First, if the mesh can use Internet or other transports then it will, and it will be built out in a way where these become a necessity. If all you want is a silly new way to text your friends, then something like reticulum will be ok. But if you want a serious solution for emergency response and free communication -- free as in "no one can stop me or control what is said no matter what" then building something independent from scratch is critically important.
Second, the author also misses an important piece of functionality of meshcore: If I lose power, the mesh still works.
This is hugely important for emergency preparedness and disaster recovery. Especially in places prone to any form of natural disaster.
It's certainly the early days, and it's clear that there's a long way to go, but I really feel that these fully decentralized solar powered networks are hugely important as a simple alternative to the corporate behemoth the internet has become.
Yeah, that's the general feel I get every time I poke into Mesh*. Neat radio tech, fun toy to find other nearby nerds, instantly-obvious problems that are fatal to growing beyond being that toy (or small specialized personal nets, where it's totally fine). They feel more like a tech demo than anything actually intended to survive.
Which is fine, you kinda need that to start out, and they do work today. Just... hard to get excited about.
I don't think the Meshstatic approach of "flooding" the network with all the messages can be scalable in the long run, they need to implement some sort of routing protocols (like BATMAN), but they are heavy and complex to implement
Like the internet, but self-configuring and peer to peer.
Yes, there are lots of technical and social challenges, but I don't believe they are unsolvable.
Regardless I have a few LILYGO Meshtastic Esp32 boards that are neat to play around with!
More of everything, of course! But I'm far more interested in making the wifi we have more ad-hoc capable, more useful anywhere any time, for whatever, especially on the longer range bands like 900MHz.
Unlike Meshtastic and Reticulum, the need for router nodes is built into the protocol itself in MeshCore. And while nodes are cheap and amateurs can put them up, that is still a grid that has to exist for your MeshCore client to be useful…
However, Reticulum has its own active "small web" implementation with NomadNet and the Micron markup.
915 MHz mesh isn't a fair comparison. APRS is, but that requires licensing and unencrypted communication, so it gets less traffic. Quite good and fun though. I get point to point pings dozens of miles away daily.
Everyone you meet on a mesh is a real breathing nerd, who due to proximity has a lot in common with you. They are not trying to influence you or sell you anything
How many places like that are left?
I've wondered if it'd be legal to just chuck a couple into some random trees.
I even tried changing the radio preset to Very slow Long for example, but I didn't really get better range, I don't know why.
(It's basically an open source version of an MPU-5, basically. https://persistentsystems.com/mpu5/)
I wish... the Hamburg Meshcore mesh has some dumbass spammer spamming far-right youtube videos in the public channel for example. And from what I hear, Meshtastic also has issues with this kind of idiots.
I'd almost have more faith on dragging out all the old acoustic coupler modems and building a city-wide string-and-tin-can telephone network.
Of course they are not useless. My hiking/camping friends put together a fun orienteering game which used Meshtastic to do live GPS tracking. Worked great for that. But a country spanning meshternet it is not.
I don't think it needs to be though. There are plenty of things to explore using these things at the local 1-10 km scale.
To be fair it is already a miracle that there is enough Metastatic in my area that I can (sometimes/rarely) send a message between my home and work!
*disclaimer that I am coming off a recent disillusionment with Meshtastic. I thought it would be fun to make a single raspberry pi image with all the dev tools on it to do some off-grid dev/maintenance work if you were to treat this seriously and pretend the main internet is down. That moment came when I tried to compile something and the Pi ran out of memory. Really? I need more than 1GB RAM to compile something used to send short text messages?! That's nuts!
I'm starting to feel this is a fun activity, but realistically copium for a world that is very sadly centralizing everything.
In comparison 2 modern smartphones with no WiFi AP or no cell coverage can't really use any of the usual messaging (or even data transfer) services to communicate directly. Yeah, there are some ways to connect via bluetooth or a mobile wifi hotspot, but it all looks like very begrudgingly added and not well supported for easy use by mainstream mobile OS and hardware companies.
I do wish we had a proper, working emergency meshing standard, though. An international one, too.
