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LP-89 - Port OP_15.05.01 fixes. Release notes:
--- RELEASE-15.05.01 HOTFIX --- Banana Split --- This release fixes an important bug. All Revolution hardware running 15.05 should upgrade to 15.05.01. Note that this is a hotfix; it can simply be flashed without an erase settings. Furthermore, please review your vtolpathfollowersettings:HorizontalVelMax; a value of around 4m/s would be more appropriate for preliminary trialing of a new release and will be changed in future. Release Notes - OP Next Generation - Version OP15.05.01 ** Bug * [NG-55] - 15.05 PositionHold exhibits fly-away behaviour at the vtolpathfollowersettings maxRollPitch and HorizontalVelMax values. --- WHATSNEW.txt | 13 ++++++++++- flight/libraries/pid/pidcontroldown.cpp | 26 ++++++++++----------- flight/libraries/plans.c | 28 +++++++++++++++++++---- flight/modules/PathFollower/inc/pidcontrolne.h | 1 - flight/modules/PathFollower/pidcontrolne.cpp | 23 +++++++++++++++---- flight/modules/PathFollower/vtolflycontroller.cpp | 16 ++++++++----- 6 files changed, 77 insertions(+), 30 deletions(-)
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13
WHATSNEW.txt
13
WHATSNEW.txt
@ -1,4 +1,15 @@
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--- RELEASE-15.05 --- Revolution Nano ---
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--- RELEASE-15.05.01 HOTFIX --- Banana Split ---
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This release fixes an important bug. All Revolution hardware running 15.05 should upgrade to 15.05.01. Note that this is a hotfix; it can
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simply be flashed without an erase settings. Furthermore, please review your vtolpathfollowersettings:HorizontalVelMax; a value of around 4m/s would be more appropriate for preliminary trialing of a new release and will be changed in future.
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Release Notes - OP Next Generation - Version OP15.05.01
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** Bug
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* [NG-55] - 15.05 PositionHold exhibits fly-away behaviour at the vtolpathfollowersettings maxRollPitch and HorizontalVelMax values.
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--- RELEASE-15.05 --- Banana Split ---
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This release introduces new features and new hardware support for the Revolution Nano.
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Note that the CC3D is not supported by this feature release.
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@ -41,7 +41,7 @@ extern "C" {
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#include <paths.h>
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#include "plans.h"
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#include <stabilizationdesired.h>
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#include <pidstatus.h>
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// #include <pidstatus.h>
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#include <vtolselftuningstats.h>
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}
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@ -348,7 +348,7 @@ float PIDControlDown::GetVelocityDesired(void)
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float PIDControlDown::GetDownCommand(void)
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{
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PIDStatusData pidStatus;
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// PIDStatusData pidStatus;
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float ulow = mMinThrust;
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float uhigh = mMaxThrust;
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@ -356,17 +356,17 @@ float PIDControlDown::GetDownCommand(void)
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mCallback->BoundThrust(ulow, uhigh);
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}
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float downCommand = pid2_apply(&PID, mVelocitySetpointCurrent, mVelocityState, ulow, uhigh);
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pidStatus.setpoint = mVelocitySetpointCurrent;
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pidStatus.actual = mVelocityState;
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pidStatus.error = mVelocitySetpointCurrent - mVelocityState;
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pidStatus.setpoint = mVelocitySetpointCurrent;
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pidStatus.ulow = ulow;
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pidStatus.uhigh = uhigh;
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pidStatus.command = downCommand;
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pidStatus.P = PID.P;
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pidStatus.I = PID.I;
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pidStatus.D = PID.D;
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PIDStatusSet(&pidStatus);
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// pidStatus.setpoint = mVelocitySetpointCurrent;
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// pidStatus.actual = mVelocityState;
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// pidStatus.error = mVelocitySetpointCurrent - mVelocityState;
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// pidStatus.setpoint = mVelocitySetpointCurrent;
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// pidStatus.ulow = ulow;
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// pidStatus.uhigh = uhigh;
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// pidStatus.command = downCommand;
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// pidStatus.P = PID.P;
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// pidStatus.I = PID.I;
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// pidStatus.D = PID.D;
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// PIDStatusSet(&pidStatus);
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mDownCommand = downCommand;
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return mDownCommand;
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}
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@ -102,7 +102,8 @@ void plan_setup_positionHold()
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PositionStateGet(&positionState);
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PathDesiredData pathDesired;
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PathDesiredGet(&pathDesired);
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// re-initialise in setup stage
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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FlightModeSettingsPositionHoldOffsetData offset;
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FlightModeSettingsPositionHoldOffsetGet(&offset);
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@ -132,7 +133,8 @@ void plan_setup_returnToBase()
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PositionStateDownGet(&positionStateDown);
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PathDesiredData pathDesired;
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PathDesiredGet(&pathDesired);
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// re-initialise in setup stage
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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TakeOffLocationData takeoffLocation;
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TakeOffLocationGet(&takeoffLocation);
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@ -241,6 +243,8 @@ void plan_setup_AutoTakeoff()
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// stabi command.
