just a few 3D printed parts, a few servos, an Arduino, and some open source software. The impact the Eyedrivomatic has on its users can’t be understated. It is a liberating technology, one of the greatest projects we’ve seen, and we’ve very proud to have the Eyedrivomatic as a Hackaday Prize champion.

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