I’m not sure if any of the open standards are there yet, but that may just be, because there isn’t money to be made, so no commercial entity has approached it (like GoTenna, which appears to be the only successful one, but uses a proprietary protocol).
My node is a solar powered tree hanger hanging maybe 25 ft above the ground, and I'm in southeast michigan with a typical ~30 minute commute into the suburban cities.
I really liked this article but in the end it reinforced my belief in meshtastic - I don't need a computer connected to my node and I'm not paying for any meshcore features. I just wish there were more fixed nodes out there to extend the network.
Would love a LoRaWAN router but they run around ~80€/80$ and just for playing around with it it is a bit much.
A great video on the topic from a few years ago (How to Radicalize a Normie): https://youtu.be/P55t6eryY3g
I think it's perfectly feasible for a small neighborhood of regular people to have internet shared over a wireless mesh network, yielding experience comparable to standard approaches.
Isn't it the case with Meshtastic and Reticulum too? It feels like it should be part of the definition of mesh network.
Is the internet that? People have built corporate behemoths on top of it, in world wide web-land, but the internet itself seems relatively neutral.
The range is extremely limited, and the throughput gets really bad if your packets have to travel more than a few hops. These two factors alone combine to write this off as nothing more than a toy pretty much from the start.
There are already unlicensed radios with longer range that would be a better starting point if people were trying to position mesh* as a scalable and reliable transport of any kind.
>Second, the author also misses an important piece of functionality of meshcore: If I lose power, the mesh still works.
This point isn't unique to meshcore, and it is not a guarantee. Any solar powered and battery-backed device can function without utility power (in theory). Meshcore nodes are not solar powered by default, and the same solar power concept can be utilized for any other kind of radio transceiver/protocol.
Can't they just triangulate the nodes and hack or unplug them? And put whoever objects into prison?
https://www.jpole-antenna.com/2017/02/07/build-it-2-meter-ta...
or talking to somebody with a bigger station 300+ miles away because of a tropospheric duct or just getting into the WiFi at the hospital from the other side of the lake.
Which means in SHTF situations (such as one when most people imagine this would be useful), these things tend to fail the most.
With reasonable line of sight tens of kilometers & much more is doable. There are some repeaters on mountains that connect bigger regional meshes with packets going >100 km regularly.
I think your beef is not with Meshtastic, but with the distro/compiler, and I am going to bet you're compiling C++ with clang.
> a Wi-Fi mesh experiment 15+ years ago. It's a fun experiment, but in a way feels like a step backward for me.
Why? WiFi technology is cheap and available. Seems like a great basis for a mesh.
> Meshtastic and Meshcore are just that, messaging, but that makes it the standardized killer app.
Why "just"? All the internet protocols are also just messaging at the end of the day - request: A sends message to B, response: B sends message to A.
> On the other side you have reticulum which allows decoupling from the LoRa low bandwidth only radios, seems to do a lot of neat stuff
I'm not familiar with Reticulum (neither with Mesh* in any meaningful way) - do you mean to say that Reticulum is more flexible regarding the radio technology - as in: no need to by specific devices like for Meshcore?
> I'm starting to feel this is a fun activity, but realistically copium for a world that is very sadly centralizing everything.
Can't say I disagree, sadly.
I think the most important requirement for a mesh technology to take off is a purpose that is practically relevant right now. Let's assume the mesh network exists - now what? Now you can send messages to other nerds but ... what do you even want to send as a message? That's why ham radio basically bottomed out at contests, Morse code challenges and exchanging specs ... there is nothing to say. Maybe the biggest problem of mesh networks isn't technology but society. If there is a purpose that at least serves nerds making up 0.1% of the population then that would be amazing and mass appeal would actually be more cause for trouble than desirable.
The main difference between Meshcore and Meshtastic is how telemetry is handled. In Meshcore to get telemetry the other party needs to request it, whereas in Meshtastic telemetry is sent in flood mode in configured intervals. That's why Meshtastic is better suited for (A)TAK [1]. But because Meshtastic sends telemetry anyway there is less and less airtime for chat messages, and it gets to the point where you can't talk to people. For small groups this is fine, for bigger groups/meshes this is no bueno.
