# this file is only used in the position_setpoint triple as a dependency uint64 timestamp # time since system start (microseconds) uint8 SETPOINT_TYPE_POSITION=0 # position setpoint uint8 SETPOINT_TYPE_VELOCITY=1 # velocity setpoint uint8 SETPOINT_TYPE_LOITER=2 # loiter setpoint uint8 SETPOINT_TYPE_TAKEOFF=3 # takeoff setpoint uint8 SETPOINT_TYPE_LAND=4 # land setpoint, altitude must be ignored, descend until landing uint8 SETPOINT_TYPE_IDLE=5 # do nothing, switch off motors or keep at idle speed (MC) uint8 SETPOINT_TYPE_OFFBOARD=6 # setpoint in NED frame (x, y, z, vx, vy, vz) set by offboard uint8 SETPOINT_TYPE_FOLLOW_TARGET=7 # setpoint in NED frame (x, y, z, vx, vy, vz) set by follow target uint8 VELOCITY_FRAME_LOCAL_NED = 1 # MAV_FRAME_LOCAL_NED uint8 VELOCITY_FRAME_BODY_NED = 8 # MAV_FRAME_BODY_NED bool valid # true if setpoint is valid uint8 type # setpoint type to adjust behavior of position controller float32 x # local position setpoint in m in NED float32 y # local position setpoint in m in NED float32 z # local position setpoint in m in NED bool position_valid # true if local position setpoint valid float32 vx # local velocity setpoint in m/s in NED float32 vy # local velocity setpoint in m/s in NED float32 vz # local velocity setpoint in m/s in NED bool velocity_valid # true if local velocity setpoint valid uint8 velocity_frame # to set velocity setpoints in NED or body bool alt_valid # do not set for 3D position control. Set to true if you want z-position control while doing vx,vy velocity control. float64 lat # latitude, in deg float64 lon # longitude, in deg float32 alt # altitude AMSL, in m float32 yaw # yaw (only for multirotors), in rad [-PI..PI), NaN = hold current yaw bool yaw_valid # true if yaw setpoint valid float32 yawspeed # yawspeed (only for multirotors, in rad/s) bool yawspeed_valid # true if yawspeed setpoint valid float32 loiter_radius # loiter radius (only for fixed wing), in m int8 loiter_direction # loiter direction: 1 = CW, -1 = CCW float32 pitch_min # minimal pitch angle for fixed wing takeoff waypoints float32 a_x # acceleration x setpoint float32 a_y # acceleration y setpoint float32 a_z # acceleration z setpoint bool acceleration_valid # true if acceleration setpoint is valid/should be used bool acceleration_is_force # interprete acceleration as force float32 acceptance_radius # navigation acceptance_radius if we're doing waypoint navigation float32 cruising_speed # the generally desired cruising speed (not a hard constraint) float32 cruising_throttle # the generally desired cruising throttle (not a hard constraint)