Commit Graph

81 Commits

Author SHA1 Message Date
priseborough 51dbed2338 AP_NavEKF2: remember mag field states between flight on same power cycle
Remember the mag bias and earth field states learned during flight when the vehicle  lands.
This improves performance for vehicles that do multiple flight on one power cycle
2016-07-10 08:21:18 +10:00
Paul Riseborough dc6836988c AP_NavEKF2: Improve ground based magnetic anomaly protection for copter
The toilet bowling check during early flight has been removed. This check caused problems where bad compass calibration was the cause of the toilet bowling and resetting to the compass was a bad option. The handling of simultaneous failed mag and velocity innovations is already handled outside the EKF by the failsafe.
A check for yaw errors due to a ground based magnetic anomaly has been introduced.
The logic for in-flight yaw and magnetic field resets has been cleaned up and variable names improved.
2016-06-28 14:20:12 +10:00
Paul Riseborough 24d8cc62e2 AP_NavEKF2: rework yaw and magnetic heading reset logic
Splits in-flight yaw alignment completed status into separate yaw and magnetic field flags.
Reduce the number of places where decisions to perform a yaw and field reset are made.
Don't perform a reset unless there is is data in the buffer
Don't use 3-axis fusion if the field states still need to be reset.
When starting 3-axis fusion request a reset if not previously performed.
Ensure magnetometer and GPs heading resets are alwasy perfomred with data at teh correct time horizon.
2016-05-31 16:12:53 +10:00
Paul Riseborough a94a19bd09 AP_NavEKF2: Fix bug causing continual yaw resets 2016-05-28 06:52:11 +10:00
Andrew Tridgell 97e2203e70 AP_NavEKF2: don't do 3D mag fusion on 2nd EKF2 core
this reduces the risk that mag fusion errors will badly affect
attitude estimation.
2016-05-27 21:27:06 +10:00
Paul Riseborough 722eb0d706 AP_NavEKF2: Fix bug for start of wind speed estimation
The commencement of airspeed fusion could cause pitch errors due to small variances and large innovations. This issue is addressed by the following changes:
1) The airspeed measurement is used to set wind states to a value that reduces initial innovations.
2) The wind state variances are set to values that better reflect the wind speed uncertainty
2016-05-27 09:00:41 +10:00
Paul Riseborough 6d34ac5ceb AP_NavEKF2: improve switch-over to use of mag field states
Set initial variances to measurement uncertainties
Always perform a field  and yaw reset
2016-05-27 09:00:40 +10:00
Paul Riseborough 5ec8d523f6 AP_NavEKF: remove unwanted co-variance reset
The co-variance resets required following a velocity and position state reset is now performed in the stte reset function
2016-05-21 15:13:53 +10:00
Paul Riseborough 08de4e6d95 AP_NavEKF: Do not perform start-up yaw alignment if no compass
Yaw cannot be aligned until in-flight when there is sufficient GPS velocity.
2016-05-21 15:13:52 +10:00
Ricardo de Almeida Gonzaga 64d14356b9 AP_NavEKF2: Fix typos 2016-05-13 19:20:06 -03:00
Paul Riseborough 7e05646316 AP_NavEKF2: Improvements to non-GPS performance
Change to user adjustable fusion of constant position (as per legacy EKF) instead of constant velocity.
Enable user to specify use of 3-axis magnetometer fusion when operating without aiding.
Don't allow gyro scale factor learning without external aiding data as it can be unreliable
2016-02-18 08:53:41 +09:00
Paul Riseborough 9b82b2200c AP_NavEKF2: Fix plane in-flight yaw reset
The copter method was being used for plane and the plane method was not being run due to the change in flight status not being detected.
The plane reset method did not trigger if the EKF had already dragged the velocity states along with the GPS or could align to an incorrect heading.
The method has been reworked so that it resets to the GPS course, but only if there are inconsistent angles and large innovations.
To stop a failed magnetometer causing a loss of yaw reference later in flight, if all available sensors have been tried in flight and timed out, then no further magnetoemter data will be used
2015-11-16 09:05:42 +11:00
Paul Riseborough 577670ccee AP_NavEKF2: Reduce memory required by 6KB when running at 400Hz
Down-sample the IMU and output observer state data to 100Hz for storage in the buffer.
This reduces storage requirements for Copter by 75% or 6KB
It does not affect memory required by plane which already uses short buffers due to its 50Hz execution rate.
This means that the EKF filter operations operate at a maximum rate of 100Hz.
The output observer continues to operate at 400Hz and coning and sculling corrections are applied during the down-sampling so there is no loss of accuracy.
2015-11-10 15:51:18 +11:00
Paul Riseborough 7294c8004b AP_NavEKF2: Enable use of backup magnetometers after a timeout
If the magnetometer fails innovation consistency checks for too long (currently 10 sec), then the next available sensor approved for yaw measurement will be used.
