Oculus Rift And Wii Balance Board Make Hoverboards A (Virtual) Reality

May 22, 2014 by 12 Comments

It’s almost 2015 and still don’t have the futuristic technology promised to us by Back to the Future Part II. Where are the flying cars, Mr. Fusions, or 19 Jaws movies? Most importantly, where are our hoverboards?

[cratesmith] got tired of waiting around and decided to take matters into his own hands. He combined the Oculus Rift virtual reality headset with the Wii Fit Balance Board to create a virtual hoverboard experience. He used the Unity3D engine (a favorite among Rift developers) to program the game engine. It’s a very rough demo right now, but the game comes complete with a simulated town to float around in and of course includes a model DeLorean.

Before you try to play this demo, you should know that it’s not without its faults. The primary problem [cratesmith] has experienced is with simulation sickness. His virtual reality system has no way to track body motion, which means that leaning back and forth on the Wii Fit board does not get translated to the equivalent virtual movement. The game must assume that the player stands straight up at all times, which is not an intuitive way to control something similar to a skateboard. The result is an off-putting experience that can break immersion and lead to a feeling of nausea.

A possible solution to this problem would be to use a camera style motion detector like the Microsoft Kinect. In fact, another Reddit user has recently posted a teaser video of another hoverboard simulator that uses the Oculus Rift, Wii Fit Board, and Kinect. Not much information is available about this second project, but we look forward to seeing updates in the future.

[createsmith] has not published the code for his demo because it’s still in the very early stages, but he has stated that he’s been giving it out to anyone who goes out of their way to ask. The hoverboard is probably the most coveted fictional technology from the 1989 adventure film. We know this because we’ve seen multiple projects over the years that were inspired by the movie.  We’re excited to see it come to fruition in any form.

[via Reddit]

electronic drums from 5 gallon buckets

5-Gallon 5-Piece Electronic Drum Set

May 22, 2014 by 6 Comments

Who hasn’t wanted to rock out on some drums in the middle of the night? If you have anything that resembles neighbors then a midnight jam session is out of the question. That is unless a set of electronic drums is available… but alas, those are expensive. If you don’t have the spare cash burning a hole in your pocket, then be like [Mike] and build a complete 5 piece e-drum set.

[Mike] started off with 5 gallon buckets that would become the drum shells. On a real drum set, all of the drums are different sizes in order to produce different notes. Drum size doesn’t matter with an electronic drum as a drum module creates the note and sound. Even so, to make this set a little more realistic, each drum was sectioned and pulled back together to change the diameter. A homemade circle cutting jig and a wood router were used to cut top and bottom rim hoops out of 3/4″ plywood. The inner diameter of these hoops were made just a hair larger than the outer diameter of the 5 gallon bucket shells. The bottom of the top hoop was then routed to produce a groove which would allow a standard mesh drum head to fit inside.

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Electric Go-Kart Made From Off The Shelf Components

May 22, 2014 by 56 Comments

Eletctric go kart
What would you do with a catalog of parts and a nice budget? [Ben Rothschild] decided to build an electric go-kart from scratch, for a contest he’s trying to win.

He designed the entire go-kart in 3D CAD using off the shelf components to speed up assembly. The frame is made of aluminum extrusion with t-bolt brackets, and he’s using modified FIRST Robotics wheels with standard #25 chain and sprockets.

Two 1850W Turnigy SK3 brushless motors make up the drive system, equivalent to almost a 5HP engine — except with a constant torque profile, meaning it’ll have no problem going up hills at 3km/h or 30km/h, no gearing necessary! To power the beast he’s using four hard-shell LiPo batteries (4S1P), which are rated for 14.8V and 5Ah. Two el cheap-o 24V 500W speed controllers (slightly concerning) provide the control system, which he may plan to upgrade in the near future.

The test drive video is a bit short, but it looks like with a bit more work this go-kart could have a lot of potential!

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Popmaskinen — An Electromechanical One Man Band

May 21, 2014 by 8 Comments

one man band

The Stockholm Mini Maker Faire 2014 has just finished up, and [Johnny Eriksson] was awarded the Maker of the Year award for his very impressive electromechanical one man band.

