2015 Hackaday Prize

234 Articles

Hackaday Prize Entry : Subterranean Positioning System

May 7, 2015 by 48 Comments

There are numerous instances where we need to know our location, but cannot do so due to GPS / GSM signals being unavailable and/or unreachable on our Smart Phones. [Blecky] is working on SubPos to solve this problem. It’s a WiFi-based positioning system that can be used where GPS can’t.

SubPos does not need expensive licensing, specialized hardware, laborious area profiling or reliance on data connectivity (connection to database/cellphone coverage). It works independently of, or alongside, GPS/Wi-Fi Positioning Systems (WPS)/Indoor Positioning Systems (IPS) as an additional positioning data source by exploiting hardware commonly available.

As long as SubPos nodes are populated, all a user wishing to determine their location underground or indoors needs to do is use a Wi-Fi receiver.  This can be useful in places such as metro lines, shopping malls, car parks, art galleries or conference centers – essentially anyplace GPS doesn’t penetrate. SubPos defines an accurate method for subterranean positioning in different environments by exploiting all the capabilities of Wi-Fi. SubPos Nodes or existing Wi-Fi access points are used to transmit encoded information in a standard Wi-Fi beacon frame which is then used for position triangulation.

The SubPos Nodes operate much like GPS satellites, except that instead of using precise timing to calculate distance between a transmitter and receiver, SubPos uses coded transmitter information as well as the client’s received signal strength. Watch a demo video after the break.

The 2015 Hackaday Prize is sponsored by:

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We’re Giving Out 125 Teensy-LC Boards This Week

May 7, 2015 by 49 Comments

This week we’re giving away 125 Teensy-LC Boards. You’ve sat on the sidelines long enough. Time to write down your Hackaday Prize idea and get it entered!

It isn’t just the big prize (a trip into space) on the line. Each week we’re giving away things to help your build. Below you can see the 50 projects which won a LightBlue Bean from last week’s giveaway. This week it’s a huge number of Teensy-LC boards going out to those who need them. These little wonders pack a real punch, with a 48 MHz ARM Cortex-M0+ that has 62K of flash, 8k of RAM, plenty of IO and a 12-bit analog module for both input and output! You’ll also be eligible for each of the future weekly giveaways… we’re distributing $50,000 in prizes to hundreds of projects over 17-weeks!

Entering is easy. Write down your idea to help solve a problem faced by a wide range of people. Start fleshing out your build plan. Pictures are a huge help, even if they’re just a hand-drawn sketch on some paper! Your best bet at getting recognized for a giveaway is to post a new project log which mentions how you would add this Teensy board to your creation.

Last Week’s 50 Winners of a LightBlue Bean

50k-in-play-lightblue-bean

Congratulations to these 50 projects who were selected as winners from last week. You will receive a LightBlue Bean which combines Bluetooth LE with an ATmega328 in a nice little package ready for prototyping. Don’t forget to post pictures and information about what you build with these little wonders!

Each project creator will find info on redeeming their prize as a message on Hackaday.io.

The 2015 Hackaday Prize is sponsored by:

Hackaday Prize Entry: Aspirin For Everyone

May 6, 2015 by 62 Comments

When it comes to the history of medicine and drugs, Aspirin, or more properly acetyl-salicylic acid, is one of the more interesting stories. Plants rich in salicalates were used as medicines more than four thousand years ago, and in the fourth century BC, [Hippocrates] noted a powder made from willow bark was an excellent analgesic. It was only in the 1800s that acetylated salicylic acid was first synthesized. In 1897, chemists at Bayer gave this ancient remedy a new name: Aspirin. It’s on the WHO List of Essential Medicines, but somehow millions of people don’t have access to this pill found in every pharmacy.

[M. Bindhammer] is working to make Aspirin for Everyone for his entry to the Hackaday Prize, using a small portable lab designed around chemicals that can be easily obtained.

The most common synthesis of Aspirin is salicylic acid treated with acetic anhydrate. Acetic anhydrate is used for the synthesis of heroin, and of course the availability of this heavily restricted by the DEA. Instead, [M. Bindhammer] will use a different method using salicylic acid and acetic acid. If you’re keeping track, that’s replacing a chemical on a DEA list of precursors with very strong vinegar.

[M. Bindhammer] even has a design for the lab that will produce the Aspirin, and it’s small enough to fit in a very large pocket. Everything that is needed for the production of acetyl-salicylic acid is there, including a reaction vessel with a heating element, a water/oil bath, flask, an Allihn condenser, and a vacuum filtering flask. Even if shipping millions of pills to far-flung reaches of the planet were easy, it’s still an exceptional Hackaday Prize entry.

The 2015 Hackaday Prize is sponsored by:

Hackaday Prize Entry: A Better KVM Switch

May 5, 2015 by 60 Comments

Now it’s not uncommon to have a desktop and a laptop at a battlestation with tablets waiting in the wings. Add in a few Raspis, consoles, and various cheap computers, and it’s pretty easy to have an enormous number of machines and monitors on a desk. Traditionally, a KVM switch would be the solution to this, sharing a keyboard, mouse, and monitor with many different boxes, but this is an ugly solution. [frankstripod] has a device that fixes that with some interesting software and a few USB hacks.

