APM:Plane 3.3.0 released
The ardupilot development team is proud to announce the release of version 3.3.0 of APM:Plane. This is a major release with a lot of changes. Please read the release notes carefully!
The last stable release was 3 months ago, and since that time we have applied over 1200 changes to the code. It has been a period of very rapid development for ArduPilot. Explaining all of the changes that have been made would take far too long, so I've chosen some key changes to explain in detail, and listed the most important secondary changes in a short form. Please ask for details if there is a change you see listed that you want some more information on.
Arming Changes
This is the first release of APM:Plane where ARMING_CHECK and ARMING_REQUIRE both default to enabled. That means when you upgrade if you didn't previously have arming enabled you will need to learn about arming your plane.
Please see this page for more information on arming:
http://plane.ardupilot.com/wiki/arming-your-plane/
I know many users will be tempted to disable the arming checks, but please don't do that without careful thought. The arming checks are an important part of ensuring the aircraft is ready to fly, and a common cause of flight problems is to takeoff before ArduPilot is ready.
Re-do Accelerometer Calibration
Due to a change in the maximum accelerometer range on the Pixhawk all users must re-do their accelerometer calibration for this release. If you don't then your plane will fail to arm with a message saying that you have not calibrated the accelerometers.
Only 3D accel calibration
The old "1D" accelerometer calibration method has now been removed, so you must use the 3D accelerometer calibration method. The old method was removed because a significant number of users had poor flights due to scaling and offset errors on their accelerometers when they used the 1D method. My apologies for people with very large aircraft who find the 3D method difficult.
Note that you can do the accelerometer calibration with the autopilot outside the aircraft which can make things easier for large aircraft.
Auto-disarm
After an auto-landing the autopilot will now by default disarm after LAND_DISARMDELAY seconds (with a default of 20 seconds). This feature is to prevent the motor from spinning up unexpectedly on the ground
after a landing.
HIL_MODE parameter
It is now possible to configure your autopilot for hardware in the loop simulation without loading a special firmware. Just set the parameter HIL_MODE to 1 and this will enable HIL for any autopilot. This is designed to make it easier for users to try HIL without having to find a HIL firmware.
SITL on Windows
The SITL software in the loop simulation system has been completely rewritten for this release. A major change is to make it possible to run SITL on native windows without needing a Linux virtual machine. There should be a release of MissionPlanner for Windows soon which will make it easy to launch a SITL instance.
The SITL changes also include new backends, including the CRRCSim flight simulator. This gives us a much wider range of aircraft we can use for SITL. See http://dev.ardupilot.com/wiki/simulation-2/ for more information.
Throttle control on takeoff
A number of users had problems with pitch control on auto-takeoff, and with the aircraft exceeding its target speed during takeoff. The auto-takeoff code has now been changed to use the normal TECS throttle control which should solve this problem.
Rudder only support
There is a new RUDDER_ONLY parameter for aircraft without ailerons, where roll is controlled by the rudder. Please see the documentation for more information on flying with a rudder only aircraft:
http://plane.ardupilot.com/wiki/ardupla ... udder_only
APM1/APM2 Support
We have managed to keep support for the APM1 and APM2 in this release, but in order to fit it in the limited flash space we had to disable some more features when building for those boards. For this release the AP_Mount code for controlling camera mounts is disabled on APM1/APM2.
At some point soon it will become impractical to keep supporting the APM1/APM2 for planes. Please consider moving to a 32 bit autopilot soon if you are still using an APM1 or APM2.
New INS code
There have been a lot of changes to the gyro and accelerometer handling for this release. The accelerometer range on the Pixhawk has been changed to 16g from 8g to prevent clipping on high vibration aircraft, and the sampling rate on the lsm303d has been increased to 1600Hz.
An important bug has also been fixed which caused aliasing in the sampling process from the accelerometers. That bug could cause attitude errors in high vibration environments.
Numerous Landing Changes
Once again there have been a lot of improvements to the automatic landing support. Perhaps most important is the introduction of a smooth transition from landing approach to the flare, which reduces the tendency to pitch up too much on flare.
There is also a new parameter TECS_LAND_PMAX which controls the maximum pitch during landing. This defaults to 10 degrees, but for many aircraft a smaller value may be appropriate. Reduce it to 5 degrees if you find you still get too much pitch up during the flare.