As a musician/electrician/furniture carpenter, [Johnny] has quite a few skills — and he wanted to try putting them altogether for a project. He calls it the Popmaskinen (the pop machine).

Using MIDI keyboards, buttons, and knobs, the Popmaskinen translates digital outputs to physical instruments controlled by various electromechanical components. One of our favorite parts is the guitars, which use solenoids to strum, and even more solenoids to squeeze various cords on the pair of guitars.

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Hackaday logo carved in MDF

Live Look At Taktia Augmented Power Tool And Carbide 3D Mill

May 21, 2014 by 16 Comments

There were so many things to see at Maker Faire that the booths spilled out of the buildings and into various tents on the grounds. One of the most interesting tents was packed with tables showing off CNC machines and that’s where we ran into two that are familiar, and still amazing.

First up is the handheld CNC router which we saw all the way back in 2012. It’s a spectacular piece of tech that adds a base to a handheld router. The base gives the tool a touchscreen system, the ability to precisely track it’s location, and adjustment motors to move the cutting bit in order to correct for imperfections in operator movements. It’s really amazing and we are happy to see they have formed a company called Taktia around the concept and are heading for crowd funding soon.

The second half of the video shows off the Nomad CNC mill which we covered at the end of April. Carbide 3D had a hugely successful (more than 10x the goal) Kickstarter that they tried to blame on the support of Hackaday readers. It’s a no-brainer that this machine is the one to watch, as even our hacked camera work doesn’t lose the fact that it can produce rock-solid results.

Isoscel-Ease Drawing Robot Is Mesmerizing

May 21, 2014 by 7 Comments

Isoscel Ease Drawing Robot

Drawing is difficult for a lot of people… So, why not build a robot to do it for you? [Darcy] had an idea for a rather unique drawing robot — he calls it the Isoscel-Ease.

Instead of using a boring XY gantry, a deltabot, or using a scissor linkage (actually that one is pretty cool!), [Darcy] decided to try harnessing of the power of triangle geometry! As you can probably guess, the linkage forms an isosceles triangle, hence the name. A pair of stepper motors increases and decreases the odd side of the triangle, allowing for a full range of continuous inky movement (there’s no pen actuator) over the page.

It’s a very cool little drawing robot, and it was completely designed in SketchUp — He has lots of photos of the build process and example drawings on his site — But don’t forget to stick around after the break to see a video of it in action!

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iFind Tag

Ask Hackaday: Can Battery-Free Bluetooth Item Locating Tags Exist?

May 21, 2014 by 220 Comments

[Vishak] tipped us about the iFind Kickstarter campaign, a 1.25×1.06×0.09″ (32x27x2.4mm) tag meant to be attached to anything you may lose in your daily life. This device communicates with Bluetooth Low Energy (BLE) enabled smartphones, has a 200ft (60m) detection range and a loud alarm. What is interesting to mention is that this device doesn’t need any battery to operate as it

recycles electromagnetic energy and stores it in a unique power bank.

As you can guess, this particular claim intrigued the Hackaday team given that we never featured so small energy harvesting devices. The ‘closest’ thing that comes to our minds is the Allsee project, a simple gesture recognition device that uses existing wireless signals (TV and RFID transmissions) to extract any movement that occur in front of it. However the antenna was quite big and very little power was extracted.

A quick Google search let us know that Bluetooth Low Energy solutions usually consume an idle current of around 10uA @ ~3V. The (very) successful Sticknfind campaign which promoted the same battery-enabled product claimed a one year autonomy with a CR2016 battery and a 100ft range, leading to a ~90mAh/24/30.5/12 = 10.2uA idle current. As we’re not expert on the subject, we would like to ask our readers if they ever came across such energy harvesting performances (3V*10.2uA = 30uW) in a normal home environment. Our very bad maths indicate that if one would like to extract power from a typical Wifi router located 2 meters from you emitting 0.5Watts of power (in a perfect vacuum environment) with a 32*27mm = 864mm = 0.000864m² tag you’d only be able to get 0.5 * (0.000864/(4*pi*2*2)) = 8.6uW.

It is therefore too bad that we can’t see in the presentation video what is inside the iFind, nor more details about the patent pending technologies involved. We hope that our dear readers will enlighten us in the comments section below.