deploying_lorawan
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deploying_lorawan [2017/04/30 14:45] – [1.2. Arduino with Dragino Shield] samer | deploying_lorawan [2017/05/02 16:58] – [3.1. Loraserver] samer | ||
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====== Deploying an End-to-End LoRaWAN Platform ====== | ====== Deploying an End-to-End LoRaWAN Platform ====== | ||
- | Starting from September 2016, Saint-Joseph University of Beirut (USJ) will be deploying the first academic [[http:// | + | Starting from September 2016, Saint-Joseph University of Beirut (USJ) will be deploying the first academic [[http:// |
- | [{{ : | + | * Devices that communicate to one or more gateways via a wireless interface using single hop LoRa and implementing the LoRaWAN protocol. These devices are physically connected to sensors that generate data. |
+ | * Gateways or base stations that forward frames between | ||
+ | * A LoRAWAN backend that implements the network server functions and provides frame control and security. | ||
+ | * Applications that enable to visualize and store the sensor data obtained from the devices. | ||
+ | [{{ : | ||
===== -. Devices ===== | ===== -. Devices ===== | ||
==== -. Autonomo with LoRaBee ==== | ==== -. Autonomo with LoRaBee ==== | ||
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</ | </ | ||
==== -. Arduino with Dragino Shield ==== | ==== -. Arduino with Dragino Shield ==== | ||
+ | === -. Periodic Message Sending === | ||
- | Devices in the LoRaWAN platform can also be implemented on Arduino boards with Dragino shields. The combined module as well as the basic configuration steps are presented in [[simple_lora_prototype|Simple Prototype of LoRa Communications]]. | + | Devices in the LoRaWAN platform can also be implemented on Arduino boards with Dragino shields. The combined module as well as the basic configuration steps are presented in [[simple_lora_prototype|Simple Prototype of LoRa Communications]]. |
The pin mapping corresponds to the Dragino electronic schematic: | The pin mapping corresponds to the Dragino electronic schematic: | ||
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</ | </ | ||
- | This send function is initially scheduled here: | + | The send function is initially scheduled here: |
<code c++> | <code c++> | ||
do_send(& | do_send(& | ||
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LMIC_setDrTxpow(DR_SF7, | LMIC_setDrTxpow(DR_SF7, | ||
</ | </ | ||
+ | |||
+ | === -. Triggered Message Sending === | ||
+ | |||
+ | You can also find another example of sketch to download: {{ : | ||
===== -. Gateways ===== | ===== -. Gateways ===== | ||
==== -. Single Channel Gateway ==== | ==== -. Single Channel Gateway ==== | ||
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</ | </ | ||
- | Now, you need to configure the single channel packet forwarder. This is done in the '' | + | Now, you need to configure the single channel packet forwarder. This is done in the {{ : |
- | + | ||
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Finally, you can run the packet forwarder as root! | Finally, you can run the packet forwarder as root! | ||
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===== -. Backend ===== | ===== -. Backend ===== | ||
==== -. Loraserver ==== | ==== -. Loraserver ==== | ||
+ | |||
+ | The Loraserver has a web interface for configuring the devices on | ||
==== -. The Things Network ==== | ==== -. The Things Network ==== | ||
===== -. Applications ===== | ===== -. Applications ===== | ||
- | ==== -. MQTT spy ==== | + | ==== -. mqtt-spy ==== |
+ | |||
+ | mqtt-spy is an open source utility intended to help you with monitoring activity on MQTT topics. It has been designed to deal with high volumes of messages, as well as occasional publications. mqtt-spy is a JavaFX application, | ||
+ | You can use mqtt-spy to debug the messages received from the LoRaWAN devices. For this, you should download the software tool from [[https:// | ||
==== -. Emoncms ==== | ==== -. Emoncms ==== |
deploying_lorawan.txt · Last modified: 2021/08/28 09:50 by samer