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APRS 434 — Extend your LoRa range by saving bytes.

Welcome to the home of APRS 434 tracker, the 434 MHz LoRa APRS amateur radio GPS tracker that extends range by saving bytes.

Unlike other ham radio LoRa APRS trackers, this tracker aims at deploying LoRa the way it was intended; namely by being frugal about the number of bytes put on air. Doing so, results in a number of benefits:

  • Increased battery life,
  • Higher chances of good packet reception,
  • Hence, increased range,
  • Lower probability of packet collisions,
  • Therefore, more channel capacity.

To learn more about APRS 434 data link compression, visit aprs434.github.io.

Supported Tracker Hardware

The APRS 434 LoRa tracker firmware is developed for the relatively cheap Espressif ESP32-based LoRa GPS trackers made by TTGO. These are available from Aliexpress, Amazon or eBay.

Supported 433 MHz LoRa GPS tracker hardware:

  • TTGO T-Beam v0.7 433 MHz SX1278
  • TTGO T-Beam v1 433 MHz SX1278

⚠ Please, make sure to order a 433 MHz version!

TTGO T-Beam

Firmware Compilation and Configuration

Quick Start Guides

Compilation

The best success is to use PlatformIO (and it is the only platform where I can support you).

  • Go to PlatformIO download and install the IDE.
  • If installed open the IDE, go to the left side and klick on 'extensions' then search for 'PatformIO' and install.
  • When installed click 'the ant head' on the left and choose import the project on the right.
  • Just open the folder and you can compile the Firmware.

Configuration

  • You can find all nessesary settings to change for your configuration in data/tracker.json.
  • The button_tx setting enables manual triggering of the beacon using the middle button on the T-Beam.
  • To upload it to your board you have to do this via Upload File System image in PlatformIO!
  • To find the 'Upload File System image' click the PlatformIO symbol (the little alien) on the left side, choos your configuration, click on 'Platform' and search for 'Upload File System image'.

LoRa APRS i-Gate

Currently, the APRS 434 tracker is still compatible with the i-gate developed by Peter Buchegger, OE5BPA. However, this will soon change as more LoRa frame compression is added.

We feel confident that trackers with the proposed APRS 434 compressed LoRa frame will eventually become dominant because of the longer range merit. To smooth out the transition, we are developing an i‑gate capable of understanding both formats; i.e. compressed APRS 434 and longer, legacy OE5BPA.

It is strongly advised to install the accompanying APRS 434 i-gate as new releases will be automatically pulled over‑the‑air (OTA) via WiFi.

Development Road Map

Data Link Layer

tracker
firmware
completed feature LoRa payload compatible with OE5BPA i‑gate
v0.0.0 original OE5BPA tracker 113 bytes
v0.1.0 byte-saving tracker.json 87 bytes
v0.2.0 fork of the OE5BPA tracker
with significantly less transmitted bytes
44 bytes
v0.3.0 Base91 compression of location, course and speed data 31 bytes
v0.4.0 removal of the transmitted newline \n character at frame end 30 bytes
random time jitter between fixed interval packets to avoid repetitive collisions 30 bytes
tracker and i-gate with frame address compression,
no custom header in payload
18 bytes use the APRS 434 i‑gate

Currently, the APRS 434 tracker is still compatible with the i-gate developed by Peter Buchegger, OE5BPA. However, this will soon change as more LoRa frame compression is added.

We feel confident that trackers with the proposed APRS 434 compressed LoRa frame will eventually become dominant because of the longer range merit. To smooth out the transition, we are developing an i‑gate capable of understanding both formats; i.e. compressed APRS 434 and longer, legacy OE5BPA.

It is strongly advised to install the accompanying APRS 434 i-gate as new releases will be automatically pulled over‑the‑air (OTA) via WiFi.

Tracker Hardware

tracker
firmware
completed feature
v0.3.1 coordinates displayed on screen
reduced power consumption through SH1106 OLED sleep
button press to activate OLED screen
ESP32 power reduction

Messaging

At first, only uplink messaging to an i-gate will be considered. This is useful for status updates, SOTA self‑spotting, or even emergencies.

On the other hand, bidirectional messaging requires time division multiplexing between the up- and downlink, based on precise GPS timing. That is because channel isolation between different up- and downlink frequencies probably would require costly and bulky resonant cavities.

tracker
firmware
completed feature
add a library for the Xbox 360 Chatpad keyboard
support for the M5Stack CardKB Mini keyboard

WiFi Geolocation

TBD