Welcome To The Open Hardware (Virtual) Summit

March 12, 2020 by 6 Comments

Readers are no doubt aware of the COVID-19 pandemic and the impact it’s having on many public gatherings. Some events have been curtailed, while others have been cancelled outright. Among the events impacted is the Open Hardware Summit, which was set to kick off this Friday in New York. But all is not lost, as the decision has been made to turn it into a virtual event with with speakers delivering their talks to a live online audience.

Full refunds are available should anyone want them, but ticket holders will still receive their swag bags. The schedule for the one day event is expected to remain pretty close to the one that was already announced, and there will also be a Discord chat and #ohs2020Virtual Twitter hashtag for viewers to discuss the presentations. When it goes live, a link to watch the stream will be added to the front page of the event’s website.

With the usual schedule of hacker events stretching out across the year, it’s likely that this won’t be the only major one impacted by COVID-19. Judging by what we have heard from those event organizers among our friends, the planning required for the outbreak is causing a lot of stress on top of the usual worries inherent to the job. We’d like to ask everyone to extend their understanding to the teams behind any events that are cancelled or postponed during these exceptional times. Stay safe everyone, and enjoy the (virtual) Open Hardware Summit.

Vocal Effects On The Arduino Uno

March 12, 2020 by 14 Comments

When one thinks of audio processing, the mind doesn’t usually leap to an 8-bit micro. Despite this, if you’re looking for some glitchy fun, it’s more than possible, as [Amanda Ghassaei] demonstrates with the Arduino Uno in this 2012 throwback project.

The build is designed for vocal effects, based on the idea of granular synthesis. This is where audio samples are chopped up into small chunks, called “grains”, and manipulated in various ways to make fun sounds. Controls on the box allow the nature of the sound created to be modified by the user.

[Amanda]’s project serves as a great example of what it takes to run audio processing on the Arduino Uno. There’s a guide to using the on-board ADC as a microphone input, as well as the construction of a resistor ladder DAC for output. As a neccessity, this also requires discussion of how to write directly to the ATMEGA’s IO ports, rather than using the slower digitalWrite() function typically used in Arduino projects. There’s plenty of value here for anyone learning to do audio on a microcontroller platform.

Overall, it’s a fun project that serves as a good primer for those keen to dive into digital sound processing. Of course, those looking to kick things up a gear would do well to check out the Teensy Audio Library, too. Video after the break.

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The Hacker Hotel 2020 Badge

March 12, 2020 by 1 Comment

The art of the electronic conference badge has evolved over the last decade or more, such that for an individual example to be of note it now has to include some exceptional features. Perhaps a function that might previously have been considered impossible in a badge, or maybe an unusually beautiful design, an entertaining and compelling functionality, or it simply pushes the capabilities of an otherwise limited device in an unusually ingenious way. The badge from the recent Hacker Hotel 2020 comes from the same badge team that created the software platform derived from the SHA 2017 badge, and it ticks many of these boxes by combining a genuine work of art with a set of delightfully intricate puzzles at enough levels to interest all participants in the event.

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Augmented Reality Aids In The Fight Against COVID-19

March 12, 2020 by 3 Comments

“Know your enemy” is the essence of one of the most famous quotes from [Sun Tzu]’s Art of War, and it’s as true now as it was 2,500 years ago. It also applies far beyond the martial arts, and as the world squares off for battle against COVID-19, it’s especially important to know the enemy: the novel coronavirus now dubbed SARS-CoV-2. And now, augmented reality technology is giving a boost to search for fatal flaws in the virus that can be exploited to defeat it.

The video below is a fascinating mix of 3D models of viral structures, like the external spike glycoproteins that give coronaviruses their characteristic crown appearance, layered onto live video of [Tom Goddard], a programmer/analysts at the University of California San Francisco. The tool he’s using is called ChimeraX, a molecular visualization program developed by him and his colleagues. He actually refers to this setup as “mixed reality” rather than “augmented reality”, to stress the fact that AR tends to be an experience that only the user can fully appreciate, whereas this system allows him to act as a guide on a virtual tour of the smallest of structures.