[1] https://tak.gov/ - (A) stands for Android app.
are you asking about the current state or the abstract idea?
because current state is discussed in TFA and it's centralized up to needing yearly fee to receive BGP data
neutrality only exists if you actively go for it - and the whole post is about such solutions
At something like $100/node and 5000 nodes in a major metro (eg: Dallas) it's like a $500k investment and you're maxed out at low data rates and saturated topology.
That's 5k nodes in a (generous) 5 million population and ~500 square mile area. More like 9M people and 9000 square miles. (I checked, and that's "extended metroplex", but reasonable: Decatur to Cleburne, Weatherford to Kaufman).
At 5k nodes saturating an area, it's basically a rich persons toy very well suitable to remote or low-density areas, but NEVER for 1:1 saturation deployment in any sort of high density area.
>comically weak
This has been said about every interchange technology, ever. Doesn’t matter, still EOF’ed.
>trying to position mesh* as a scalable and reliable transport of any kind.
.. well, scale is a matter of one thing: location, location, location ...
>range
.. is an end-user value decision, as in, you might think its too slow for your browsing needs, but there are a thousand applications that will use the bandwidth offered to the average user, at the average users own personal speed, according to the needs of the average user.
Just like in the good ol’ days of soggy noodle internetworking, the current zeitgeist apropos mesh-based local low-power radio technology, is entirely ruled by the user.
Case in point: some friends and I have deployed our own small Meshtastic network, and we use it exclusively to organize our social network. This particular use case isn’t particularly ‘easily’ exploitable by third parties, since we have some modicum of encryption - but it certainly supports our need here and now in a big city - but, more importantly some of us will take the little lovely boxes with them when they go sailing next week, and our range will be significantly extended for the purpose …
>Meshcore nodes are not solar powered by default, and the same solar power concept can be utilized for any other kind of radio transceiver/protocol.
If you need solar, build a meshcore node with solar.
Nay-saying like this is as old as the hills, there’s nothing special about it, everyone does it…
Setting up a few mesh nodes, running some tests, and thinking you have a kit that is usable in an emergency is like so many other "disaster recovery" drills we've been through that assume ideal conditions. The excellent daily tape backups that you realize too late you can't utilize in a bare metal recovery situation because nobody kept an OS install media handy, or they forgot to keep the installer and license keys for the backup software in the datacenter.
The challenge with these mesh systems is that few, if any, areas have even gotten to a point that they could run a realistic simulation of relying on this system for communications.
Meshcore is 100% free. The last issue was the closed sorce Android/iPhone client - but there are FOSS Flutter based-Opensource clients available (https://github.com/zjs81/meshcore-open)
FCC does allow use of a ham radio in a real emergency without a license.
About the messaging aspect, I mean that though a messaging app is great, I feel that the end goal is having an independent network from the telcos, carriers, etc. In that sense we're going to need to allow more than an SMS replacement.
And from there is born the problem. Bootstraping such a network for more than geeks is relatively impossible in that context. You either have a device that does one thing as a drop-in magic solution for newcomers to jump un, or you chase the better solution, but that brings as much complexity, if not more, as running the Internet...
And while I'm happy to see p2p and mesh research continuing, participate when I can, I just feel like it's a pipe dream that is far far away and I'd like to see it grow beyond the few dozens of decentralization geeks in every city :)
But on the other hand, isn't it also true of the Internet?
The (lack of) reliability in the network is the main issue with it though, but that's already been covered elsewhere in this thread.
Internet is not neutral, and hasn't been for too long, many providers offering free Whatsapp or cases like LaLiga.
The cracks are already extremely visible in MeshCore in the UK, where overheads from adverts and dropped packets from collisions mean it is already horrendously unreliable and most of the chatter in the Public channel is people sending test messages and being unsure whether anything they sent was ever heard by anyone.
Most other routing protocols (BATMAN included) are also not that well suited to situations where the underlying transport ends up asymmetric, e.g. one node can't hear others but it can be heard, and that's an extremely common occurrence/failure mode in wireless meshes like this. It's a difficult problem to solve with coordination between nodes, let alone without.