Other secondary changes in this release include:
- a new SerialManager library which gives much more flexible management of serial port assignment
- changed the default FS_LONG_TIMEOUT to 5 seconds
- raised default IMAX for roll/pitch to 3000
- lowered default L1 navigation period to 20
- new BRD_SBUS_OUT parameter to enable SBUS output on Pixhawk
- large improvements to the internals of PX4Firmware/PX4NuttX for better performance
- auto-formatting of microSD cards if they can't be mounted on boot (PX4/Pixhawk only)
- a new PWM based driver for the PulsedLight Lidar to avoid issues with the I2C interface
- fixed throttle forcing to zero when disarmed
- only reset mission on disarm if not in AUTO mode
- much better handling of steep landings
- added smooth transition in landing flare
- added HIL_MODE parameter for HIL without a special firmware
- lowered default FS_LONG_TIMEOUT to 5 seconds
- mark old ELEVON_MIXING mode as deprecated
- fixed 50Hz MAVLink support
- support DO_SET_HOME MAVLink command
- fixed larger values of TKOFF_THR_DELAY
- allow PulsedLight Lidar to be disabled at a given height
- fixed bungee launch (long throttle delay)
- fixed a bug handling entering AUTO mode before we have GPS lock
- added CLI_ENABLED parameter
- removed 1D accel calibration
- added EKF_STATUS_REPORT MAVLink message
- added INITIAL_MODE parameter
- added TRIM_RC_AT_START parameter
- added auto-disarm after landing (LAND_DISARMDELAY)
- added LOCAL_POSITION_NED MAVLink message
- avoid triggering a fence breach in final stage of landing
- rebuild glide slope if we are above it and climbing
- use TECS to control throttle on takeoff
- added RUDDER_ONLY parameter to better support planes with no ailerons
- updated Piksi RTK GPS driver
- improved support for GPS data injection (for Piksi RTK GPS)
- added NAV_LOITER_TO_ALT mission item
- fixed landing approach without an airspeed sensor
- support RTL_AUTOLAND=2 for landing without coming to home first
- disabled camera mount support on APM1/APM2
- added support for SToRM32 and Alexmos camera gimbals
- added support for Jaimes mavlink enabled gimbal
- improved EKF default tuning for planes
- updated support for NavIO and NavIO+ boards
- updated support for VRBrain boards
- fixes for realtime threads on Linux
- added simulated sensor lag for baro and mag in SITL
- made it possible to build SITL for native Windows
- switched to faster accel sampling on Pixhawk
- added coning corrections on Pixhawk
- set ARMING_CHECK to 1 by default
- disable NMEA and SiRF GPS on APM1/APM2
- support MPU9255 IMU on Linux
- updates to BBBMINI port for Linux
- added TECS_LAND_PMAX parameter
- switched to synthetic clock in SITL
- support CRRCSim FDM backend in SITL
- new general purpose replay parsing code
- switched to 16g accel range in Pixhawk
- added FENCE_AUTOENABLE=2 for disabling just fence floor
- added POS dataflash log message
- changed GUIDED behaviour to match copter
- added support for a 4th MAVLink channel
- support setting AHRS_TRIM in preflight calibration
- fixed a PX4 mixer out of range error
Many thanks to everyone who contributed to this release. We have a lot of new developers contributing which is really great to see! Also, apologies for those who have contributed a pull request but not yet had it incorporated (or had feedback on the change). We will be trying to get to as many PRs as we can soon.
Best wishes to all APM:Plane users from the dev team, and happy flying!
Comments
Hi,
Thank you for your reply.
We did that in two PC's
One with pixhawk and one with APM.
Connection is ok but no control using TX.There no output from TX on Display All option mission planner.To be more specific it is some times for few seconds and then stops.
We using Windows7 64bit.
@playfieldofangels,
HIL firmware is not needed any more. Just set HIL_MODE=1 in the advanced parameter list with a normal firmware and then reboot. It will then be in HIL mode.
Any chance to found just the HIL firmware?
Mission Planner doesn't download the firmware for plane and I cannot see any advice for the problem here.
Thx
@Keith, it looks like your receiver or the APM2 doesn't like a PWM value of over 2100. You have reversed rudder, so hard left rudder is maximum value. The log shows it suddenly going to 1500 when it goes above 2100.
It is unusual to have a PWM over PWM, but it should still work. The limit for ArduPilot is 2700.
My best guess is your receiver doesn't like values over 2100. You can either investigate this yourself (ideally with a logic analyser) or just lower the rates on your transmitter so that you stay well away from 2100.
I'd suggest you make sure no other channels go anywhere near 2100 either. You don't want this happening in flight.
Another possibility is that you have a receiver with a limit on the total frame size which is being exceeded. Some FRSky receivers are like that. If the sum of the channels goes above the limit then you lose channels. The easiest fix if you have one of those receivers is to setup your transmitter to transmit less channels.
Cheers, Tridge
@Adam,
thanks for sending that video. I hadn't realised you were using APMPlanner2, and I hadn't tested that. I've now tested it and reproduced the issue. I've opened a bug report here:
https://github.com/diydrones/apm_planner/issues/713
Unfortunately this means you will either need to use MissionPlanner on windows or mavproxy on linux or macos or wait for this to be fixed. Sorry!
Cheers, Tridge
Yes sir, that is the process I'm using to calibrate. I calibrated before the upgrade and the process was as you described. However, now, after the upgrade, the pop up box does not appear. Immediately it says "Time until timeout:" and begins a countdown from 30 seconds, at which point it says "calibration failed".
I'll work on getting a video for you.
Thanks,
Adam.
@MarkM, good to hear!
The ground steering code on landing approach is a bit of a problem. The issue is the transition between rudder control vs tail-wheel/nose-wheel control. The two control algorithms really need to be different, but as we don't have a weight-on-wheels sensor it can't tell which is needed.
I've noticed it as well, and I should put some more though into it. Some more heuristics I think ....
Cheers, Tridge
@Adam,
Use the "Calibrate Accel" button, not the "Calibrate Level" buttons.
It then pops up a "Click when Done" button which you need to press with the mouse between each orientation.
Is that the process you're using?
We really need a video for this ....
Cheers, Tridge