Using a depth-sensing camera and a VR headset, [Tom] is able to manipulate 3D models of the SARS virus — we don’t yet have full 3D structure data for the novel coronavirus proteins — to show us exactly how SARS binds to its receptor, angiotensin-converting enzyme-2 (ACE-2), a protein expressed on the cell surfaces of many different tissue types. It’s fascinating to see how the biding domain of the spike reaches out to latch onto ACE-2 to begin the process of invading a cell; it’s also heartening to watch [Tom]’s simulation of how the immune system responds to and blocks that binding.

It looks like ChimeraX and similar AR systems are going to prove to be powerful tools in the fight against not just COVID-19, but in all kinds of infectious diseases. Hats off to [Tom] and his team for making them available to researchers free of charge.

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Interplanetary Whack-A-Mole: NASA’s High-Stakes Rescue Plan For InSight Lander’s Science Mission

March 12, 2020 by 55 Comments

People rightly marvel at modern surgical techniques that let surgeons leverage the power of robotics to repair the smallest structures in the human body through wounds that can be closed with a couple of stitches. Such techniques can even be applied remotely, linking surgeon and robot through a telesurgery link. It can be risky, but it’s often a patient’s only option.

NASA has arrived at a similar inflection point, except that their patient is the Mars InSight lander, and the surgical suite is currently about 58 million kilometers away. The lander’s self-digging “mole” probe needs a little help getting started, so they’re planning a high-stakes rescue attempt that would make the most seasoned telesurgeon blanch: they want to use the lander’s robotic arm to press down on the mole to help it get back on track.

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Ultimate Medical Hackathon: How Fast Can We Design And Deploy An Open Source Ventilator?

March 12, 2020 by 898 Comments

[Gui Cavalcanti], whose name you might recognize from MegaBots, got on a call with a medical professional in San Francisco and talked about respirators. The question being, can we design and deploy an open source version in time to help people?

Unnerving reports from Italy show that when the virus hits the susceptible population groups the device that becomes the decider between life and death is a ventilator. Unfortunately they are in short supply.

The problem gets tricky when it comes to what kind of respirator is needed CPAP, BIPAP, or Hi-Flo oxygen NIV are all out. These systems aerosolize the virus making it almost guaranteed that anyone around them will get infected.

What we need is a Nasal cannula-based NIV. This system humidifies air, mixes it with oxygen and then pushes a constant stream of it into people’s lungs.  If we can design a simple and working system we can give those plans to factories around the globe and get these things made. If the factories fail us, let’s also have a version people can make at home.

If you aren’t sure if a ventilator is something you can work on there are other problems. Can you make algorithms to determine if a person needs a ventilator. Can we recycle n95 masks? Can we make n95 masks at home? Workers also require a negative pressure tent for housing patients. This will be especially useful if we need to build treatment facilities in gyms or office spaces. Lastly if you’re a medical professional, can you train people how to help?

Let’s beat this thing. The ultimate medical hackathon begins.

An RF Engineer’s FPGA Learning Journey

March 12, 2020 by 3 Comments

[KF5N] admits he’s not a digital design engineer; he’s more into the analog RF side of things. But he’s recently taken on a project to communicate between a Ubuntu box and an Intel MAX10 FPGA. He did a presentation at a recent ham radio convention about what he’d learned and how you could get started.

The video talks a lot about the Intel (used to be Altera). However, the nearly 40 minute video after the break isn’t a step-by-step tutorial so even if you are interested in other devices, you’ll probably enjoy watching it. If you’ve programmed even one FPGA, this video likely won’t hold your interest — you aren’t the target audience. However, at about 00:31 he does recommend some books and some very inexpensive FPGA boards, so it’s not a total wash.

[KF5N] talks about what an FPGA is and how it’s different from a microcontroller. He also recommends Cornell’s [Bruce Land’s] course materials. He wasn’t a big fan of the online courses he tried. Of course, since he’s using an Intel chip, he also recommended the Intel courses. A lot of the video covers how to save on getting a development board. The Cornell class calls for a $250 board that is pretty powerful. That’s also pretty expensive, so he recommends a lighter version for about $85.

He also talks about the toolchain and his project to interface to his Linux box. He wound up with an SPI interface that ran up to 30 MHz. He also talks about using Julia to build a driver to talk to the interface on the PC side.

We didn’t notice him mentioning our own FPGA bootcamp, although he did mention projects on Hackaday.io. If you want to see a similar video but with open source tools, [David Williams] did a talk at Superconference that gives the same kind of overview but with Yosys and other related tools.

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