2014-05-18 20:54:15 -03:00
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Release 3.0.3, May 19th 2014
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----------------------------
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The ardupilot development team is proud to announce the release of
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version 3.0.3 of APM:Plane. This release contains some important bug
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fixes for all supported boards.
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The key bug fixes in this release are:
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- fixed handling of filter divergance in the EKF filter
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- fixed a glide slope calculation bug when entering AUTO mode
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The EKF fixes are the main focus of this release. During testing of
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APM:Plane with the AHRS_EKF_USE enabled it was found that under some
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circumstances the EKF could diverge, resulting in loss of attitude
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estimate. Unless the pilot quickly took control in MANUAL this could
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result in the aircraft crashing.
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The fix for this problem was in several parts. The main fix was to
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prevent the divergance, but as a precuation against future bugs of
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this type additional numerical checks were added to allow the EKF to
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automatically reset in flight when the internal state shows
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large gyro bias changes, which are the first sign of something going
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wrong in the filter. If this happens again the EKF will automatically
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disable itself for 10 seconds, allowing APM:Plane to fall back to the
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old DCM code. The EKF will then reset itself using initial state based
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on the DCM state. The aircraft will report the failure using the AHRS
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health bit in the SYS_STATUS MAVLink message.
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The default EKF tuning parameters were also updated based on a number
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of user supplied flight logs to increase the robustness of the filter.
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The second bug fixed in this release relates to the glide slope
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calculation when the aircraft enters AUTO mode for the first time when
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at an altitude above the altitude of the first waypoint in the
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mission. The starting point for the glide slope was incorrectly
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calculated using the home altitude, which resulted in the aircraft
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descending below the first waypoint altitude before climbing again. In
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some circumstances this could lead to a crash due to local terrain.
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Many thanks to everyone who tested this release. Special thanks to
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Dellarb for reporting the glide slope bug and to Paul Riseborough for
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all his work on the EKF code over the last few weeks.
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Happy flying!
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2014-05-04 03:31:07 -03:00
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Release 3.0.2, May 4th 2014
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---------------------------
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The ardupilot development team is proud to announce the release of
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version 3.0.2 of APM:Plane. This release combines some important bug
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fixes with some new features.
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I2C bug fix
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-----------
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The most important change for this release is a bug fix for an I2C bug
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in the NuttX I2C driver code that could (under some rare
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circumstances) cause a Pixhawk to crash. This bug fix is the primary
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reason for doing a new release now.
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This bug was able to be reproduced by creating a 1.3m GPS cable
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carrying both the I2C signals for a magnetometer and the UART signals
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for the GPS. Interference between these two signals could cause the
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I2C controller to give spurious data to the I2C driver. The I2C driver
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did not have sufficient protection against these errors and could
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crash the board.
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While we have not been able to reproduce this error with the normal
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cables that come with a Pixhawk we cannot rule out the bug triggering
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with shorter cables, so we are doing a fast release to fix the bug.
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Autotune
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--------
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This release also includes an important new feature - automatic
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roll/pitch tuning. While this feature is still considered experimental
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we have had very positive feedback from beta testers and have decided
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to include it in the release.
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Full documentation for how to use automatic tuning is available here:
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http://plane.ardupilot.com/wiki/automatic-tuning-with-autotune/
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we hope that the automatic tuning will help users who have had
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difficulty with the standard APM:Plane manual tuning procedure. We
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plan on extending autotune to other aspects of fixed wing tuning in
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future releases.
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Other changes
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-------------
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- fixed a glide slope calculation error when very close to waypoints
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- fixed a bug when swithing to another auto-throttle mode during auto
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takeoff (thanks to Marco for finding this bug!)
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- added MIS_AUTORESET parameter (thanks to Andrew Chapman)
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- support compassmot calibration by supplying current measurments to the
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compass driver (thanks to Jon Challinger)
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- fixed a GPS driver bug that could cause GPS lag in case of lost GPS
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samples (thanks to Jon Challinger)
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- fixed a LOITER_TURNS bug in missions for counter-clockwise loiter
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(thanks to Iskess for finding this bug)
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- added support for OBC termination requirements to PX4IO
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- added support for pressure altitude termination to OBC module
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- fixed EKF wind estimation with no airspeed sensor (thanks to Paul
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Riseborough)
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- improved tuning of EKF for fixed wing aircraft (thanks to Paul
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Riseborough)
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- Converted rally point code to library AP_Rally (thanks to Andrew
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Chapman)
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- added SITL checking for numerical errors
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Thanks to testers!
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Many thanks to everyone who tested the beta versions of this release!
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Special thanks to Marco, Paul, Jon, Iam, JNJO, sonicdahousecat and
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Keeyen for providing testing of both existing features and the new
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autotune code.
