Whenever anyone mentions the word “antibodies” these days, it’s sure to grab your attention. Thoughts generally flow to the human immune system and the role it plays in the ongoing COVID-19 pandemic, and to how our bodies fight off disease in general. The immune system is complex in the extreme, but pretty much everyone knows that antibodies are part of it and that they’re vital to the ability of the body to recognize and neutralize invaders like bacteria and viruses.
But as important as antibodies are to long-term immunity and the avoidance of disease, that’s far from all they’re good for. The incredible specificity of antibodies to their target antigens makes them powerful tools for biological research and clinical diagnostics, like rapid COVID-19 testing. The specificity of antibodies has also opened up therapeutic modalities that were once the stuff of science-fiction, where custom-built antibodies act like a guided missile to directly attack not only a specific protein in the body, but sometimes even a specific part of a protein.
Making these therapies work, though, requires special antibodies: monoclonal antibodies. These are very much in the news recently, not only as a possible treatment for COVID-19 but also to treat everything from rheumatoid arthritis to the very worst forms of cancer. But what exactly are monoclonal antibodies, how are they made, and how do they work?
Maritime shipping is big business, with gigantic container ships responsible for moving the vast majority of the world’s goods from point A to points B, C and D. Of course, there’s a significant environmental impact from all this activity, something ill befitting the cleaner, cooler world we hope the future will be. Thus, alternatives to the fossil fuel burning ships of old must be found. To that end, Norwegian company Yara International has developed a zero-emission ship by the name of Yara Birkeland, which aims to show the way forward into a world of electric, autonomous sea transport.
Low Earth orbit was already relatively crowded when only the big players were launching satellites, but as access to space has gotten cheaper, more and more pieces of hardware have started whizzing around overhead. SpaceX alone has launched nearly 1,800 individual satellites as part of its Starlink network since 2019, and could loft as many as 40,000 more in the coming decades. They aren’t alone, either. While their ambitions might not be nearly as grand, companies such as Amazon and Samsung have announced plans to create satellite “mega-constellations” of their own in the near future.
At least on paper, there’s plenty of room for everyone. But what about when things go wrong? Should a satellite fail and become unresponsive, it’s no longer able to maneuver its way out of close calls with other objects in orbit. This is an especially troubling scenario as not everything in orbit around the Earth has the ability to move itself in the first place. Should two of these uncontrollable objects find themselves on a collision course, there’s nothing we can do on the ground but watch and hope for the best. The resulting hypervelocity impact can send shrapnel and debris flying for hundreds or even thousands of kilometers in all three dimensions, creating an extremely hazardous situation for other vehicles.
One way to mitigate the problem is to design satellites in such a way that they will quickly reenter the Earth’s atmosphere and burn up at the end of their mission. Ideally, the deorbit procedure could even activate automatically if the vehicle became unresponsive or suffered some serious malfunction. Naturally, to foster as wide adoption as possible, such a system would have to be cheap, lightweight, simple to integrate into arbitrary spacecraft designs, and as reliable as possible. A tall order, to be sure.
The world faces many terrestrial crises right now, so it’s easy to forget that giant space rocks may one day threaten the very existence of entire civilizations. Yes, the threat of asteroid strikes is a remote one, but nevertheless something humanity may have to face one day, and one day soon.
Imagine visiting a home that was off the grid, using hydroelectric power to run lights, a dishwasher, a vacuum cleaner, and a washing machine. There’s a system for watering the plants and an intercom between rooms. Not really a big deal, right? This is the twenty first century, after all.
But then imagine you’ve exited your time machine to find this house not in the present day, but in the year 1870. Suddenly things become quite a bit more impressive, and it is all thanks to a British electrical hacker named William Armstrong who built a house known as Cragside. Even if you’ve never been to Northumberland, Cragside might look familiar. It’s appeared in several TV shows, but — perhaps most notably — played the part of Lockwood Manor in the movie Jurassic World: Fallen Kingdom.
Armstrong was a lawyer by training but dabbled in science including hydraulics and electricity — a hot topic in the early 1800s. He finally abandoned his law practice to form W. G. Armstrong and Company, known for producing Armstrong guns, which were breech-loading artillery pieces ranging from 2.5 inch bores up to 7 inches. By 1859, he was knighted and became the principal supplier of armaments to both the Army and the Navy.
The Hackaday Remoticon is happening this November 19th and 20th and the whole Internet is invited. This time around we’re packing the weekend with talks about all the hardware, software, special skills, and inspiration that gets poured into the world of electronic stuff.
Send in your talk proposal now! I know, Call for Proposals sounds so official, but it’s really just a matter of giving us a summary of what the talk will cover, and an in-depth description where you make your case on why the talk is relevant to the people who will be watching it.
We go out of our way with all of our Hackaday conferences to get first-time speakers up on stage (or I suppose in front of a webcam in this case). Whether it’s your first time or your fortieth, the substance of the talk is what matters the most — we want to see what you’ve been doing at your workbench and in your lab so please give us a window into that part of your life.
Like many of you, we desperately wanted to get back to an in-person Hackaday Superconference this year. We waited until now to make the call in hopes that maybe a smaller live conference would be possible, but at this point, even if we could pull off the weekend safely, it’s hard to imagine people would have the relaxing good time that Supercon has come to be known for. On the plus side, holding a virtual event like Remoticon means more of the Hackaday community gets to join in on the action. To shake things up for 2021, we’re pivoting away from workshops to make room for more talks and adding some excellent new ways for you to participate that we’ll be sharing more about very soon.
But to pull it off we need a slate of engineers, hackers, and geeks who want to share what they’re passionate about with a captive audience of like-minded individuals. Think you’re up to the challenge? Submit your ideas and let’s build something amazing. Or if you’d rather just kick back and watch, reach out to your favorite hacker and encourage them to speak. The one huge upside of a virtual conference is that it breaks down the time and treasure barriers of travelling to Pasadena to participate, and having this event accessible to a much wider range of people is something we can all get behind.
At their core, package repositories sound like a dream: with a simple command one gains access to countless pieces of software, libraries and more to make using an operating system or developing software a snap. Yet the rather obvious flip side to this is that someone has to maintain all of these packages, and those who make use of the repository have to put their faith in that whatever their package manager fetches from the repository is what they intended to obtain.
In short, who can tell when a package is truly ‘abandoned’, guarantee that a package is free from malware, and how does one begin to provide insurance against a package being pulled and half the internet collapsing along with it?