Rarely saw nearby nodes, never communicated anything more than a basic "HELLO"/"ACK" kind of thing.
It's a neat idea for things like a distributed sensor network on your own property, or other IoT kinds of comms. It's not a practical platform for human to human comms, especially in a disaster scenario.
If I have to modify settings and effectively kick myself off the mesh, then it doesn’t matter which protocol I use. By the same logic, you can just choose different settings on Meshtastic and get the same results, but you will not have anyone to mesh with.
There are systems like
https://en.wikipedia.org/wiki/Automatic_Packet_Reporting_Sys...
But they are pretty specialized and not that scalable
Not sure why people are so hyper-focused on the La Liga case in Spain, Spain done so much worse censorship, even political one, yet no one seemingly bats an eye. But some IPs getting blocks because Cloudflare doesn't follow Spanish law? Suddenly half of HN cares about it, it makes no sense...
How about when a Women's rights website started being blocked in Spain? (https://digitalfreedomfund.org/case-studies/womens-rights-we...) How about the Gag Law that existed since 2015, limiting public demonstrations? How about when the central government prevented an "autonomous" region from even thinking about having a referendum? How about the laws against "insulting" the crown?
Today, in 2026, as a Spanish resident, I still can't access https://www.womenonweb.org/. Why? Who knows anymore. Fucking money + religion owns our digital spaces now, been for a long time, no one seemingly noticed.
There has been so much censorship here, so much more important censorship than some random piracy stream websites going offline, yet not a single person here seems to remember those more important cases, just as long as a US company involved, then suddenly it's important and worth referencing.
Freedom on the world wide web and the public internet been kind of hanging by a thread for multiple decades at this point, and I'm also on the side of "We need new physical infrastructure if we're gonna have a chance".
Meshtastic, Guifi, Freifunk, NYCMesh and more are wonderful efforts that hopefully at one point can group together, we all have more or less the same ideas and same goals, right now it's all separate networks though.
I didn't know about this, so I looked it up: it's because they sell prescription-only abortion medication and ship directly to consumers, where it's legally only available via prescription and medical oversight. Fundamentally they're blocked for ignoring medical regulations. There were some appeals, but the argument is that access to abortion medication is already a well-protected right, so that this is dangerous and unnecessary, and it's not possible to block that while unblocking the rest of their educational resources.
Using a VPN, and trying to use that website to "order abortion pills" today to Spain shows this error:
> You live in a country where there is access to safe abortion services. We don't provide services in your country and we therefore are unable to assist you.
You haven't been able to get abortion pills from them for years, yet the same reason for the block remains, even if that's not actually true in practice.
The block is being escalated to UN though, so it's still an ongoing issue, not like nothing is happening, just frustrating to see people complaining about minor censorship when there is so much more important censorship happening all the time.
I love networking, a lot. So much so that I've run my own ISP since 2024, complete with its own ASN, IPv4/6 address space, fiber optics, etc.
However, do this and you quickly realize how reliant you still remain on central service providers. The internet is a mesh, but the real players on that mesh are few, far between, and easy to coerce into censorship and other bad things. Even after ascending to the lofty realms of direct BGP peering myself, my access to those resources is locked behind yearly fees from ARIN. Ownership of the "real estate" of the internet, IP addresses, no longer exists.
The tragedy of modern computing is that the local compute we own in our offices, on our laps, or in the palm of our hands is massively, massively powerful, but Big Tech companies actively refuse to take advantage of that fact. Why are you, I, and our neighbors largely relegated to consuming access from big players when the computers we have are capable of so much more?
Mesh networking, sending packets of data through many directly interconnected peers instead of through central datacenters, promises to free us from our reliance on central service providers, and it's something I've been really excited about lately.
Of course, there is good reason for how the internet is currently designed. High bandwidth connections are costly, and for some applications lowering latency as much as possible is very important, which realistically requires continent- and ocean-spanning fiber optics with as few middle-men as possible.