2015-11-09 22:07:09 +11:00
Paul Riseborough 9efc2152fc AP_NavEKF2: Fix comment 2015-11-08 16:26:04 +11:00
Paul Riseborough f99dbc70f9 AP_NavEKF2: Don't return ready to use GPS true if user has inhibited GPS 2015-11-08 16:26:04 +11:00
Paul Riseborough 65e4a4ab94 AP_NavEKF2: Use correct casting of integers when printing
Changes in response to review comments
2015-11-08 15:37:27 +11:00
Paul Riseborough 49f9ea317c AP_NavEKF: Update console message and param descriptions for multiple EKF's 2015-11-08 15:37:26 +11:00
Andrew Tridgell 2ab2afc86a AP_NavEKF2: added EK2_IMU_MASK for multiple IMUs
no voting between multiple IMUs yet
2015-11-06 10:42:58 +11:00
Paul Riseborough aa14de9d39 AP_NavEKF2: Fix failure to start mag cal due to gyro noise
Vibration in the 400Hz delta angles could cause the angular rate condition check for in-flight magnetic field alignment to fail.
The symptons were failure to start magnetic field learning as expected when EK2_MAG_CAL=3 was set.
2015-11-02 14:12:17 +11:00
Paul Riseborough f539b597a3 AP_NavEKF2: Improve initialisation of magnetic field learning
Use the more robust, but less accurate compass heading fusion up to 5m altitude
Wait for the magnetometer data fusion time offset to be correct before using data to reset states
Don't reset magnetic field states if the vehicle is rotating rapidly as timing offsets will produce large errors
When doing the yaw angle reset, apply the reset increment to all quaternions stored in the output buffer to avoid transients produced by yaw rotations and the 0.25 second fusion time horizon offset.
Only do the one yaw and mag reset at 5m, not two at 1.5 and 5.0m
Always re-do the yaw and mag reset when leaving the ground.
2015-10-30 15:34:20 +09:00
Paul Riseborough 5eb7cf1fbf AP_NavEKF: Reduce roll/pitch disturbance when magnetic field is reset
Because we have changed the yaw angle and have taken a point sample on the magnetic field, covariances associated with the magnetic field states will be invalid and subsequent innovations could cause an unwanted disturbance in roll and pitch.
The reset of the Euler angles to a new yaw orientation was being done using roll and pitch from the output observer states, not the EKF state vector which meant that when roll and pitch were changing, the reset to a new yaw angle would also cause a roll and pitch disturbance.
2015-10-23 19:04:30 +11:00
Paul Riseborough ab8c28a7cc AP_NavEKF: Fix bug allowing takeoff in GPS modes without aiding
The legacy EKF switches GPs aiding on on arming, whereas the new EKF switches it on based on GPS data quality.
This means the decision to arm and therefore the predicted solution flags must now reflect the actual status of the navigation solution as it will no longer change when motor arming occurs.
2015-10-20 20:16:00 +11:00
Andrew Tridgell d1dfd5fd01 AP_NavEKF2: use common header for optimisation level and irq disable 2015-10-20 15:21:40 +11:00
Paul Riseborough f6ad79688e AP_NavEKF2: Update start sequence console messages 2015-10-20 15:21:39 +11:00
Paul Riseborough baa8692960 AP_NavEKF2: Allow use of magnetometer learning during optical flow nav
Adds fusion of the declination when there are no earth relative measurements so that the declination angle and therefore the copters yaw angle have an absolute reference.
This enables the length (but not the declination) of the earth field North/East states to change along with the magnetometer offsets.
2015-10-20 15:21:38 +11:00
Paul Riseborough 6899767d28 AP_NavEKF2: Disable magnetic field learning if we have no absolute position reference 2015-10-20 15:21:38 +11:00
Paul Riseborough e7de2d3ea3 AP_NavEKF: Update magnetic field learning options
Provide an option to always do learning
Make field learning decision logic clearer
Change defaults so that plane learns when airborne
Change defaults so that Rover does not learn (large external magnetic interference)
2015-10-20 15:21:38 +11:00
Paul Riseborough 71c399674a AP_NavEKF2: Delay use of magnetic field states until off-ground
Magnetic interference whilst on the ground can adversely affect filter states. This patch ensures that the simpler and more robust magnetic heading observation method is used until the vehicle has cleared the ground.
2015-10-20 15:21:37 +11:00
Paul Riseborough 0dc570b5a5 AP_NavEKF2: Improve optical flow takeoff detection logic
Ensure takeoff detect status goes to false when on ground
2015-10-20 15:21:36 +11:00
Paul Riseborough b142cc7fd2 AP_NavEKF2: Rename files and re-distribute content 2015-10-10 14:48:50 +09:00