# Optical flow in XYZ body frame in SI units. # http://en.wikipedia.org/wiki/International_System_of_Units uint64 timestamp # time since system start (microseconds) uint8 sensor_id # id of the sensor emitting the flow value float32 pixel_flow_x_integral # accumulated optical flow in radians where a positive value is produced by a RH rotation about the X body axis float32 pixel_flow_y_integral # accumulated optical flow in radians where a positive value is produced by a RH rotation about the Y body axis float32 gyro_x_rate_integral # accumulated gyro value in radians where a positive value is produced by a RH rotation about the X body axis. Set to NaN if flow sensor does not have 3-axis gyro data. float32 gyro_y_rate_integral # accumulated gyro value in radians where a positive value is produced by a RH rotation about the Y body axis. Set to NaN if flow sensor does not have 3-axis gyro data. float32 gyro_z_rate_integral # accumulated gyro value in radians where a positive value is produced by a RH rotation about the Z body axis. Set to NaN if flow sensor does not have 3-axis gyro data. float32 ground_distance_m # Altitude / distance to ground in meters uint32 integration_timespan # accumulation timespan in microseconds uint32 time_since_last_sonar_update # time since last sonar update in microseconds uint16 frame_count_since_last_readout # number of accumulated frames in timespan int16 gyro_temperature # Temperature * 100 in centi-degrees Celsius uint8 quality # Average of quality of accumulated frames, 0: bad quality, 255: maximum quality float32 max_flow_rate # Magnitude of maximum angular which the optical flow sensor can measure reliably float32 min_ground_distance # Minimum distance from ground at which the optical flow sensor operates reliably float32 max_ground_distance # Maximum distance from ground at which the optical flow sensor operates reliably