AI chatbots are everywhere these days, and they seem to “know” about everything. But while that is a strength, it can sometimes be a weakness because it isn’t laser-focused on one topic. Not so with this Ham-radio-centric chatbot called HamGPT. The service is clearly built on another GPT engine but understands how to retrieve data from common ham radio sources, such as the FCC database, propagation reports, and the like. It didn’t, however, seem to have access to ham radio-related books, magazine articles, or other “static” data that we could tell.
You do have to sign up for an account, which includes providing your callsign and location. There is a free tier that allows a limited number of queries per day, so you can try it to see if it is useful for you without subscribing.
[Dr. Gough] bought a generic USB 3.0 hub on an Asian website. Surely, USB 3 is mature enough that even the cheapest hub will have some IC in it that will work well, right? You’d think so, but a little exploratory surgery showed that the only thing about this hub that was USB 3 were the blue port connectors.
We have a few problem USB hubs ourselves, so it might be worth doing this to any you have lying around. The first clue: most of the connectors on the PCB only have four pins. On closer examination, the hub appears to be a USB 3.0 extension cable with a USB 2.0 hub made from two HS8836A chips.
Not only are these USB 2-only, but all the ports on an HS8836A also share the same USB 1.1 bandwidth. Some hubs can provide multiple ports full 1.1 bandwidth, using the higher-speed USB protocol to the PC as a backhaul.
You may or may not remember in some ancient chemistry class studying or even performing chromatography. The short definition is using media like paper or powder to separate a mixture. It is an old technique, but [Suchir2004] is using it as an art form.
Chromatography works because the parts of the liquid mixture travel through the media at different speeds. While experimenting, [Suchir2004] noted that black ink and water perfused into constituent pigments. A butterfly ensued.
Is it art? Yes! Is it science? Well, sort of. Especially since the post does talk about how the effect works and even does some simple tests to start. This would be an excellent project for a class where some students are more motivated by art and others by science. Even with an individual kid, it might show you where their interests lie.
There’s nothing particularly difficult. A sketch pen, some paper, a coffee filter, a glue stick, and a few other household items are all you really need to get started.
Having Linux on so many devices is both a blessing and a curse. Sure, it is great that you can hack on things and modify them or even totally repurpose them. But it also means you have a fleet of Linux devices you have to manage and keep track of.
My current “main” 3D printer is a Flashforge AD5X: a nice, cheap machine that does four colors with the purge/exchange method. It sort of runs Klipper. I say sort of because Flashforge has Klipper running on a Linux host in the box, but it is massively crippled and modified. I’m sure it works for most folks. I’m also sure that if you know nothing about Linux, Klipper, or 3D printing, the experience is probably better thanks to all the cloud point-and-click interfaces. But, of course, I check none of those boxes.
I’ve had the printer for probably a year or more. Almost immediately, I put a “mod” on the printer to give it a more true Klipper interface and gave me things like shell access. There are several that I think will do this, but I used Zmod, which doesn’t totally replace the printer’s firmware; it just sort of patches it and extends it. You can easily bypass or even remove it and go back to the stock printer, although I would not want to.
In my case, the issue was a printer, but the same idea might apply to any embedded Linux system, from a router to a thermostat. Sure, it runs Linux, but is it Linux you can change?
The Problem
The AD5X runs Linux… sort of.
The Flashforge firmware and Zmod both will run on the AD5X’s little sister, the AD5M. However, the AD5M has a significantly less capable processor board than the AD5X. That means that Linux on the boxes is very stripped down. From Flashforge’s point of view, no one should be in the Linux OS anyway, and the author of Zmod probably figures every byte used is a byte taken away from the user or other advanced Zmod features.
It may seem like a first-world problem, but there were two things that irked me about the printer’s Linux. There was no less or more command for poking around files. There was also only vi as an editor. I did a few hacks to make myself happy. I wrote a pager in shell script, for example. I would try to remember to use my desktop emacs and tramp to edit files on the box. But it was a shame that there were some very basic tools lacking. Besides that, even the tools that were there like ls lacked help commands in case you want some strange option you can’t remember.
No Install
To save space, the printer doesn’t really have programs like ls, cat, and grep. Instead, it has a single busybox executable. This is common on small systems. You get one copy of the libraries and a single executable that will do all the work you need. You can invoke, for example, grep by running “busybox grep” or, if you make a symlink to busybox named grep, the user may never realize that you don’t really have grep installed.
However, busybox has to be built. You can’t easily install packages to it. So I couldn’t just run some package manager and install less or anything else. My plan was to produce a new busybox package myself to supply at least the missing commands and maybe some of the more basic ones, too. How hard could it be?
If any astute Hackaday reader saw [dongvua90]’s Newton’s cradle go on without human intervention all day long, they’d probably suspect the truth: there’s a battery and a magnet involved. But it is a nice desk piece, and you might be able to fool your less enlightened friends that you’ve discovered perpetual motion. Watch the resulting faux perpetual motion machine in action in the video below.
The trick is to sense the ball’s travel and inject a little electromagnetic pulse at just the right time. No problem for an ESP32 and a proximity sensor like the ones you find on some 3D printers. In fact, there’s very little custom circuitry. Everything is a module, and even the Newton’s cradle is cut out of a premade toy. A printed case and some software are really the heart of the design.
We can imagine this might be an interesting science demonstrator. Show the class the cradle with the electronics turned off, then subtly turn it on and ask the class what changed. You could even make the point by having students do it normally, while only you can get it to keep going forever, and challenge them to deduce what’s going on.
[Irving John Good] was at Trinity College, Oxford back in 1964. His paper, “Speculations Concerning the First Ultraintelligent Machine” could have been a topic for today, as we deal with machines that aren’t really ultraintelligent, but appear smart and think they are even smarter. He starts off with a bold thesis: “The survival of man depends on the early construction of an ultraintelligent machine.”
He also admits that we’ll need to understand more about the human brain and human thought to make a breakthrough. This is still true today. However, we still don’t fully understand how our brains work, but it seems unlikely that we are just super-large LLMs. Not that [Good] anticipated the modern chatbot. Perhaps his comments will apply more to a future AI software that actually thinks like a human, if there will ever be such a thing.
Then again, there are many parallels. One theme in the paper is that a smart machine will design a smarter machine. Unless, of course, it is afraid of being replaced. If a machine were actually sentient, what are the ethics of turning it off and tearing it apart?
You’ve doubtlessly seen the current crop of robot dogs and, if you are like us, thought about getting one to play with. The problem is that the cheap ones are toys, and the serious ones cost serious money. But now you can experiment with a mid-range cost one for free in your browser. The sponsor will be happy to sell you a robot in kit or assembled form, although it is the OpenCat robot (we’ve covered it before), so you could simply build a real one yourself if you wanted to.
The code is all in a Web-based IDE, and the main file is deceptively simple. However, the real work is in read_serial (in the src/moduleManager.h file, for some reason) and reaction in the aptly-named src/reaction.h file. If you just want to play, you can use the buttons in the simulator or enter serial commands (documented elsewhere). For example, ksit will make the dog sit down.