[frankstripod] is in love with a program called Synergy this program combines the keyboard, mouse, and display of several computers over a network so you’ll only ever have to use one keyboard and mouse; it’s as simple as dragging your mouse from one computer to the other. There are a few limitations, though: keyboards don’t work until the OS has loaded (no BIOS access, then), it doesn’t work if the network is down, and setup can be complicated. This project aims to replace the ‘server’ part of a Synergy setup with a small, networkable KVM.

Right now the plan is to use a small embedded board running Linux to read a USB keyboard and switch the output between several computers. A few scripts detect the mouse moving from one screen to another, and a microcontroller switches USB output between each computer. If it sounds weird, you’re right, but it does work: [frank]’s 2014 Hackaday Prize project was a mouse that worked with two computers at once.

The 2015 Hackaday Prize is sponsored by:

Hackaday Prize Entry: A Low Cost, Open Source MRI

May 4, 2015 by 58 Comments

This low cost magnetic resonance imager isn’t [Peter]’s first attempt at medical imaging, and it isn’t his first project for the Hackaday Prize, either. He’s already built a CT scanner using a barium check source and a CCD marketed as a high-energy particle detector. His Hackaday Prize entry last year, an Open Source Science Tricorder with enough sensors to make [Spock] jealous, ended up winning fourth place.

[Peter]’s MRI scanner addresses some of the shortcomings of his Open Source CT scanner. While the CT scanner worked, it was exceptionally slow, taking hours to image a bell pepper. This was mostly due to the sensitivity of his particle detector and how hot a check source he could obtain. Unlike highly radioactive elements, you can just make high strength magnetic fields, making this MRI scanner potentially much more useful than a CT scanner.

There are a few things that make a low-cost MRI machine possible, the first being a way to visualize magnetic fields. For this, [Peter] is using an array of Honeywell HMC5883L 3-axis magnetometers, the smallest sensors he could find with the largest range. These magnetometers are I2C devices, so with a few multiplexers it’s actually a relatively simple build.

Imaging with these magnetometers is not simple, and it’s going to take a lot of work to make a signal from all the noise this magnetic camera will see. The technique [Peter] will use isn’t that much different from another 2014 Hackaday Prize entry, A Proton Precession Magnetometer. When a proton in your body is exposed to a high strength magnetic field, it will orient towards the high strength field. When the large field is turned off, the proton will orient itself towards the next strongest magnetic field, in this case, the Earth. As a proton orients itself to the Earth’s magnetic field, it oscillates very slightly, and this decaying oscillation is what the magnetic camera actually detects.

With some techniques from one of [Peter]’s publication, these oscillations can be turned into images. It won’t have the same resolution as an MRI machine that fills an entire room, but it will work. Imagine, an MRI device that will sit on a desktop, made out of laser-cut plywood. You can’t have a cooler project than that.

The 2015 Hackaday Prize is sponsored by:

Hackaday Prize Entry: A Fixation On Nitrogen

May 3, 2015 by 89 Comments

The reason we can feed six or seven billion people isn’t GMOs. It’s the massive increase in the use of fertilizers over the past hundred years. Most of the nitrogen-based fertilizers are produced using the Bosch-Haber process, a bit of chemical engineering that consumes one percent of all energy worldwide.

For his entry in the Hackaday Prize this year, [Peter Walsh] is improving the Bosch-Haber process, making the production of nitrogen simpler with less equipment.

The Bosch-Haber process runs at temperatures 400°C and pressures of about 200 atmospheres. Right now, this process is run in huge pressure vessels. [Peter]’s idea is to use ultrasonic cavitation to produce the same environment in equipment that can sit safely on a workbench.

[Peter]’s idea is inspired by sonoluminescence, a phenomenon seen when tiny bubbles in water implode producing light. It’s estimated that pressures and temperatures inside these imploding bubbles reach 2000 atmospheres and 5000°C – more than enough for the Bosch-Haber process. By injecting hydrogen and nitrogen into a machine that creates these sonoluminescent bubbles, ammonia will be created and turned into fertilizers to feed the planet.

The 2015 Hackaday Prize is sponsored by:

An Exceptionally Small UV Sensor

May 2, 2015 by 7 Comments

Most of the hacks we see hitting the tip line are exactly that – hacked up hardware projects held together with hot glue and duct tape. [x-labs]’ entry for the 2015 Hackaday Prize, the UV badge, is certainly not one of these projects. It’s a professional one-off, capable of displaying the UV index, temperature, humidity, and pressure in one tiny little enclosure.

The UV badge is designed to be used outdoors. This means any old display ripped from a Nokia phone won’t do; that will wash out in the sun. Instead, [x-labs] is using a very sunlight-readable Sharp Memory LCD. A nice choice, as it’s an exceptionally low-power device.

Inside the 54 x 34 x 7.1 mm 3D printed enclosure is a very thin PCB, and all surface-mount components. The device is powered by a single coin cell battery that should give months of run time.

With a product designed so well, we’re wondering if the UV badge will be in the running for the Best Product category of the Hackaday Prize this year. There aren’t many projects in the running, and the winner gets a enough funding, machinery, and experience to turn their project into a product.

The 2015 Hackaday Prize is sponsored by: