Self hosting helps make the internet more decentralized, but at the end of the day someone else owns that series of tubes.
This is probably a pipe dream, but I think it would be cool if we self hosted not just servers but networking infrastructure as well.
I have an extra class amateur radio license and one of the many niches within the ham radio hobby I’m interested in is packet radio and wireless mesh networking.
Packet radio could technically refer to any RF communication that uses packets, including wifi, but I mostly see it used to refer to the AX.25 protocol, which works like an old-school dial-up modem in that it converts data into audio tones that are transmitted using FM or single sideband radios built for voice communication. AX.25 is used mostly nowadays in Amateur Packet Reporting System (APRS) which is used to report location and status info. There’s a website, aprs.fi, where you can track vehicles sending their location or weather stations reporting conditions and so on.
In the olden days there were tons of bulletin boards hosted over AX.25 all over the globe that you could reach either directly or through repeaters. There are a few hangers on, and I even hosted one for a while but nobody visited. You could by hardware terminal node controllers (TNCs) that had a BBS feature, and nowadays there are a few software TNCs available.
Several Wifi frequency bands overlap with ham bands, and various projects have arisen that modify commercial wifi gear to turn them into mesh nodes forming a wireless wide area network, operating under FCC part 97 rules rather than the unlicensed part 15 rules that they use out of the box. This allows higher power and channels otherwise off limits to wifi stations. The project I’m most familiar with is Amateur Radio Emergency Data Network (AREDN) which uses a fork of openWRT firmware. I’ve tried a couple times to get the other hams in my area interested in setting up a network, but it’s slow going.
There are also ham-adjacent projects like Meshtastic that I’m not as familiar with.
This barely scratches the surface of what’s out there. The ham bands are explicitly non commercial and there are limits on what you can transmit and how much bandwidth you can use, but I dream of a day when everyone’s wifi router meshes with all the other routers in the neighborhood which is connected to all the other neighborhoods in the city which is connected via repeaters to all the other cities and so on. Sure it would be slow, but we’d be communicating on our own system that only costs as much as the hardware you run it on.
I’ve been watching halow for a while, I haven’t yet seen any sustainable, real-world examples beyond a few hundred kbps (not bytes). I have seen the 1Mbps results, and they’re promising, but most places with any other traffic in the free band is busy. If you have any successful and repeatable tests hitting at usable speeds, I’d love to see them.
After getting into meshtastic and a few other lorawan projects, I’m a bit concerned that tests for these are always high and visible, which doesn’t work well in the mountains, even at shorter ranges.
I used to be more hands-on with these new standards, but I’ll wait for better tests to come from halow before I try it out.
I’ve seen one. Not a great sample size. A YouTuber who also does a lot of mesh-tastic videos. Demonstrated live streaming from an ESP32 camera module in a large public park. High resolution low frame rate. As well as in a bridge configuration streaming YouTube from their apartment close to practical range limits. Roughly line of sight, minimal obstruction, of course.
Guaranteed success? No. But definitely something worth looking into investigating and replicating. Devices like these are much more accessible to your average person than ham certification and equipment.