Casually Chirping Into the World of LoRaWAN
canopic jug writes:
Hackaday has an article summarizing how LoRaWAN works, using home appliances as an example. LoRaWAN is a proprietary, bidirectional, RF broadcasting technology with very low data capacity. It can have a range of around 10 kilometers yet is low power enough to be feasible to use on embedded devices. It competes against the DASH7, Sigfox, and NB-IoT protocols.
While wireless communications are unquestionably useful in projects, common wireless protocols such as WiFi and Bluetooth peter out after only a number of meters, which is annoying when your project is installed in the middle of nowhere. Moving to an LTE-based or similar mobile solution can help with the range, but this does not help when there's poor cell coverage, and it tends to use more power. Fortunately, for low-bitrate, low-power wide-area networks (LPWAN) like e.g. sensor networks, there's a common solution in the form of LoRaWAN, as in long-range wide area network (WAN).
The proprietary LoRa RF modulation technique that underlies LoRaWAN is based on Chirp Spread Spectrum (CSS). This modulation technique is highly resistant to channel noise and fading as well as Doppler shift, enabling it to transmit using relatively low power for long distances. LoRaWAN builds on top of the physical layer provided by LoRa to then create the protocol that devices can then use to communicate with other LoRa devices.
Courtesy of global LoRaWAN gateway and software providers such as The Things Industries and ThingSpeak, it's possible even as a hobbyist to set up a LoRaWAN-powered sensor network with minimal cost. Let's take take a look at exactly what is involved in setting up LoRaWAN devices, and what possible alternatives to LoRaWAN might be considered.
Read more of this story at SoylentNews.