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Release 3.0.1, April 9th 2014
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-----------------------------
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I've just released APM:Plane 3.0.1, a bug fix release for the 3.0.0 release.
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This release fixes two bugs:
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throttle failsafe for aircraft using PWM level for failsafe detection
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wind reporting with EKF enabled and no airspeed sensor
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The throttle failsafe fix is a critical bugfix, which is why I am
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doing a new release so soon. The bug was found by Sam Tabor, and he
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posted the bug report before the 3.0.0 release, but I didn't notice it
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in the release preparations. The bug only affects systems using PWM
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value as the sole method of detecting loss of RC control. I hadn't
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noticed it myself as my planes all use receivers which stop sending
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value PWM frames when the RC link is lost. In that case failsafe
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worked correctly. Receivers that keep sending PWM frames but with low
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throttle levels are common though, so this is a very important fix.
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Many thanks to Sam for reporting the bug, and my apologies for not
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noticing it in time for the 3.0.0 release.
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2014-04-07 20:46:30 -03:00
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Release 3.0.0, April 8th 2014
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-----------------------------
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The ardupilot development team is proud to announce the release of
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version 3.0.0 of APM:Plane. This is a major release with a lot of new
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features.
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For each release I try to highlight the two or 3 key new features that
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have gone in since the last release. That is a more difficult task
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this time around because there are just so many new things. Still, I
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think the most important ones are the new Extended Kalman Filter (EKF)
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for attitude/position estimation, the extensive dual sensors support
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and the new AP_Mission library.
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We have also managed to still keep support for the APM1 and APM2,
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although quite a few of the new features are not available on those
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boards. We don't yet know for how long we'll be able to keep going on
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supporting these old boards, so if you are thinking of getting a new
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board then you should get a Pixhawk, and if you want the best
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performance from the APM:Plane code then you should swap to a
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Pixhawk now. It really is a big improvement.
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New Extended Kalman Filter
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--------------------------
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The biggest change for the 3.0.0 release (and in fact the major reason
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why we are calling it 3.0.0) is the new Extended Kalman Filter from
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Paul Riseborough. Using an EKF for attitude and position estimation
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was never an option on the APM2 as it didn't have the CPU power or
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memory to handle it. The Pixhawk does have plenty of floating point
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performance, and Paul has done a fantastic job of taking full
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advantage of the faster board.
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As this is the first stable release with the EKF code we have decided
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to not enable it by default. It does however run all the time in
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parallel with the existing DCM code, and both attitude/position
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solutions are logged both to the on-board SD card and over
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MAVLink. You can enable the EKF code using the parameter
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AHRS_EKF_USE=1, which can be set and unset while flying, allowing you
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to experiment with using the EKF either by examining your logs with
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the EKF disabled to see how it would have done or by enabling it while
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flying.
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The main thing you will notice with the EKF enabled is more accurate
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attitude estimation and better handling of sensor glitches. A Kalman
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filter has an internal estimate of the reliability of each of its
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sensor inputs, and is able to weight them accordingly. This means that
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if your accelerometers start giving data that is inconsistent with
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your other sensors then it can cope in a much more graceful way than
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our old DCM code.
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The result is more accurate flying, particularly in turns. It also
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makes it possible to use higher tuning gains, as the increased
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accuracy of the attitude estimation means that you can push the
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airframe harder without it becoming unstable. You may find you can use
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a smaller value for NAVL1_PERIOD, giving tighter turns, and higher
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gains on your roll and pitch attitude controllers.
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Paul has written up a more technical description of the new EKF code
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here:
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http://plane.ardupilot.com/wiki/common-apm-navigation-extended-kalman-filter-overview/
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Dual Sensors
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------------
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The second really big change for this release is support for
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dual-sensors. We now take full advantage of the dual accelerometers
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and dual gyros in the Pixhawk, and can use dual-GPS for GPS
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failover. We already had dual compass support, so the only main
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sensors we don't support two of now are the barometer and the airspeed
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sensor. I fully expect we will support dual baro and dual airspeed in
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a future release.
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You might wonder why dual sensors is useful, so let me give you an
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example. I fly a lot of nitro and petrol planes, and one of my planes
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(a BigStik 60) had a strange problem where it would be flying
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perfectly in AUTO mode, then when the throttle reached a very specific
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level the pitch solution would go crazy (sometimes off by 90
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degrees). I managed to recover in MANUAL each time, but it certainly
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was exciting!
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A careful analysis of the logs showed that the culprit was
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accelerometer aliasing. At a very specific throttle level the Z
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accelerometer got a DC offset of 11 m/s/s. So when the plane was
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flying along nice and level the Z accelerometer would change from -10
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m/s/s to +1 m/s/s. That resulted in massive errors in the attitude
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solution.
