Maybe walkie talkies too? Pretty simple to use!
The way I read this, it's more about what is needed to get services back up after a large scale loss of critical infrastructure: communication to other network/internet/infrastructure professionals.
Renting dedicated hardware is expensive though. I'm taking a financial hit for my paranoia.
Kiwix is the best software I have found for this and they make an extensive library of materials available for download themselves, which includes the aforementioned but also many other resources that would be helpful in a disaster scenario: https://library.kiwix.org/
To remember: LoRa only permits small text messages. Don't even think about images, voice nor binary files (I mean it).
Another option is APRS using satellite connections through a cheap chinese walkie-talkie (Quangsheng UV-K5) for 20 euros to send text messages.
From her article:
> Their answer was both depressing and freeing: “You can’t. All you can do is be prepared with tools and a plan for when the crisis arrives. That’s when the organization will listen.”
That is so sad, but also, so true.
I was fortunate to have worked for a company that is over 100 years old, and that had weathered a couple of wars, depression, recession, market disruption, etc.
They were about as open to disaster planning as anyone, but they could also be head-in-the-sand knuckleheads. The biggest thing was the company had a fiscal and cultural conservative bent; quite unusual in the tech industry, these days.
Anyone that has managed a DR system, knows how difficult it is to get support. Disaster Recovery is expensive, resource-intensive, and difficult to test. It is also stuff people don’t want to think about. Sort of like insurance.
+ Quangsheng UV-K5 + Android phone with 3.5 mm audio jack + APRSdroid installed
Forget about LoRa, that is basically a toy. It is far more useful to have a functioning walkie talkie capable of talking with satellites and other stations at 50 kilometers of range.
In either case, jamming is a possibility.
In a real scenario these things work. Please don't fall into "what if's" which are exotic and confused as things bigger than what they are.
I've always been interested in helping folks that help folks.
I started looking at Meshtastic, some years ago, but found the ecosystem to be a bit overly-complex, as is often the case, with "Swiss Army Knife" approaches.
Best thing is the android app combo with the walkie-talkie. Tends to give a usable setup that works for voice and data.
It is true that you will not be able to jam the _downlink_ frequency outside local areas.
But due to the FM capture effect, anyone else in the same hemisphere with a basic 100w transmitter (and appropriate antenna) on the _uplink_ frequency will be able to deny the satellite service to all the 5W Baofeng radios that preppers are stockpiling.
Look: if someone is jamming something with a 100 watt transmitter which causes impact on the adversary, that location is quickly bombed because it is now a giant beacon that advertises its position.
I'll even throw a cheap appeal to authority and mention that I've done this stuff professionally in the military for a decade. I'll still trust more on the usability of my cheap walkie-talkie capable of +50km range and satellite texts than an exotic LoRa used on the ground by few internet warriors.
APRS is friendly enough to permit sending messages using normal internet and receiving messages from friends while on the outdoors. However, all of this requires practice and know-how.
The network itself does far more than what other projects were doing and is being fast adopted across Europe.
Then please educate me, I'm listening.
APRS is a bit better, because it requires ham licences and (usually) a bit more expensive equipment, but with "SmartBeaconing" and just a few hams, you get collisions (multiple people transmitting at the same time, effectively jamming eachother).
Reddit is usually full of preppers and other idiots buying these cheap chinese radios, usually without any knowledge and licences (that are needed to use them), and in turn they know nothing about actual use of those devices.... simplex range in urban environment is measured in hundreds of meters or maybe one or two large buildings between radioss, and repeaters will be in use by actual emergency servics and not really usable for any kind of "private use".
tldr: get a few books, a pack of cards, wait it out, not so long ago being unreachable away from home was the norm, and we managed.
Portugal was for 24 hours without electricity. LoRa networks were jammed and non-operational because the bandwidth is limited. APRS kept working.
It is far better to have a walkie-talkie that you can use as PMR on the 446 range and use for satellite text messages than an expensive toy that very few use.
And as you also know: You do NOT require a radio license when operating under emergency situations, which is the context on this case.
In portugal? Yes, you need one. Probably in every other EU country too
In USA too.