This doesn't mean we need to put all our eggs in this basket though. While bandwidth-intensive services like Netflix or latency-sensitive services like gaming are not likely to come to mesh networks anytime soon, there are a vast number of applications which are perfectly suited to mesh networking:
Messaging, social networking, and general information sharing are very practical uses for mesh networking where access, censorship resistance, and resiliency are increasingly critical for many people around the world.
For applications like this, we don't need to trench fiber connections through the ground to get everyone connected. In the modern mesh networking space, much of the innovation is happening in the LoRa radio space.
LoRa radios use license-free, sub-gigahertz radio bands that are available for public use in nearly all countries around the world. Compared to the license-free 2.4 GHz or 5 GHz radio you'd recognize from Wi-Fi (but is also used by many other technologies), LoRa operates at much lower power and, importantly and simultaneously, at much longer range.
Mesh networking over the airwaves presents a very unique opportunity for our societies. We could build a resilient, peer-to-peer network that coexists with the internet, enabling connectivity in currently underserved regions and increasing our personal sovereignty online by maintaining a functional backup to the internet for our most critical needs.
It's also just a freeing feeling to be able to send a message to someone else relying only on devices that you and people in your network own outright, instead of renting the capability to do so from your local ISP or Elon Musk's Starlink.
The obvious frontrunner in the mesh networking space is Meshtastic, mostly because they were the first in the consumer LoRa mesh space, or at the very least the first to do it pretty well.
It's easy to see why Meshtastic has quite a bit of popularity: it's a real product designed with a specific use-case in mind (mobile messaging and device tracking, primarily), not a technical project just trying to build a network and hoping the use-case comes later.
This is very appealing for most people who just want something they can buy and use out of the box, like a set of walkie-talkies from Wal-Mart. Unfortunately, much like those cheap walkie-talkies in comparison to more serious technology like amateur radio, Meshtastic's core design holds the platform back from achieving its full potential.
Meshtastic's first-mover advantage is pretty hard to overcome, especially when it already works reasonably well for small, private groups like hikers or event-goers.
For a very large and public mesh, however, it's become clear to most people that Meshtastic by design is a fairly untenable solution. Some public mesh groups have increased the bandwidth available to Meshtastic by giving up some range, but it's a stop-gap solution that doesn't fix the problems Meshtastic has in this environment at the end of the day.
💡
To be perfectly upfront with you, this post will be glossing over many Meshtastic and MeshCore features, because I feel they are both non-serious solutions compared to Reticulum for reasons I will explain later on in this post. I can almost guarantee I have been running Meshtastic and MeshCore for longer and with more infrastructure than you, and in fact I still do, despite not really believing in their long-term success, so... Any omissions or "lack of problem solving" in this post are not due to a lack of knowledge, but simply because fully detailing the many problems they have is outside the scope of this article.
I think most people who are serious about public mesh networking have moved on to researching other solutions, or will have to soon.
MeshCore is one of these potential solutions some public mesh groups have begun switching to.
While Meshtastic's original design essentially floods the network with every message being sent, hoping it eventually reaches the correct destination, MeshCore has an actual routing system that can send messages only through a path of specific devices on the mesh that include the sender and recipient.
This results in a monumental reduction in radio transmissions, the advantages of which can't be understated. It makes the network less congested and more reliable, and for people who are mainly interested in messaging as opposed to sharing sensor/location data that Meshtastic remains well-suited for, it's no surprise that many larger groups have begun to shift to MeshCore.
Unfortunately, MeshCore is not a true mesh in the way public mesh enthusiasts would probably like it to be. At a very high level, devices in MeshCore are broken up into two categories: companions and repeaters.
Companion devices would be what most people use to send and receive messages, while repeaters are the devices which actually mesh with each other and extend the overall network's range. What this means is that a companion always has to be in range of a repeater to access the network, companions never relay messages between themselves on behalf of other companions.
There are advantages to this approach. MeshCore allows messages to traverse up to 64 hops away, which is an enormous real-world scale when LoRa repeaters can be many miles apart in ideal conditions. Even in the best possible case, Meshtastic's default 3-hop limit (albeit configurable up to 7) places a real limit on how far messages can spread.