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This sort of error happens because of the way the accelerometer is
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sampled. In the APM code the MPU6000 (used on both the APM2 and
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Pixhawk) samples the acceleration at 1kHz. So if you have a strong
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vibrational mode that is right on 1kHz then you are sampling the "top
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of the sine wave", and get a DC offset.
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The normal way to fix this issue is to improve the physical
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anti-vibration mounting in the aircraft, but I don't like to fix
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problems like this by making changes to my aircraft, as if I fix my
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aircraft it does nothing for the thousands of other people running the
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same code. As the lead APM developer I instead like to fix things in
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software, so that everyone benefits.
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The solution was to take advantage of the fact that the Pixhawk has
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two accelerometers, one is a MPU6000, and the 2nd is a LSM303D. The
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LSM303D is sampled at 800Hz, whereas the MPU6000 is sampled at
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1kHz. It would be extremely unusual to have a vibration mode with
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aliasing at both frequencies at once, which means that all we needed
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to do was work out which accelerometer is accurate at any point in
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time. For the DCM code that involved matching each accelerometer at
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each time step to the combination of the GPS velocity vector and
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current attitude, and for the EKF it was a matter of producing a
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weighting for the two accelerometers based on the covariance matrix.
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The result is that the plane flew perfectly with the new dual
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accelerometer code, automatically switching between accelerometers as
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aliasing occurred.
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Since adding that code I have been on the lookout for signs of
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aliasing in other logs that people send me, and it looks like it is
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more common than we expected. It is rarely so dramatic as seen on my
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BigStik, but often results in some pitch error in turns. I am hopeful
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that with a Pixhawk and the 3.0 release of APM:Plane that these types
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of problems will now be greatly reduced.
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For the dual gyro support we went with a much simpler solution and
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just average the two gyros when both are healthy. That reduces noise,
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and works well, but doesn't produce the dramatic improvements that the
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dual accelerometer code resulted in.
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Dual GPS was also quite a large development effort. We now support
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connecting a 2nd GPS to the serial4/5 port on the Pixhawk. This allows
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you to protect against GPS glitches, and has also allowed us to get a
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lot of logs showing that even with two identical GPS modules it is
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quite common for one of the GPS modules to get a significant error
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during a flight. The new code currently switches between the two GPS
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modules based on the lock status and number of satellites, but we are
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working on a more sophisticated switching mechanism.
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Supporting dual GPS has also made it easier to test new GPS
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modules. This has enabled us to do more direct comparisons between the
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Lea6 and the Neo7 for example, and found the Neo7 performs very
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well. It also helps with developing completely new GPS drivers, such
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as the Piksi driver (see notes below).
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New AP_Mission library
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----------------------
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Many months ago Brandon Jones re-worked our mission handling code to
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be a library, making it much cleaner and fixing a number of long term
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annoyances with the behaviour. For this release Randy built upon the
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work that Brandon did and created the new AP_Mission library.
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The main feature of this library from the point of view of the
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developers is that it has a much cleaner interface, but it also has
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some new user-visible features. The one that many users will be glad
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to hear is that it no longer needs a "dummy waypoint" after a
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jump. That was always an annoyance when creating complex missions.
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The real advantage of AP_Mission will come in future releases though,
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as it has the ability to look ahead in the mission to see what is
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coming, allowing for more sophisticated navigation. The copter code
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already takes advantage of this with the new spline waypoint feature,
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and we expect to take similar advantage of this in APM:Plane in future
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releases.
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New Piksi GPS driver
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--------------------
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One of the most exciting things to happen in the world of GPS modules
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in the last couple of years is the announcement by SwiftNav that they
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would be producing a RTK capable GPS module called the Piksi at a
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price that (while certainly expensive!) is within reach of more
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2014-04-07 20:49:25 -03:00
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dedicated hobbyists. It offers the possibility of decimeter and
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possibly even centimetre level relative positioning, which has a lot
|
2014-04-07 20:46:30 -03:00
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of potential for small aircraft, particularly for landing control and
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more precise aerial mapping.
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This release of APM:Plane has the first driver for the Piksi. The new
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driver is written by Niels Joubert, and he has done a great job. It is
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only a start though, as this is a single point positioning driver. It
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will allow you to use your new Piksi if you were part of the
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kickstarter, but it doesn't yet let you use it in RTK mode. Niels and
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the SwiftNav team are working on a full RTK driver which we hope will
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be in the next release.
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Support for more RC channels
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----------------------------
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This release is the first to allow use of more than 8 RC input
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channels. We now support up to 18 input channels on SBus on Pixhawk,
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with up to 14 of them able to be assigned to functions using the
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RCn_FUNCTION settings. For my own flying I now use a FrSky Taranis
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with X8R and X6R receivers and they work very nicely. Many thanks to
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the PX4 team, and especially to Holger and Lorenz for their great work
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on improving the SBus code.