I have no idea where people got the myth of not needing a licence in emergencies, probably due to not reading the actual rules.
Also, you cannot use the same device for PMR and ham radio bands, the PMR device needs to be certified for PMR use, that means that it can only transmit on pmr frequencies and nowhere else. Other devices (eg. ham radio) cannot be used on PMR frequencies.
It's not FUD, it's regulation which exists for good reason, because in cases of actual emergencies, trained ham operators can assist actual emergency services with communication, and that's impossible if every idiot with a baofeng jams the channels.
In Portugal you are legally permitted to use channel 9 (27.065 MHz) in addition to the PMR channels. The hard line has always been on public safety bands. From a long time cooperation with the authorities (especially around the Azores) there was always an informal permission for that kind of usage across boats and islands because communication is difficult there.
Last but not least: taking the radio license exam is NOT a drama. Anyone can apply and get the radio license when they are serious into this topic.
Channel 9 is a CB channel, and neither quanshengs nor baofengs work on those frequencies at all, but you need a certified/type-accepted CB radio to use on that frequency.
Same with PMR, you need a PMR radio to use on pmr frequencies.
It's not FUD, it's just hardware limits and regulation.
Yes, 12yo kids can get an amateur radio licence, it's easy, but you still need a licence to transmit on ham bands, and you still cannot legally use a baofeng (except the few pmr models) or a quansheng on PMR frequencies, those radios don't transmit on cb freqencies at all, and there are no legal "you don't need a licence in an emergency" exceptions.
You will in turn have to share the road with him in the same way as other radio amateurs (and possibly rescue services) will have to share the spectrum with you. You transmitting on a repeaters input frequency without a subtone set will in turn jam the repeater (PLL is before the TSQL) will make communications impossible in the same way as your neigbor stuck in the middle of the road with a burnt clutch will make driving impossible for others.
But hey, stay lazy, don't get a licence, i'm sure you'll be able to figure it all out fast when you're knee deep in flood waters.
This fact alone is incredibly important to at the very minimum known what the heck is going on. Suddenly you have a cheap device in your hands that can receive updates relevant to survivors and victims.
In Portugal exist the 3-3-3 plans for anyone to practice using a radio. These are regular-weekly sessions with a lot of people joining.
Even if you do, a radio by itself is useless unless you can trust the people on the other end.
Perhaps your generator won’t start. A voice on the radio sounds like a mechanic and claims you need a new spark plug. He can offer you one if you can meet him in a neighborhood 3 minutes from your house. Is this a benevolent actor with small engine expertise and a garage full of spare parts? A well meaning elderly man with dementia? An opportunist luring you into a robbery?
You lose a tremendous tactical advantage in this situation if you’ve never met any local radio operators, gotten a sense of where they live and what they do for a living. Some are skilled experts. Some are blowhards who confidently give bad advice. Some live near you. Some are 100 miles away. You can figure it out, but it takes time that you don’t have in the middle of a disaster.
Get your license. Join your local Amateur Radio Club. Use your radio to chat with someone at least once a week. If you have signal quality issues, experiment with upgrading your equipment. Then the radio in your bug out bag will be of some value to you.
You should worry about knowing the procedures, the channels, how to engage in communication with the hardware available to you.
Parent is referring to the “Safety of life and protection of property” rule [0].
[O]: https://www.ecfr.gov/current/title-47/chapter-I/subchapter-D...
With the license, there are ham repeaters for FM and DMR. My cheap Chinese radio can reach the repeater 15km away.
It also supports APRS, but only for sending beacons. I can't really test it as there aren't repeaters around.
Starlink is much simpler for the average consumer to setup than what this article suggests.
A mesh network and federated services will not rely on one actor or server. And if you are in middle of no where and only a random guy from Texas is hosting, then maybe start your own node if he is unreliable.
Resiliency isn't found by relying on corporations who are subject to interference by foreign nations.
This WiFi offers a low-data-rate (<5-10 mbit/s) service to seniors for free or a very low fee (~3€/month), without service guarantees, but honest best-effort.
In the case when an internet problem arises, which affects the city's it-infrastructure, the city can switch to this WiFi to have their city-wide services still interconnected, while the seniors get kicked off of the network during this time.
