This adds explicit handling for the few things we want to allow through a MAVLink instance dedicated to a gimbal/(camera) payload as per the MAVLink gimbal mode configuration.
- warn about full traffic conflict buffer at 1/60hz.
- add conflict expiry for buffer.
- use only events for buffer full warning. mavlink_log_critical no longer needed.
- use icao address for conflict warnings id, stop using uas_id. UTM_GLOBAL_POSITION assumed deprecated.
- stop spamming when buffer is full
- fix warning wording if buffer is full.
- remove UTM_GLOBAL_POSITION
Fixes failing unit test:
* [adsbTest] Reduce conflict timestamps - not enough time has passed in ci
- failed ci output - (passes locally with make tests TESTFILTER=AdsbConflict)
- Timestamp: 6000000000
- Time now: 457720038
- Time since timestamp: 0
- Old Conflict warning expired: 0
- --------------------
- adsb_conflict._traffic_state 0
- ../../src/lib/adsb/AdsbConflictTest.cpp:244: Failure
- Value of: adsb_conflict._traffic_state == TRAFFIC_STATE::REMIND_CONFLICT
- Actual: false
- Expected: true
When the yaw estimate is converging, the controller makes the drone yaw
in order to follow the current setpoint. This is unintuitive for the
pilot and it is preferable if the drone continues to fly towards the
same physical direction.
In the mavlink_receiver code, after a while it will try to resend some
parameter update through the MAVLink instance. But for Iridium links
those are not a good idea. So this adds a condition that prevent the
sending if the MAVLink instance is in Iridium mode.
Related to issue #21496
Camera controls should not happen through the flight controller, and
the control allocation has no means of controlling the camera zoom.
Signed-off-by: Silvan Fuhrer <silvan@auterion.com>
In review it was requested to have a different name for
manual_control_setpoint.z because of the adjusted range.
I started to investigate what naming is most intuitive and found
that most people recognize the stick axes as roll, pitch, yaw, throttle.
It comes at no surprise because other autopilots
and APIs seem to share this convention.
While changing the code I realized that even within the code base
the axes are usually assigned to a variable with that name or
have comments next to the assignment clarifying the axes
using these names.
To be consistent with all other axes of stick input and avoid future
rescaling confusion.
Note: for the MAVLink message 69 MANUAL_CONTROL it's using the full range
according to the message specs now [-1000,1000].
The CameraFeedback module used only the vehicle attitude for the camera orientation so far. With this change, the gimbal_device_attitude_status is used to compute the global camera orientation when a gimbal is used.
- replace float32[21] URT covariances with smaller dedicated position/velocity/orientation variances (the crossterms are unused, awkward, and relatively costly)
- these are easier to casually inspect and more representative of what's actually being used currently and reduces the size of vehicle_odometry_s quite a bit
- ekf2: add new helper to get roll/pitch/yaw covariances
- mavlink: receiver ODOMETRY handle more frame types for both pose (MAV_FRAME_LOCAL_NED, MAV_FRAME_LOCAL_ENU, MAV_FRAME_LOCAL_FRD, MAV_FRAME_LOCAL_FLU) and velocity (MAV_FRAME_LOCAL_NED, MAV_FRAME_LOCAL_ENU, MAV_FRAME_LOCAL_FRD, MAV_FRAME_LOCAL_FLU, MAV_FRAME_BODY_FRD)
- mavlink: delete unused ATT_POS_MOCAP stream (this is just a passthrough)
Co-authored-by: Mathieu Bresciani <brescianimathieu@gmail.com>
- As it is always only used for the vehicle command ack message
- It was a duplicate, hence making it error prone for maintainment
- The uORB message comments were updated to make the relationship with
the MAVLink message / enum definitions clear
- all sources of optical flow publish sensor_optical_flow
- sensor_optical_flow is aggregated by the sensors module, aligned with integrated gyro, and published as vehicle_optical_flow
Co-authored-by: alexklimaj <alex@arkelectron.com>
- sensor_baro.msg use SI (pressure in Pascals)
- update all barometer drivers to publish directly and remove PX4Barometer helper
- introduce baro cal (offset) mainly as a mechanism to adjust
relative priority
- commander: add simple baro cal that sets baro offsets to align with
GPS altitude (if available)
- create new sensors_status.msg to generalize sensor reporting
If we receive gimbal_device_attitude_status by mavlink we should not
re-send it as we are already supposed to be forwarding mavlink traffic
from the gimbal to the ground station.