It's very true that anyone can participate in MeshCore as a repeater, so all the tools to build your own mesh are certainly there. It's just that it requires some additional planning, coordination, and centralization that I don't view as totally necessary.
The bigger problem I have with MeshCore is that many parts of it are proprietary. While the underlying protocol and the firmware for some radios is open source, all of the official MeshCore clients are proprietary, and even have features paywalled.
Proprietary software is simply not disaster-ready, and that goes doubly so for software reliant on central payment processors.
I am not the type of person who needs to use open-source software 100% of the time by any means (although it'd be nice), but the only point in my mind of having an off-grid mesh network in the first place is total freedom and control, so in this particular case I simply cannot ever support a closed-source solution.
Efforts are already being made to create unofficial open source clients for MeshCore. I won't discount this fact, but at the end of the day most people in the MeshCore ecosystem will be in the official, proprietary ecosystem, and I don't think MeshCore has enough advantages, users, or reliability to warrant adopting at this very early stage of mesh networking.
We have a unique opportunity as enthusiasts to adopt the best mesh networking solution we can, before the "network effect" truly sets in and locks people in place to a particular platform. I think we can do better than Meshtastic and MeshCore.
Unfortunately, both Meshtastic and MeshCore are highly limited, and don't scale well. Meshtastic barely can scale to a regional mesh in ideal scenarios, and while MeshCore fares better here, it's still unlikely to scale to the size of many larger regions, much less countries or planets.
The thing is, Meshtastic and MeshCore are both more applications than they are protocols. They enable simple instant messaging communication over LoRa, but they don't give much thought to mesh networking applications beyond what their client apps officially support.
They're geared towards communicating with a small, local group, and any public meshes on these networks are really exceptions rather than the standard use-case.
Another problem is that Meshtastic and MeshCore both rely on LoRa pretty much exclusively.
LoRa is very cool for building ad-hoc, low-bandwidth mesh networks, and it's a blessing that we have it available in most countries as an unlicensed option we can operate on without a ham radio license, and with modern digital technologies like encryption that are mostly forbidden on amateur radio.
It's hardly the perfect solution for many scenarios though, and it is quite slow.
In a perfect world, the mesh networking/routing software would be completely independent of the physical network that connects all these devices together.
For example, I want to be able to build cheap, local LoRa networks in neighborhoods and other regional communities, and interconnect them with more powerful point-to-point microwave connections, or even fiber or the internet.
Meshtastic (and I believe MeshCore via some unofficial "gateways") have some hacky methods of interconnecting different meshes with MQTT, but the experience is quite poor and it's clear that this type of connectivity is not a first-class experience on the network. Especially on Meshtastic, bridging to the internet with MQTT can degrade the network so much that it becomes impractical to use among any more than a handful of people.
It should be possible to build a mesh routing solution that intelligently routes packets between nodes over many different types of connections, completely seamlessly so that the experience of using the mesh never changes based on your specific interface.
Luckily for us, this has already been done!
Reticulum is extremely cool.
It's a networking stack that intelligently provides strongly-encrypted routing over a wide variety of physical networks, including LoRa. Like MeshCore, it has automatic routing over paths on the network, but unlike MeshCore, those paths can traverse not only over LoRa but over any supported interface.
Additionally, like Meshtastic, Reticulum essentially works out of the box with devices operating on the same local network. Connect two devices on the same LoRa frequency and you have a functional mesh right away, with no advanced networking skills or dedicated repeaters required.
This makes Reticulum very well suited both for small, private networks like Meshtastic, and for very large networks that MeshCore tends to work better with, likely going beyond MeshCore's capabilities with promises of planetary-level scalability.
The best part is that you can easily start small with Reticulum and everything will work perfectly fine, but once a member of your small network interconnects with a different Reticulum network simultaneously, the networks can seamlessly combine, enabling complete interoperability without the need to fiddle with settings or all agree on some common radio protocol as in Meshtastic-land.
You can mix-and-match Reticulum connections over LoRa radio, your local LAN network, point-to-point Wi-Fi or microwave connections, the internet, Tor or I2P, and even over networks like packet radio for the ham enthusiasts out there.