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Flaperon Support
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----------------
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This release is the first to have integrated flaperon support, and
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also includes much improved flaps support in general. You can now set
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a FLAP_IN_CHANNEL parameter to give an RC channel for manual flap
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control, and setup a FLAPERON_OUTPUT to allow you to setup your
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ailerons for both manual and automatic flaperon control.
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We don't yet have a full wiki page on setting up flaperons, but you
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can read about the parameters here:
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http://plane.ardupilot.com/wiki/arduplane-parameters/#Flap_input_channel_ArduPlaneFLAP_IN_CHANNEL
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Geofence improvements
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---------------------
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Michael Day has made an number of significant improvements to the
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geo-fencing support for this release. It is now possible to
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enable/disable the geofence via MAVLink, allowing ground stations to
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control the fence.
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There are also three new fence control parameters. One is
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FENCE_RET_RALLY which when enabled tells APM to fly back to the
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closest rally point on a fence breach, instead of flying to the center
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of the fence area. That can be very useful for more precise control of
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fence breach handling.
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The second new parameter is FENCE_AUTOENABLE, which allows you to
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automatically enable a geofence on takeoff, and disable when doing an
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automatic landing. That is very useful for fully automated missions.
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The third new geofence parameter is FENCE_RETALT, which allows you to
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specify a return altitude on fence breach. This can be used to
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override the default (half way between min and max fence altitude).
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Automatic Landing improvements
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------------------------------
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Michael has also been busy on the automatic landing code, with
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improvements to the TECS speed/height control when landing and new
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TECS_LAND_ARSPD and TECS_LAND_THR parameters to control airspeed and
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throttle when landing. This is much simpler to setup than
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DO_CHANGE_SPEED commands in a mission.
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Michael is also working on automatic path planning for landing, based
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on the rally points code. We hope that will get into a release soon.
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Detailed Pixhawk Power Logging
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------------------------------
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One of the most common causes of issues with autopilots is power
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handling, with poor power supplies leading to brownouts or sensor
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malfunction. For this release we have enabled detailed logging of the
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information available from the on-board power management system of the
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Pixhawk, allowing us to log the status of 3 different power sources
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(brick input, servo rail and USB) and log the voltage level of the
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servo rail separately from the 5v peripheral rail on the FMU.
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This new logging should make it much easier for us to diagnose power
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issues that users may run into.
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New SERIAL_CONTROL protocol
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---------------------------
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This release adds a new SERIAL_CONTROL MAVLink message which makes it
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possible to remotely control a serial port on a Pixhawk from a ground
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station. This makes it possible to do things like upgrade the firmware
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on a 3DR radio without removing it from an aircraft, and will also
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make it possible to attach to and control a GPS without removing it
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from the plane.
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There is still work to be done in the ground station code to take full
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advantage of this new feature and we hope to provide documentation
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soon on how to use u-Blox uCenter to talk to and configure a GPS in an
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aircraft and to offer an easy 3DR radio upgrade button via the Pixhawk
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USB port.
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Lots of other changes!
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----------------------
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There have been a lot of other improvements in the code, but to stop
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this turning into a book instead of a set of release notes I'll stop
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the detailed description there. Instead here is a list of the more
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important changes not mentioned above:
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- added LOG_WHEN_DISARMED flag in LOG_BITMASK
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- raised default LIM_PITCH_MAX to 20 degrees
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- support a separate steering channel from the rudder channel
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- faster mission upload on USB
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- new mavlink API for reduced memory usage
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- fixes for the APM_OBC Outback Challenge module
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- fixed accelerometer launch detection with no airspeed sensor
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- greatly improved UART flow control on Pixhawk
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- added BRD_SAFETYENABLE option to auto-enable the safety
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switch on PX4 and Pixhawk on boot
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- fixed pitot tube ordering bug and added ARSPD_TUBE_ORDER parameter
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- fixed log corruption bug on PX4 and Pixhawk
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- fixed repeated log download bug on PX4 and Pixhawk
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- new Replay tool for detailed log replay and analysis
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- flymaple updates from Mike McCauley
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- fixed zero logs display in MAVLink log download
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- fixed norm_input for cruise mode attitude control
|
2014-04-07 20:49:25 -03:00
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- added RADIO_STATUS logging in aircraft logs
|
2014-04-07 20:46:30 -03:00
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- added UBX monitor messages for detailed hardware logging of u-Blox status
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- added MS4525 I2C airspeed sensor voltage compensation
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I hope that everyone enjoys flying this new APM:Plane release as much
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as we enjoyed producing it! It is a major milestone in the development
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of the fixed wing code for APM, and I think puts us in a great
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position for future development.
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Happy flying!
|
2014-05-04 03:31:07 -03:00
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