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3D Printed Microscope Stage Offers Precise Movement

January 26, 2019 by 8 Comments

3D printing isn’t something you would usually associate with a high precision device, but this one shows that it can be used to create rather intricate things when needed. The Openflexure is a microscope stage that offers a mechanical stage that can be maneuvered precisely. The optics can be swapped out so it uses anything from a webcam to a very high-powered 100x magnification lens, but still move the stage smoothly and precisely. It can be driven by turning a knob or by three small motors. The plan is that the motors will eventually be driven by the software that is being written for the device.

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Amateur Astronomers Spot Meteorite Impact During Lunar Eclipse

January 23, 2019 by 39 Comments

According to ancient astronaut theorists, the lunar eclipse this weekend had an unexpected visitor. Right around the time of totality, a meteoroid crashed into the moon, and it was visible from Earth.

Meteoroids crash into the Earth and Moon all the time, although this usually happens either over the ocean (70% of the Earth) where we can’t see it, on the far side of the moon (~50% of the Moon) where we can’t see it, or on the sunlit side of the Moon (another, different 50%), where we can’t see it. These meteoroids range from the size of a grain of sand to several meters across, but only the largest could ever be seen by the human eye. This weekend’s lunar eclipse, the Super Blood Wolf Moon was visible to a large portion of the population, and many, many cameras were trained on the Moon. Several telescopes livestreamed the entire eclipse, and multiple people caught a glimpse of a small flash of light, seeming to come from around Lagrange crater. Because this event was seen by multiple observers separated by thousands of miles, the only conclusion is that something hit the moon, and its impact event was recorded on video.

This is not the first time an impact event has been recorded on the moon. The Moon Impacts Detection and Analysis System (MIDAS) running out of La Hita Observatory has regularly recorded impact events, including one that was comparable to an an explosion of 15 tons of TNT. These automated observatories aren’t running during a full moon, like during a lunar eclipse, because no camera would be able to pick up the flash of light. We were somewhat lucky last weekend’s impact happened during totality, and with dozens of cameras trained on the Moon.

Further investigation will be necessary to determine the size of the meteoroid and obtain pictures of its impact crater, but for a basis of comparison, the LCROSS mission plowed a Centaur upper stage (2.2 tons) into the lunar surface at 2.5 km/s. This should have resulted in a flash visible through binoculars, but it didn’t. The meteoroid that struck the moon last weekend would have been traveling faster (a minimum of about 12 km/s), but the best guess is that this rock might have been of suitable size to have fit in the back of a pickup truck, or thereabouts.

The Vectrex Projector We’ve Been Waiting For

January 23, 2019 by 12 Comments

Unlike most old consoles, the Vectrex is unique for having a vector-based display. This gives it a very different look to most of its contemporaries, and necessitated a built-in display, as regular televisions aren’t built to take vector signals. Not one to be limited to the stock screen size, [Arcade Jason] decided the Vectrex needed a projection upgrade, and built exactly that.

The build relies on a lens that [Jason] salvaged from an old rear-projection TV. These units used CRTs with big lenses which projected the image onto a screen. That’s precisely what is happening here, with a vector display replacing the CRT used in the original TV. The vector display itself used here is a tube from a small black and white TV set, which [Jason] modified to use a Vectrex yoke, making it capable of vector operation.

Through some modification and careful assembly, [Jason] was rewarded with a wall-sized display for his Vectrex console. This is demonstrated with some beautiful glowing vector demos, accompanied with appropriate bleep-bloop music, as was the style at the time. The Cantina band is a particular highlight.

We’ve seen [Jason]’s vector hacks before, too – like this Asteroids machine modified to display in color. Video after the break.

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Human Augmentation For Weight Loss

January 21, 2019 by 17 Comments

If you read almost any article about powered human implants, you will encounter the same roadblock, “it could be so much better with more powerful batteries.” Our fleshy power systems are different from electrical systems, but we are full of moving parts, so [Xudong Wang] and fellow researchers have harnessed that power (Sci Hub Alt) and turned it right back into something else our body understands.

The goal of this project is to control obesity by tricking the vagus nerve into thinking we are full as we digest our current meal. The treatment has already been proven with battery-powered implants, but this version uses the oscillations of the stomach for power and sends the generated power right where it is needed. A control group of rats showed no change over 100 days, but those with this implant shed more than a third of their body weight. This may need some tuning but its effectiveness seems to be heading the right way, and it is surgically reversible.

The device is a triboelectric generator coated in polyimide and Ecoflex™ with gold electrodes that wrap around the vagus nerve at the gastro-esophageal junction. The generator presses against the stomach from outside and the rhythm of the muscles generates the signal that the stomach is full so it becomes a loop of digesting ⇄ sated.

Another handful, of implants don’t need power from inside the body and use RFID technology.
Via IEEE Spectrum.

The Greatest Computer Ever Now Gets A New, Injection Molded Clear Case

January 21, 2019 by 55 Comments

The Macintosh SE/30 is the greatest computer ever made. It was a powerhouse when it was launched almost exactly thirty years ago today. You could stuff 128 Megabytes of RAM into it, an absolutely ludicrous amount of RAM for 1989. You could put Ethernet in it. You could turn the 1-bit black or white internal display into an 8-bit grayscale display. I think there was a Lisp card for it. These were just the contemporaneous hacks for the SE/30. Now, people are actively developing for this machine and putting Spotify on it. There’s a toolbar extension for Macs of this era that will let you connect to a WiFi network. You’ll be hard pressed to find a computer that still has a fanbase this big thirty years after release.