I dunno.... as I get older, this sounds more and more idyllic
I think the subject of the thread is pretty clearly how to deal with interruptions that won't resolve themselves in a short time. It's on you that you choose to ignore that and focus on "was it pretty for a milisecond?"
Now we've gotten to "Ok the claim was admittedly not true but it's your fault for pointing it out instead of going along with the groupthink" Is this the post-truth society we hear about?
The sub-thread was very clearly started by the idea that loss of connectivity might not be as bad as assumed, there was space to have some debate about what positives could be taken and how we could actually prepare to live with outages alongside preparing to negate them.
I didn't think much of it honestly, the original point of it not being so bad, but your comment has left me with the feeling that the internet can't fall soon enough.
I'm not sure how far into "prepper" that makes me. I don't have a store of canned food or weapons or a generator. I started down this track to keep my home lab (on which I self-host a bunch of stuff) online / protected through outages.
Additionally, the city in which I live has an ad-hoc amateur WiFi setup which connects over several kilometres. I used to be a member a long time ago but, ironically (in this context) getting fiber internet meant I kinda lost interest. It's one of those things that had just never gotten back to the top of my priority list: https://air-stream.org/
Feels like they're ahead of game on this topic.
If you own a house I'd look into very old school options like digging a deep hole to store your food in a dark&cool place - forgot the name for it but it'll work for weeks or months without a single milliwatt
Or if you want to get technical I guess "root cellar".
It's terrible in a society-collapse way - makes you a target.
A target for what? People to come charge their phone at your house?
Why would you be a target if 50%+ of population have solar setups?
Cities are not setup to support their current populations without those services and once you run out of buffer things go downhill quick - wastewater is an enormous and immediate disease hazard.
Otherwise you're throwing out all fresh food, supermarkets couldn't process payments nor most restaurants either, etc.
But if the power, and the gas stations, don't work anywhere. It won't take long before we start running out of food and other utilities start to fail.
Now nobody else can get more fuel for their generators when the gas stations don’t have power either.
This was a big issue during the power shutoffs during LA fires this year.
Maybe some sort of bias but I also view things this way.
I left that 'party' quite early.
We do not yet have an awareness of our dependence on technologies, nor of how fragile those technologies can be. If someone had suggested years ago that perhaps we should prepare for a disruption in say, the egg supply, that would have provoked laughter. And jokes like, well I really don't like eggs. Or what about toilet paper hoarding? Given just those two events alone, one might decide that disruptions are at least somewhat of a possibility. That our past assumptions of an unending supply of goods and services might not hold in the future.
It is a funny comment, and there are several dependencies I personally would not miss. Until I did.
Personally, the interesting concept is resiliency in general.
At most you will only be able to start a few Android-phone hotpspots and share files. That is the reality of it.
At most you will be able to charge smartphones and small devices with solar panels. Keeping a larger Wi-Fi router running only on solar? Very seldom.
It will not be a problem at all to power it completely on a small 100W panel.
Here Dresden (Germany), there are several volunteer organisations who laid wires through the city or have microwave-antennas (AG DSN, Bürgernetz, Freifunk), and there is a recently founded internet exchange run by volunteers (DD-IX). So as long as we have power, we got our own internet.
* I have a Starlink mini--in the event that there is ever a broadly disconnecting event I'd be happy to share access to it. I keep it pretty much exclusively for emergency use and occasional camping/rural holiday house vacations. You might want to consider one too? They're ~250 euros new, which for someone who's starting a club for anything seems like a plausible expense. I believe there's a chinese version in case you don't want to trust the whims and emotions of Musk. * https://kiwix.org/en/applications/ is pretty useful if you'd like to have an archive of technical information, wikipedia, stack exchange etc.
* I try and keep whatever feels like the smartest open weight LLMs at the time available so if something real bad ever happened it'd still be available. I might add that idea to your preparedness list too--I'd probably take LM Studio with Gemma 3 over another random engineer on the Meshtastic channel :)
* Would you share channel config details for your IRC community? I'm happy to join.
