Astro offers several flight modes with varying levels of assistance to the pilot.
Flight mode can be changed via the pilot's handset and the AMC app on Herelink or PC. See the documentation for the equipment you're using to become familiar with the buttons/switches involved.
Manual Mode may be necessary to react to emergency situations. Pilots should be proficient in Manual Mode. Position, Altitude, and Return Mode are assistive only and are not a replacement for pilot skill and preparedness.
Always neutralize the control input sticks on the pilot handset when switching between control modes to prevent unexpected aircraft movement.
In Position Mode, when the sticks are centered, the aircraft will maintain its position over a point on the ground and maintain altitude, correcting for disturbances.
In Position Mode, the pitch/roll stick commands the speed of the drone relative to the ground. The further upward the pitch/roll stick, the faster Astro will fly forward. When the pitch/roll stick is pulled downward, Astro will fly backward. Similarly, the pitch/roll stick will move the drone in the left and right directions when moved to the left and right.
The throttle stick commands vertical speed. The further upward the throttle stick, the faster Astro will climb. Conversely, the lower the throttle stick position, the faster Astro will descend. Deflecting the throttle stick left and right controls the yaw rate, with the speed of rotation proportional to stick deflection.
Position Mode requires a strong GPS signal. If a weak signal is present, Astro will not enter Position Mode.
If the signal deteriorates, such as near buildings or under dense tree cover, the aircraft will automatically revert to Altitude mode.
Flight using Position Mode in areas of degraded GPS signal, such as near buildings or under dense tree cover, is not recommended. The automatic reversion to Altitude Mode can cause unexpected, abrupt changes in flight behavior.
Similarly to Position mode, the pitch/roll stick moves Astro laterally relative to the ground and the throttle stick commands vertical speed and yaw. However, while the drone is able to hold its vertical position using the barometer and GPS, lateral speed is not controlled by the autopilot in Altitude mode. Astro will drift with the wind, will not stop immediately after lateral movement, and will probably not hold a single point above the ground without pilot input.
The aircraft holds altitude above Mean Sea Level (MSL) by default. It is not aware of terrain height changes or obstacles without additional configuration and equipment.
In Manual Mode, when the pitch and roll stick is centered, the aircraft will attempt to remain level, and will drift with the wind. The aircraft will require constant throttle adjustment to hold altitude.
In Manual Mode, the pitch and roll stick controls aircraft angle. The further upward the pitch stick, the further Astro will tilt forward. When the pitch stick is pulled downward, Astro will tilt backward. Similarly for roll in the left and right directions. Lateral speed is not controlled by the autopilot.
The throttle stick controls motor speed directly. Deflecting the throttle stick left and right controls yaw rate. The speed of yaw rotation is proportional to stick deflection.
The hover throttle setting controls the amount of thrust Astro produces when the throttle stick is centered. The default setting of 34% will hover the aircraft with no payload. A setting of approximately 40% will hover with 1500 grams of payload.
Adjust this setting in AMC Herelink or PC:
Enable Advanced Mode (tap logo top left many times)
Vehicle Setup > Tuning
Return Mode commands Astro to climb to the Return Altitude, fly back to the Home Point in a straight line, and land. Return Mode requires GPS.
Return Altitude is set by the pilot at AMC > Vehicle Setup > Safety. Please note that if Astro is above the Return Altitude when Return Mode is initiated, it will maintain altitude instead of dropping to the return altitude.
The Home Point is set to the GPS coordinates where Astro is armed. Home Point is reset every time Astro is armed.
By default, Return Mode is activated automatically by some Failsafes. Learn more about Failsafes.
Before every flight, think through the path the aircraft will take if Return Mode is activated, and adjust settings to arrange for safe behavior.
For example, activating Return Mode while flying under an obstacle lower than the Return Altitude will cause a collision when the aircraft attempts to climb to Return Altitude. In some cases, it may be possible to set a lower Return Altitude, and in other cases, it may not be possible to use Return Mode.
It is possible to change from Return to Position Mode by moving the sticks, except if Return Mode was activated by the low battery failsafe. In that case, press another flight mode button to change out of Return Mode.
Takeoff Mode arms the aircraft, automatically climbs to the Takeoff Altitude, and enters Hold Mode (a.k.a. loiter or hover).
Takeoff Mode can be engaged via the button in the AMC app Fly view, optionally changing Takeoff Altitude via the slider, then holding/sliding to confirm. Takeoff Mode can also be engaged during a mission, for example as the first command.
Takeoff Mode requires GPS lock.
Moving the sticks while in Hold Mode (i.e. after the aircraft has finished climbing) will cause a change to Position Mode. This makes it easy to take control without pressing the Position Mode button.
Landing Mode causes Astro to descend and land directly below the position where Land Mode is engaged. Once on the ground, Astro will disarm.
Landing mode can be engaged via the button on the AMC app Fly screen. You'll need to hold the button down to confirm the switch.
Landing Mode is often the last command in a mission. It can also be engaged by a failsafe, such as low battery level, or loss of signal.
Land Mode requires GPS when engaged manually.
When Land Mode is engaged by a failsafe, and GPS is not available, the autopilot behavior will be similar to Altitude Mode and the aircraft may drift horizontally as it descends.
Moving the sticks will cause a change to Position Mode unless Landing Mode is engaged by a Failsafe (e.g. critical battery level). See Safety and Failsafes section for more detail.
When activated by a low battery failsafe, Return and Landing Mode cannot be overridden by stick movement. They can be overridden by pressing a flight mode button (e.g. Position).
Mission Mode allows Astro to execute a predefined autonomous waypoint mission that has been uploaded to the flight controller via AMC. For more information on all the different options and abilities built into the Mission Mode, see the AMC docs, sections such as:
Starting a mission can cause the aircraft to arm itself and take off without any further pilot input. Before starting a mission, ensure that the aircraft is clear of obstacles in the propeller arc and flight path.
If a mission is interrupted (for example, by the pilot switching to Position mode), the Fly view will prompt to resume the mission. If a prompt is not shown, open the Action Menu and select "Resume Mission".
Moving the sticks will cause a change to Position Mode. This makes it easy for the pilot to take control if needed.
Astro must have a GPS lock before takeoff to set a valid home position in order to start a mission. Mission mode will be unavailable if the aircraft took off before a GPS lock was achieved. The pilot must land and rearm with GPS lock to enable it.