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Hackaday Links: February 3, 2019

February 3, 2019 by 20 Comments

Once technology that was only available to expensive design teams, and high-end engineering work, 3D printers are now readily available to anyone. Designing a physical prototype with a 3D printer is now something anyone can afford. Did I say anyone? Yes, anyone, even the people trying to build perpetual motion machines. Here’s one on Kickstarter powered by physics. It’s repelling magnets turning wheels.

The study and development of Artificial Intelligence began in the late 1950s and early 1960s. There were conferences, there were talks, colloquium, journals, the works. It was the beginning of a golden age. That came to a screeching halt sometime around 1985. Now, we’re in a new golden age of AI. There’s even a conference. It’s being hosted by [Jeff Bezos], as the alternative, public version of the MARS (for Machine Learning, Automation, Robotics, and Space) conference. Read that link. The phrase, ‘the Bilderberg conference of California’ is in there.

A new Project Binky? Can it be true? Yes, it’s episode 22. The center console is in, the dash is in, and the doors look somewhat finished. What’s the deal this time? A bumpin’ stereo. Wiring! Milliput! It’s English blokes in a shed doing fabrication, your favorite genre of video.

Aaaay, wait a minute. Have you heard about KiCon? Yes, there will be a KiCad user conference. It’s in Chicago, April 26th and 27th, and it’s all about KiCad scripts, settings, tools, techniques, and triumphs. There’s a call for talks, although you shouldn’t try to submit a workshop discussing the difference between ‘Kai-Cad’ and ‘Key-Cad’. That workshop has already been rejected.

Have a 25 meter satellite dish lying around in your backyard? Of course you do. Well, you can hunt for satellites with that thing and a USB TV tuner. The SatNOGS team has been working with a (radio) observatory in the Netherlands, and they’re getting radio signals from overhead satellites. Not bad, and there are, actually, a surprising number of unused large radio dishes out there. Luckily, they’re mostly historic sites.

Unlocking God Mode On X86 Processors

February 3, 2019 by 39 Comments

We missed this Blackhat talk back in August, but it’s so good we’re glad to find out about it now. [Christopher Domas] details his obsession with hidden processor instructions, and how he discovered an intentional backdoor in certain x86 processors. These processors have a secondary RISC core, and an undocumented procedure to run code on that core, bypassing the normal user/kernel separation mechanisms.

The result is that these specific processors have an intentional mechanism that allows any unprivileged user to jump directly to root level access. The most fascinating part of the talk is the methodical approach [Domas] took to discover the details of this undocumented feature. Once he had an idea of what he was looking for, he automated the process of checking every possible x86 instruction, looking for the one instruction that allowed running code on that extra core. The whole talk is entertaining and instructional, check it out after the break!

There’s a ton of research poking at the instruction level of complication processors. One of our favorites, also by [Domas], is sandsifter which searches for undocumented instructions.

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Leap Motion’s Project North Star Gets Hardware

February 3, 2019 by 17 Comments

It’s been more than a year since we first heard about Leap Motion’s new, Open Source augmented reality headset. The first time around, we were surprised: the headset featured dual 1600×1440 LCDs, 120 Hz refresh rate, 100 degree FOV, and the entire thing would cost under $100 (in volume), with everything, from firmware to mechanical design released under Open licenses. Needless to say, that’s easier said than done. Now it seems Leap Motion is releasing files for various components and a full-scale release might be coming sooner than we think.

Leap Motion first made a name for themselves with the Leap Motion sensor, a sort of mini-Kinect that only worked with hands and arms. Yes, we’re perfectly aware that sounds dumb, but the results were impressive: everything turned into a touchscreen display, you could draw with your fingers, and control robots with your hands. If you mount one of these sensors to your forehead, and reflect a few phone screens onto your retinas, you have the makings of a stereoscopic AR headset that tracks the movement of your hands. This is an over-simplified description, but conceptually, that’s what Project North Star is.

The files released now include STLs of parts that can be 3D printed on any filament printer, files for the electronics that drive the backlight and receive video from a laptop, and even software for doing actual Augmented Reality stuff in Unity. It’s not a complete project ready for prime time, but it’s a far cry from the simple spec sheet full of promises we saw in the middle of last year.

Blacksmith Elevates The Craft With This Fabulous Strongbox

February 3, 2019 by 35 Comments

For most of human industrial history, the blacksmith was the indispensable artisan. He could fashion almost anything needed, from a simple hand tool to a mechanism as complex as a rifle. Starting with the most basic materials, a hot forge, and a few tools that he invariably made himself, the blacksmith was a marvel of fabrication.

If you have any doubt how refined the blacksmith’s craft can be, feast your eyes on [Seth Gould]’s masterpiece of metalwork. Simply called “Coffer”, [Seth] spent two years crafting the strongbox from iron, steel, and brass. The beautifully filmed video below shows snippets of the making, but we could easily watch a feature-length film detailing every aspect of the build. The box is modeled after the strongboxes built for the rich between the 17th and 19th centuries, which tended to favor complex locking mechanisms that provided a measure of security by obfuscation. At the end of the video below, [Seth] goes through the steps needed to unlock the chest, each of which is filled with satisfying clicks and clunks as the mechanism progresses toward unlocking. The final reveal is stunning, and shows how much can be accomplished with a forge, some files, and a whole lot of talent.