Now, there’s a project to create new injection molded cases for the Mac SE/30 (and the plain ‘ol SE). These cases will be clear, just like Apple prototypes of the era. It’s also one of the most difficult injection molding projects retrocomputer enthusiasts have ever taken up.

Over the years, we’ve seen some interesting projects in the way of creating new plastic cases for old computers. The most famous is perhaps the remanufacturing of Commodore 64C cases. Instead of a purely community-driven project, this was an accident of history. The story goes that one guy, [Dallas Moore], went to an auction at an injection molding factory. The owner mentioned something about an old computer, and wheels started turning in someone’s head. A Kickstarter later, and everyone who wanted a new C64 case got one. You could get one in translucent plastic to go with the retro aesthetic.

New cases for the Amiga A1200 have also been made thanks to one fan’s Solidworks skills and a Kickstarter campaign. There is, apparently, a market for remanufactured cases for retrocomputers, and it’s just barely large enough to support making new injection molding tooling.

So, about that SE/30. The folks on the 68k Macintosh Liberation Army forums are discussing the possibility of making a new case for the greatest computer Apple will ever make. The hero of this story is [maceffects] who has already modeled the back ‘bucket’ of the SE/30 and printed one out on a filament printer (check out the videos below). This was then printed in clear SLA, and the next step is crowdfunding.

While this isn’t a complete case — a front bezel would be needed to complete the case — it is an amazing example of what the retrocomputing community can do. The total cost to bring this project to fruition would be about $15,000 USD, which is well within what a crowdfunding campaign could take in. Secondary runs could include a translucent Bondi Blue polycarbonate enclosure, but that’s pure speculation from someone who knows what would be the coolest project ever.

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Sly Guy Nabs Pi Spy

January 20, 2019 by 38 Comments

When one of [Christian Haschek’s] co-workers found this Raspberry Pi tucked into their network closet, he figured it was another employee’s experiment – you know how that goes. But, of course, they did the safe thing and unplugged it from the network right away. The ensuing investigation into what it was doing there is a tour de force in digital forensics and a profile of a bungling adversary.

A quick check of everyone with access to that area turned up nothing, so [Christian] shifted focus to the device itself. There were three components: a Raspberry Pi model B, a 16GB SD card, and an odd USB dongle that turned out to be an nRF52832-MDK. The powerful SoC on-board combines a Cortex M4 processor with the RF hardware for BLE, ANT, and other 2.4 GHz communications. In this case, it may have been used for sniffing WiFi or bluetooth packets.

The next step was investigating an image of the SD card, which turned out to be a resin install (now called balena). This is an IoT web service that allows you to collect data from your devices remotely via a secure VPN. Digging deeper, [Christian] found a JSON config file containing a resin username. A little googling provided the address of a nearby person with the same name – but this could just be coincidence. More investigation revealed a copyright notice on some mysterious proprietary software installed on the Pi. The copyright holder? A company part-owned by the same person. Finally, [Christian] looked into a file called resin-wifi-01 and found the SSID that was used to set up the device. Searching this SSID on wigle.net turned up – you guessed it – the same home address found from the username.

But, how did this device get there in the first place? Checking DNS and Radius logs, [Christian] found evidence that an ex-employee with a key may have been in the building when the Pi was first seen on the network. With this evidence in hand, [Christian] turned the issue over to legal, who will now have plenty of ammunition to pursue the case.

If you find the opportunity to do some Linux forensics yourself, or are simply interested in learning more about it, this intro by [Bryan Cockfield] will get you started.

Building And Controlling 19 LEDs & Five Buttons From Five Outputs

January 20, 2019 by 3 Comments

Numbers are hard enough in English, but [Sadale] decided to take things a step further by building a calculator that works in Toki Pona. The result is Ilo Nanpa, an awesome hardware calculator that works in this synthetic minimal language. This is a bit harder than you might think, because Toki Pona doesn’t have digits in the same way that Neo-Latin languages like English do. Instead, you combine smaller numbers to make bigger ones. One is Wan, Two is Tu, but three is Wan Tu (1+2). As you might expect, this makes dealing and representing larger numbers somewhat complicated.

Ilo Nanpa gets around this in a wonderfully elegant way, and with some impressive behind the scenes work. The calculator has 16 LEDs, nine buttons and a slider switch, but they are all controlled and read through just five IO pins on the STM8S001J3 controller that runs the device.

That’s because {Sadale] did some remarkable work with multiplexing and charlieplexing. Multiplexing is controlling more outputs than there are control inputs by using rows and columns: it is how the LED display you are probably reading this on can be controlled by just a few wires. By switching through these rows and columns at a higher speed than the eye can see, you create the illusion of a single, continuous display.

Charlieplexing takes this a step further by using multiple voltages on a single connection to further split the signal. With the clever use of voltage dividers the directional properties of LEDs and multiple voltage levels, the Ilo Nanpa runs all of the LEDs and senses all of the buttons and the slider from just five pins. That’s a remarkably neat piece of design, and it is worth spending some time looking over the excellent explanation of the process that [Sadale] wrote to see how it is done, and poring over the code for the device to see how he programmed this all into a single low powered chip. And, while you are reading, you might pick up a few words of Toki Pona. Tawa Pona!

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