Essentially, Reticulum can theoretically support any network you can interact with via TCP, UDP, or just a simple serial interface. It takes the bandwidth of all the networks you connect to into account when determining the best paths for messages to traverse, optimizing both for distance and to use the resources of each physical network efficiently.
Heterogeneous connectivity is Reticulum's bread and butter, basically. The project's documentation probably says it best:
In conventional networking, mixing different transport mediums typically requires gateways, translation layers, and careful configuration. A WiFi network doesn’t natively interoperate with a packet radio network without additional infrastructure, and you can’t just download a car over a serial port, or send an encrypted message in a QR code. Reticulum treats heterogeneity as a core premise. The protocol is designed to seamlessly mix mediums with vastly different characteristics [...]
For network designers, this means you are free to use whatever mediums are available, affordable, or appropriate for your situation. You might use LoRa for wide-area low-bandwidth coverage, WiFi for local high-capacity links, I2P for anonymous Internet connectivity, and Ethernet for infrastructure backhauls, all within the same network. Reticulum handles the translation and coordination automatically.
While I don't think homegrown mesh networks should be reliant on the internet or I2P in the long run, I think first-class support for connectivity over TCP and other internet protocols is still a significant advantage for people striving to build local, public mesh networks.
Distinct local groups being able to interconnect is a huge boon for content availability on the network, and the beauty is that all these network links in Reticulum automatically become redundant as more connections are made.
A local mesh in Minneapolis could interconnect with a local mesh in Chicago over the internet, for example, but perhaps in the future some dedicated network operators are also able to establish a direct connection via microwave or LoRa between those cities. Connections may normally continue to traverse the internet at higher speeds, but in the event of an outage those alternate/ad-hoc paths can take over seamlessly, because they're all just paths on the same, single Reticulum network.
In the worst case scenario, a local Reticulum mesh lacking any connections to other Reticulum networks is going to fall back to only regional content availability, which is still the most that you'll realistically get from Meshtastic and MeshCore.
Perhaps just as importantly, Reticulum enables connectivity across borders. LoRa has a bit of a problem, which is that it operates on different frequencies in different jurisdictions. While LoRa operates on 915 MHz at up to 1 watt of power in the United States, it runs at 868 MHz (or 433 MHz) at much lower power levels in much of Europe, or 923 MHz in Asia, etc.
This means that a Meshtastic or MeshCore network in Asia will never natively connect to one in Europe. Again this could be worked around with "hacky" bridge solutions like MQTT, but Reticulum would natively interconnect two different LoRa networks seamlessly as long as one common gateway point could be found: For example, an 868 MHz radio in one country connected to a 923 MHz radio in another via some other means like a fiber link, or a 2.4 GHz microwave connection, or the internet, or even packet radio. As long as some connectivity point (or multiple) can be found, then Reticulum routing between different physical networks would work seamlessly without any central servers required.
This is all possible without any sort of central coordination, which is the most important part of building a truly decentralized network. Network operators are free to create segments of the network in any way they see fit, and if/when those segments become connected, Reticulum handles the convergence of those networks automatically.
Reticulum's address space is global, and every node has a unique address guaranteed by the encryption Reticulum uses. There's no potential for different Reticulum networks to have overlapping addresses, and no need for a central authority to hand out addresses in the fashion that IANA/ARIN/RIPE/etc. hand out IP addresses on the traditional internet.
Although building the network well gives Reticulum a distinct advantage over Meshtastic and MeshCore, it is not enough to just build a network alone.
The developer of Reticulum realized this, of course, and built a number of applications that work on Reticulum seamlessly: NomadNet is one of the most popular, providing messaging, file sharing, and text-based browsing in a terminal app (which has mouse support too, thankfully).
Using a terminal won't appeal to many people though, so you can also use Sideband, a GUI app for Android and PC, or Meshchat to communicate, as well as many other apps which use Reticulum.
Fortunately, many of these communications apps work with each other, so you can choose between them at will. While you can really build essentially any app or protocol on top of Reticulum, many of the messengers standardize on a handful of homemade protocols: LXMF, LXST, and RRC.