If you’ve never explored the blacksmith’s art before, now’s the time. You can even get started easily at home; [Bil Herd] will show you how.

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A Very Different ‘Hot Or Not’ Application For Your Phone

February 3, 2019 by 27 Comments

Radioactivity stirs up a lot of anxiety, partially because ionizing radiation is undetectable by any of the senses we were born with. Anytime radiation makes the news, there is a surge of people worried about their exposure levels and a lack of quick and accurate answers. Doctors are flooded with calls, detection devices become scarce, and fraudsters swoop in to make a quick buck. Recognizing the need for a better way, researchers are devising methods to measure cumulative exposure experienced by commodity surface mount resistors.

Cumulative exposure is typically tracked by wearing a dosimeter a.k.a. “radiation badge”. It is standard operating procedure for people working with nuclear material to wear them. But in the aftermath of what researchers euphemistically call “a nuclear event” there will be an urgent need to determine exposure for a large number of people who were not wearing dosimeters. Fortunately, many people today do wear personal electronics full of components made with high purity ingredients to tightly controlled tolerances. The resistor is the simplest and most common part, and we can hack a dosimeter with them.

Lab experiments established that SMD resistors will reveal their history of radiation exposure under high heat. Not to the accuracy of established dosimetry techniques, but more than good enough to differentiate people who need immediate medical attention from those who need to be monitored and, hopefully, reassure people in neither of those categories. Today’s technique is a destructive test as it requires removing resistors from the device and heating them well above their maximum temperature, but research is still ongoing in this field of knowledge we hope we’ll never need.

If you prefer to read about SMD resistor hacks with less doomsday, we recently covered their use as a 3D printer’s Z-axis touch sensor. Those who want to stay on the topic can review detection hacks like using a single diode as a Geiger counter and the IoT dosimeter submitted for the 2017 Hackaday Prize. Or we can choose to focus on the bright side of radioactivity with the good things made possible by controlled artificial radioactivity, pioneered by Irène Joliot-Curie.

[via Science News]

Open Source Biological Gear For The Masses

February 3, 2019 by 8 Comments

At the risk of putting too fine a point on it, Hackaday exists because people are out there building and documenting open source gadgets. If the person who built a particular gizmo is willing to show the world how they did it, consider us interested. Since you’re reading this, we’ll assume you are as well. Over the years, this mentality has been spreading out from the relatively niche hacker community into the greater engineering world, and we couldn’t be happier.

Case in point, the Poseidon project created at the California Institute of Technology. Developed by students [Sina Booeshaghi], [Eduardo Beltrame], and [Dylan Bannon], along with researcher [Jase Gehring] and professor [Lior Pachter], Poseidon consists of an open source digital microscope and syringe pump which can be used for microfluidics experiments. The system is not only much cheaper than commercial offerings, but is free from the draconian modification and usage restrictions that such hardware often comes with.

Of course, one could argue that major labs have sufficient funding to purchase this kind of gear without having to take the DIY route. That’s true enough, but what benefit is there to limiting such equipment to only the established institutions? As in any other field, making the tools available to a wider array of individuals (from professionals to hobbyists alike) can only serve to accelerate progress and move the state of the art forward.

The Poseidon microscope consists of a Raspberry Pi, touch screen module, and commercially available digital microscope housed in a 3D printed stage. This device offers a large and clear view of the object under the microscope, and by itself makes an excellent educational tool. But when running the provided Python software, it doubles as a controller for the syringe pumps which make up the other half of the Poseidon system.

Almost entirely 3D printed, the pumps use commonly available components such as NEMA 17 stepper motors, linear bearings, and threaded rods to move the plunger on a syringe held in the integrated clamp. Controlled by an Arduino and CNC shield, these pumps are able to deliver extremely precise amounts of liquid which is critical for operations such as Single-cell RNA sequencing. All told a three pump system can be built for less than $400 USD, compared to the tens of thousands one might pay for commercially available alternatives.

The Poseidon project joins a relatively small, but very exciting, list of DIY biology projects that we’ve seen over the years. From the impressive open source CO2 incubator we saw a few years ago to the quick and dirty device for performing polymerase chain reaction experiments, there’s little doubt about it: biohacking is slowly becoming a reality.

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High-Style Ball Balancing Platform

February 2, 2019 by 14 Comments

If IKEA made ball-balancing PID robots, they’d probably look like this one.

This [Johan Link] build isn’t just about style. A look under the hood reveals not the standard, off-the-shelf microcontroller development board you might expect. Instead, [Johan] designed and built his own board with an ATmega32 to run the three servos that control the platform. The entire apparatus is made from a dozen or so 3D-printed parts that interlock to form the base, the platform, and the housing for the USB webcam that’s perched on an aluminum tube. From that vantage point, the camera’s images are analyzed with OpenCV and the center of the ball is located. A PID loop controls the three servos to center the ball on the platform, or razzle-dazzle it a little by moving the ball in a controlled circle. It’s quite a build, and the video below shows it in action.

We’ve seen a few balancing platforms before, but few with such style. This Stewart platform comes close, and this juggling platform gets extra points for closing the control loop with audio feedback. And for juggling, of course.

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