If I live in one state and my parents live a few states over, would I be able to use this network to communicate with them? Not sure if this is a mesh network for long range routing.
If I live in one state and my parents live a few states over, would I be able to use this network to communicate with them? Not sure if this is a mesh network for long range routing.
Hmm, you’re right, I guess I don’t mean the distance of the link by itself, but rather the fact that the number of hops and the dependence on central (?) high-power long-range nodes limits how far a message can go
While technically a mesh network, I’m not sure that with 3-7 hops it provides the benefits of one; in theory, just by being mesh it should be able to have a much larger (unlimited?) reach, just like the Internet.
Instead, from what I understand, user nodes are recommended to not participate in the routing, = they are just clients, but by being “mesh” they would be expected to actively participate in the network.
In this sense of “peer-to-peer”, we could say that my ISP is also a peer, and if it lost the connection to all other ISPs it could still continue working within the reach of its infrastructure, = my ISP is off-grid as well, and my connection to the ISP is independent since they own the fiber
Instead, I think the focus should be on building a distributed mesh network that is resilient and can’t be taken down by the failure of a couple of nodes. Similarly, with the dependence on LoRa radios: if e.g. the import or usage specifically of LoRa™®© chips is banned, the nodes who chose to use alternative technologies would not be affected and the network could continue to operate normally
@gkaklas My take is that for the given constraints (low-power, cheap, low-bandwidth) it works pretty well. If you want a more flexible (but way less beginner-friendly) mesh, have a look at reticulum, that can use all kinds of transport technologies.
Of course! I’m just curious about 1) what are the real world use cases (e.g. my farm example) and 2) how come Meshtastic™®© is so popular with people who experiment with RF but don’t have these constraints; how come that having a couple of points of failure (either in the nodes or the technology) and not being able to experiment outside of LoRa™®© is not more of an issue
(For example I found:)
I was looking into it, seems more like what I have in mind, thank you!