While understanding what these protocols mean is not particularly important for people just looking to use the network, the important thing to know is that Reticulum already has an ecosystem of apps that connect with each other generally using the same underlying protocols, and provide similar functionality to Meshtastic's and MeshCore's apps for messaging and other functions.
Unfortunately, despite being what I'd consider perhaps the perfect public mesh networking platform, Reticulum has a big drawback holding it back from supplanting public MeshCore and Meshtastic networks today, and it's not the apps or anything to do with the software.
Reticulum's main problem is that it does not have dedicated firmware for LoRa radios in the same way Meshtastic and MeshCore do.
Installing Meshtastic on a cheap device like a Heltec V3 creates a full, standalone Meshtastic node capable of sending & receiving messages, and relaying data throughout the network.
With Reticulum you can use the same cheap hardware with firmware called RNode to make LoRa connections. However, Reticulum's RNode firmware functions basically as a LoRa modem for a connected computer, not as a standalone mesh node itself.
RNode is completely unintelligent, requiring a connection to a computer running Reticulum to send and receive messages and to route messages to other nodes on the Reticulum network.
For most people who would simply be using the network, this is not actually a problem. Even with Meshtastic, it is very rare for most people to try and communicate using only a standalone device (one exception being the LILYGO T-Deck).
Instead, people commonly connect their Meshtastic-enabled LoRa radios to their phones or their computers, all of which are very capable devices which could easily run Reticulum while connected to RNode if people wanted to switch.
Where this does present a real problem to Reticulum is where it comes to infrastructure.
In the world of Meshtastic and MeshCore, many people are running remote and often solar-powered nodes on high hilltops or buildings to selflessly increase the capacity of the network.
When it comes to Reticulum, these remote nodes would not only need a LoRa radio running RNode, but a full computer running Reticulum to enable the mesh capabilities. This computer could be as simple as a Raspberry Pi Zero, but even that level of additional price and added power consumption makes this setup fairly untenable for many unattended installations, especially solar-powered ones.
Progress is being made on this front. In particular, a port called microReticulum for ESP32 and better devices is continually being developed. I really hope it succeeds, because the ability for current Meshtastic and MeshCore operators to switch to Reticulum routing with no additional hardware necessary could instantly, radically boost the adoption of a much more capable public mesh network like Reticulum in many communities.
There's work to be done here, but at the end of the day Reticulum is the only solution that promises to let people create local networks, large and small, and interconnect those networks organically into a seamless, global mesh.
It's a killer feature that I think many people intuitively want from Meshtastic and MeshCore, but that those networks will never actually be able to provide.
I see a lot of advantages to all three of these apps. Meshtastic is really slick for a group of hikers who just want to text and share GPS easily instead of using voice walkie-talkies. MeshCore has some compelling features for local/neighborhood messaging, perhaps off-grid messaging at a large event like DEF CON.
If that's your use-case, then cool, but I am begging people with grander ambitions in the mesh networking space to focus on the most practical solution to the problem here.
There are many groups creating a region-wide or larger public Meshtastic network, when it is simply the wrong solution to the problem at hand, and this should be self-evident to anyone who's tried to use Meshtastic in this scenario.
I think many people get swept up in "collecting nodes" on Meshtastic and the thrill of seeing as many "connected" devices as they possibly can, but at least in my local area I see little consideration to how well-connected and functional the network actually is. When you look beyond being simply aware of nodes in your local area, and actually try to interact with those nodes, failed messages and communication issues are common.
Reticulum offers not just a messenger app or a way to share GPS & other sensor data, but a full-fledged alternative to the internet itself. This enables critical applications that would not be possible on Meshtastic and MeshCore.
For example, I can share access to any Kiwix file, including the entirety of Wikipedia, to anyone on Reticulum, which would make quick information sharing a breeze in a disaster scenario.
All of this is why I'm settling on Reticulum for what I want to build and see in the world. If other people are interested, I'll share more details about what I'm actually working on building myself here, and other mesh topics.
And certainly if you're in Northeast Minneapolis, get in touch. God only knows how critical tools like this could quickly become around here, and it's better to prepare today than be forced to learn all of this tomorrow 🙂