LoRa would go much farther than Wifi on 2.4ghz. Lora uses Chirp Spread Spectrum (CSS) modulation while wifi uses OFDM (Orthogonal Frequency Division Multiplexing). The first being designed for extreme range while the latter for bandwidth. At 2.4ghz you could probably get LoRa connections up to 6 miles with the right antenna height.

> would propagate about the same right?

No. Free space loss increases with frequency.

FSP loss for 915 MHz at 10 kms is ~ -111.67 dB while for 2.4 GHz is -120 dB.

That is a 9 dB loss which is significant. It could mean the difference between a copy or just plain static though the LoRa is supposed to be copyable down to -140 dBm.

The max tx power is around 150 mW (21.76 dBm), so at 10 kms, the RSSI is 21.76-120 = -98.24 dBm which is above the -140 dBm limit.

This calculation is assuming there is no loss due to vegetation or humidity or other barriers.

...or have line of sight at least. But yes higher frequencies have a bigger issue with this. A great mesh network for people who live on hill tops

"Going through things" isn't always necessary / is avoidable in some deployments. And 2.4GHz signals can propagate an okay distance between nodes if there aren't things to go through. (Globalstar's emergency SOS satellite constellation uses the n53 band, which is right above the 2.4GHz "wi-fi" band, and it propagates between handsets and LEO through 1400km of air just fine.)

So you could probably pull off a 2.4GHz mesh outdoors in rural areas? It'd be feasible in the same places a microwave-laser hilltop-to-hilltop link would, but instead of "fast but point-to-point" it's "slow but meshed" (and with much larger tolerance for slop — you don't need to put everything on fixed masts so they have perfect line-of-sight, you can just stick them on the tops of trees or whatever and if they wave in the wind it still works.)

Mind you, the authors' motivating use-case for the hardware seems to be their project (https://github.com/datapartyjs/MeshTNC) to (AFAICT) bridge LoRa (or some specific LoRa L2 protocol — Meshtastic, probably?) to packet radio, i.e. digital packet-switched signalling over amateur (HAM) radio bands.

In that context, the tradeoff of high throughput for low propagation makes sense. Insofar as you're working with LoRa, and want to build and experiment with a bunch of site-local devices that mesh between themselves and interoperate with LoRa data-link protocols, you'd likely be speaking something like LoRA over 2.4GHz (LoRa itself doesn't spec a way to do that, but you could make it happen within the closed ecosystem of your own home/office.)

And in that context, you could use a MeshTNC device as something like "LoRaLAN" router. It'd be something you'd keep somewhere central in your house (like a wi-fi router), plugged into power + an antenna (internal to your house, like a wi-fi router) and plugged into a packet-radio transceiver with its own even-bigger antenna, outside your house. (Like a wi-fi router being plugged into a gateway modem on its upstream WAN port.)

This MeshTNC device would then pick up signals from:

- regular LoRaWAN IoT devices and Meshtastic handsets in your building

- more custom devices in your building†, that you've built yourself, that use another MeshTNC module; where these other devices do their part of the meshing only on the 2.4GHz band, which means they don't need big fiddly external antennas like LoRa devices do, but can be quite compact

- and possibly, a separate bidirectional LoRa repeater (made from any existing "high-gain" LoRa module, i.e. the kind used in mains-powered LoRaWAN base stations) — which brings in LoRa mesh traffic from outside your building, and picks up and carries away "destined for elsewhere in this area" LoRa mesh traffic that your "LoRaLAN" device has emitted (either due to forwarding it from your 2.4GHz-only mesh handsets/devices, or due to forwarding it after receiving it from packet radio.)

Though keep in mind you only need that complexity for the 2.4GHz-only mesh devices, since there isn't an existing mesh to forward those packets. But this whole setup is still also a regular LoRa mesh, and so you can still use regular LoRa (e.g. meshtastic) handsets, and put out packets that make their way through your regional mesh, back to the packet-radio bridge in your building; and from there to who-knows-where.

† To be clear, the 2.4GHz mesh handsets would only work reliably inside your building (if the 2.4GHz antenna is inside your building); but knowing HAMs, half the point would be seeing how far away you could get from your house/office and have your 2.4GHz mesh handsets keep working. (You'd probably want to have a second MeshTNC "base station" with a building-external antenna to try that. Pleasantly, that doesn't complicate the topology; it's all still just mesh, so you can just drop that in.)