This project provides hardware and software to create a Data-Acquisition and Presentation System for Gliders including data output to Flight Management Systems like XCsoar.

• The documentation starting point is here: https://github.com/larus-breeze/doc_larus

• 57mm display unit. With transflective 2" display or a round 2.1" Display, STM32H7 and Rust firmware.

Sensor hardware containing an IMU, pressure sensors and a (D-)GNSS The sensor firmware is providing essential information for glider navigation like

• Position (Precision GNSS),
• AHRS = Attitude including true heading, optionally with D-GNSS satellite-based heading
• GNSS/INS-based ultra-fast variometer
• Real-time wind measurement
• Air-density measurement
• Automatic 3D high precision compass calibration
• Worldwide automatic adaption to the local magnetic induction parameters using NOAA data
• Connectivity via CAN, Bluetooth or WLAN, RS232 and USB

The Larus project maintains a Software-In-The-Loop SIL-Simulator to test and qualify algorithms.

Some more details about the features can be found under algorithms.

The sensor unit can also be used as a universal data logger for manned or UAV test flights with a sampling-rate of 100 Hz. The logger can write it's data to a micro-sd with a virtually unlimited capacity.

Fully assembled unit with single GNSS

DGNSS (Sat Compass) Larus Sensor