> Note: Currently, LR1110 radios are unable to receive Meshtastic packets from the older SX127x radios, it requires a breaking change to fix this. Transmitting works and when hopping through an SX126x radio, you can still receive packets from SX127x radios.
https://meshtastic.org/docs/hardware/devices/seeed-studio/se...
Its range is also much worse than the T-Echo's.
> You have the ability to pause and unpause service at any time, with billing occurring monthly.
Source: https://www.starlink.com/support/article/dd5b43b5-20e1-b29b-...
> If you exceed the allotted data on the Roam 50GB plan and have not opted-in for additional data, you will be unable to use the internet except to access your Starlink account, from which you can add additional data or change plans.
Anyway, it's a nice hobby to learn a lot about solar powered systems and antennas/propagation.
I think that one of the best use cases for Meshtastic is to use it during protests, especially in authoritarian countries.
For protest there are already bluetooth messenger for that:
but yeah it is only for Android.
At present there simply exist no good BLE messengers any more since recent updates to the BLE stack.
Please don't confuse security with resilience, they might be connected in some dots but have fundamentally different purposes.
also, would be interesting to see people test these setups during a planned outage. like simulate a real failure for 24 hours and see what breaks. most systems look solid until you actually need them
If things go bad, you need to own the tech completely. Be able to setup a wifi hotspot with services that can help your community (wikipedia, openstreetmaps, low-res movies), or have pendrives with critical knowledge ready to be shared, etc.
The low power radio is more of a short term thing, for "what's going on" soon after the first moments of a crisis. Building long-term resilience is much harder.
IMHO, the loss of access to knowledge is much more detrimental than access to a network of people. One can eventually get you into the other, but there's only one you can actually own.
(It's not switched on / connected at the moment - I tested it out during COVID lockdowns, but no one else connected since we didn't have power outages).
Real time chat: wild unsecure simplicity proven to run anywhere (IRC), bells & whistles with contemporary security (Matrix), some mesh native that almost no one knows ? What about post-disaster onboarding of actual users ?
Store & forward messaging: SMTP & friends may work nicely, but with actually distributed servers - in each local disaster POP. Also needs timeout and retry parameters to keeping stuff in queues practically forever.
Forums: anything better than ol' NNTP ? Other protocols merely adopted intermittent indirect connectivity - NNTP was born in it !
Is anything more sophisticated or more interactive realistic for actual disaster ?
An onboarding kit with clients for each major OS (à la AOL CDROM !) might be handy too, for snearkernet distribution over USB dongles.
I'm sure someone smarter than me has a toolkit for these things, I just don't know where to find it.
Store-and-forward-wise, NNCP is designed for this, but it's not widespread yet.
Is this scalable?
There is also a version with Rak chip instead that ESP32, that is a lot less power hungry and it's perfect for a solar powered module.
another way you might see it manifest: a simple question is asked, and without pausing to hear the answer, the questioner then goes on a long speech about their personal experiences and why they're asking the question and what the meaning of the question is etc etc, rephrasing the question several different times along the way
if you're actually interested in learning the answer to your question: *think* about the question first; compress it into 1 short sentence (5-10 seconds long) ending in a question mark; say it; and as soon as you hit the question mark, immediately be silent so the answerer can actually answer the question and get to other questioners
if you're worried they might not understand the question that way: do it anyways, and if they don't, wait for a chance to ask again (after others have had theirs)
Then only one person needs a generator and/or Starlink to provide some connectivity.
If there's too much solar in your area (which will be the eventual end result everywhere) you get net billing, where you don’t get charged for the energy you use, but they won't pay you a dime for anything over what you use or will even disconnect you if you overproduce so the local substation doesn't explode because it wasn't specced for any of this shit.
The end result is that you don't get paid for any of your daily overproduction and still get billed at night, the worst of both worlds. It incentives people to buy batteries and store the peaks, with grid power being mostly optional.
The grid will definitely pay you to sell it electricity if you fulfill the industrial standards it expects.
The issue in your assessment is that the quality of service provided by someone just setting up solar panels and inverters and plugging that on the grid is the equivalent of starting a skyscraper building company based on your experience building your garden shed. It's not safe, you won't understand why, and eventually you or someone else will get hurt.
