This is a simple sketch demonstrating the capability of the TTGO T-Beam as a TTN Mapper Node on The Things Network LoraWAN.
Derived from sbiermann/Lora-TTNMapper-ESP32 and with some information/inspiration from cyberman54/ESP32-Paxcounter and Edzelf/LoRa.
You need to connect the T-Beam DIO1 pin marked Lora1 to the pin 33 - So that the ESP32 can read that output from the Lora module. Optionally you can also connect the Lora2 output to GPIO 32, but this is not needed here.
Change config.h to match your settings then run
pio run -t upload
This will fetch the required libs and install the code onto the board
On The Things Network side, the settings needed are available here.
Configure the Payload decoder with:
function Decoder(bytes, port) {
var decoded = {};
decoded.latitude = ((bytes[0]<<16)>>>0) + ((bytes[1]<<8)>>>0) + bytes[2];
decoded.latitude = (decoded.latitude / 16777215.0 * 180) - 90;
decoded.longitude = ((bytes[3]<<16)>>>0) + ((bytes[4]<<8)>>>0) + bytes[5];
decoded.longitude = (decoded.longitude / 16777215.0 * 360) - 180;
var altValue = ((bytes[6]<<8)>>>0) + bytes[7];
var sign = bytes[6] & (1 << 7);
if(sign)
{
decoded.altitude = 0xFFFF0000 | altValue;
}
else
{
decoded.altitude = altValue;
}
decoded.hdop = bytes[8] / 10.0;
return decoded;
}
Stop sending data to TTN until the GPS get a fix.<== Done thanks to @Roeland54Switch to the maintained versionof the arduino-lmic library. <==Done- Manage and document the different T-Beam revisions/versions.
- Switch to OTAA auth method for TTN and save the 'credentials' for reboot use.
- SPIFFS FS
- Save and reload the frame counter somewhere - GPS RTC data ? SPIFFS ? EEPROM ? - so I can check the "Frame Counter Checks" box as recommended on TTN.
- Also save the GPS 'status' so that on next boot it gets a fix faster.
- Reduce the power needed ! That thing is a power hog currently, we need to make it sleep most of the time as possible.
- Adapt the data send frequency based on current velocity : When not moving, an update per hour should be enough.