Sensor readings and in-run biases in SI-unit form. Sensor readings are compensated for static offsets, scale errors, in-run bias and thermal drift (if thermal compensation is enabled and available).
## Sensor readings and in-run biases in SI-unit form. Sensor readings are compensated forstatic offsets,# scale errors, in-run bias and thermal drift (if thermal compensation is enabled and available).#uint64 timestamp # time since system start (microseconds)uint64 timestamp_sample # the timestamp of the raw data (microseconds)# In-run bias estimates (subtract from uncorrected data)uint32 gyro_device_id # unique device ID for the sensor that does not change between power cyclesfloat32[3] gyro_bias # gyroscope in-run bias in body frame (rad/s)float32 gyro_bias_limit # magnitude of maximum gyroscope in-run bias in body frame (rad/s)float32[3] gyro_bias_variancebool gyro_bias_validbool gyro_bias_stable # true when the gyro bias estimate is stable enough to use for calibrationuint32 accel_device_id # unique device ID for the sensor that does not change between power cyclesfloat32[3] accel_bias # accelerometer in-run bias in body frame (m/s^2)float32 accel_bias_limit # magnitude of maximum accelerometer in-run bias in body frame (m/s^2)float32[3] accel_bias_variancebool accel_bias_validbool accel_bias_stable # true when the accel bias estimate is stable enough to use for calibrationuint32 mag_device_id # unique device ID for the sensor that does not change between power cyclesfloat32[3] mag_bias # magnetometer in-run bias in body frame (Gauss)float32 mag_bias_limit # magnitude of maximum magnetometer in-run bias in body frame (Gauss)float32[3] mag_bias_variancebool mag_bias_validbool mag_bias_stable # true when the mag bias estimate is stable enough to use for calibration