Even with a YAGI or a dedicated pole antenna, both tuned to 868 MHz, the range in my location is quite poor. The signal seems to drop off quickly, even after walking just a kilometer down the road. While I understand that height is key (and my antennas are fairly high), it appears that 868 MHz attenuates very rapidly.
So, to reiterate, I don't believe Meshtastic is a particularly effective solution. The principle behind it is sound, but the practical execution falls short. I think established methods like Hamnet and traditional amateur radio are far superior, especially now with SDRs making a simple handheld radio incredibly affordable (around €20)
I have been meaning to try it out
https://www.disk91.com/2024/technology/lora/critical-analysi...
https://web.archive.org/web/20111119205258/http://fabfi.fabf...
I had worked with this almost 15 years ago. It was a neat project.
2. In case of conflict, everyone who starts LoRa gets delivery of artillery shell/rocket on their position.
Just like in Ukraine, try to go there and start up stock firmware DJI drone there and see what happens :)
Same when using radios in UA, no.1 rule is to NOT use encrypted radios, I like this example the most, because it goes against common sense, why would you want to use unencrypted radios so enemies can see your whole communication.
Reason behind this is following, encrypted radio traffic is very interesting for enemy, so it means if someone using it, he must be someone important -> send shell, badabum.
But the wider point is generally that just because something is less effective doesn't make it useless, and just because something is effective doesn't make it dominating.
If an enemy has an artillery advantage, then shelling obvious decoys is still taking decoys off the field, which you now need to replace. But worse, their existence is giving away the fact you're active in the area, and their placement is giving away your operational range - i.e. how far can a person move on foot over rough terrain? How far in a vehicle? etc. What's the effective range of their normal infantry weapons - if you know there's a decoy then the trap has a specific radius if it is a trap.
All on the bet that they will in fact run out of shells - or in the case of drones, they won't even run out since a drone can much more easily be re-targeted.
(but I get this is geared towards communication resilience)
Are there use cases for this sort of thing that could make it worthwhile even if doomsday doesn't arrive?
It might make more sense if augmented by fixed multi-megabit point-to-point microwave radio links to act as a backbone, with LoRa only functioning as an access network.
I'd be interested to hear what experiences people have had with doing this for real.
I'd also consider thinking about using the "big ears, small mouth" technique to push up bandwidth; if a fixed link using a technology such as LoRa could transmit at a legal EIRP level, but coupled this with a really high gain parabolic dish (I'm thinking re-purposed satellite dishes) and low-noise amplifier at each end on the receive side, you could get substantially higher end-to-end Eb/No, and thus much higher bandwidth and range than would otherwise be legally possible. At first glance, the necessary hardware to do this looks quite doable, either by active RF switching between antennae, or the use of a hybrid/circulator to do the necessary duplexing. I'd be interested to see if anyone has already built, or even manufactures, something like this, and what the practical and regulatory barriers are to implementation.
You don't even need extra hardware for the duplexing; the common SX1276 chip has separate Tx and Rx pins which are typically combined on the PCB. All you need is to route a PCB that brings 'em out separately, if that's what you want to do.
In practice it's tricky to aim two dishes the exact same place, so using a single dish with a single antenna at its focus is probably quite a bit more practical. The SX1276 also has a PA control pin, invert that and you've got your LNA control signal. Or don't bother with the LNA, and simply mount the transceiver at the focus to minimize RF feedline losses. You'd give up a smidgen of performance but gain a lot of simplicity. (There would still be coax running down the boom, but it would be carrying the wifi/bluetooth signal outside the dish's aperture!)
Pros: - it can actually scale past 20 devices - Forward secrecy encryption - Is designed to support multiple underlying transport systems such as TCP or LoRa - Announce based routing rather than flooding the entire network which is order of magnitudes faster Cons: - Not as many nodes as Meshtastic has - Python implementation with no C implementation (can be speed up with cython however)
Then, there is JS8Call, PSK, SSB, FM, etc
https://en.wikipedia.org/wiki/Gopher_(protocol) https://en.wikipedia.org/wiki/Gemini_(protocol) https://geminiprotocol.net/
Have I missed the meme on this one? What does this mean?
so many wrong assumptions on that article.
feiss•6h ago