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}
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PathDesiredData pathDesired;
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// re-initialise in setup stage
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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plan_setup_AutoTakeoff_helper(&pathDesired);
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PathDesiredSet(&pathDesired);
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}
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@ -312,6 +316,8 @@ void plan_run_AutoTakeoff()
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autotakeoffState != STATUSVTOLAUTOTAKEOFF_CONTROLSTATE_POSITIONHOLD) {
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if (priorState != autotakeoffState) {
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PathDesiredData pathDesired;
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// re-initialise in setup stage
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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plan_setup_AutoTakeoff_helper(&pathDesired);
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PathDesiredSet(&pathDesired);
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}
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@ -348,6 +354,9 @@ void plan_setup_land()
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{
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PathDesiredData pathDesired;
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// re-initialise in setup stage
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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plan_setup_land_helper(&pathDesired);
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PathDesiredSet(&pathDesired);
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}
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@ -506,7 +515,10 @@ static void plan_run_PositionVario(vario_type type)
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float alpha;
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PathDesiredData pathDesired;
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// Reuse the existing pathdesired object as setup in the setup to avoid
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// updating values already set.
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PathDesiredGet(&pathDesired);
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FlightModeSettingsPositionHoldOffsetData offset;
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FlightModeSettingsPositionHoldOffsetGet(&offset);
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@ -587,10 +599,11 @@ void plan_run_VelocityRoam()
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{
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// float alpha;
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PathDesiredData pathDesired;
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// velocity roam code completely sets pathdesired object. it was not set in setup phase
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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FlightStatusAssistedControlStateOptions assistedControlFlightMode;
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FlightStatusFlightModeOptions flightMode;
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PathDesiredGet(&pathDesired);
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FlightModeSettingsPositionHoldOffsetData offset;
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FlightModeSettingsPositionHoldOffsetGet(&offset);
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FlightStatusAssistedControlStateGet(&assistedControlFlightMode);
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@ -711,10 +724,11 @@ static PiOSDeltatimeConfig actimeval;
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void plan_setup_AutoCruise()
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{
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PositionStateData positionState;
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PositionStateGet(&positionState);
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PathDesiredData pathDesired;
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PathDesiredGet(&pathDesired);
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// setup needs to reinitialise the pathdesired object
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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FlightModeSettingsPositionHoldOffsetData offset;
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FlightModeSettingsPositionHoldOffsetGet(&offset);
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@ -757,7 +771,9 @@ void plan_run_AutoCruise()
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PositionStateGet(&positionState);
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PathDesiredData pathDesired;
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// re-use pathdesired that was setup correctly in setup stage.
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PathDesiredGet(&pathDesired);
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FlightModeSettingsPositionHoldOffsetData offset;
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FlightModeSettingsPositionHoldOffsetGet(&offset);
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@ -830,6 +846,8 @@ void plan_setup_assistedcontrol()
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PositionStateGet(&positionState);
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PathDesiredData pathDesired;
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// setup function, avoid carry over from previous mode
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memset(&pathDesired, 0, sizeof(PathDesiredData));
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FlightStatusAssistedControlStateOptions assistedControlFlightMode;
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@ -39,7 +39,6 @@ class PIDControlNE {
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public:
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PIDControlNE();
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~PIDControlNE();
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void Initialize();
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void Deactivate();
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void Activate();
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void UpdateParameters(float kp, float ki, float kd, __attribute__((unused)) float ilimit, float dT, float velocityMax);
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@ -47,13 +47,24 @@ extern "C" {
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PIDControlNE::PIDControlNE()
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: deltaTime(0), mNECommand(0), mNeutral(0), mVelocityMax(0), mMinCommand(0), mMaxCommand(0), mVelocityFeedforward(0), mActive(false)
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{}
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{
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memset((void *)PIDvel, 0, 2 * sizeof(pid2));
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memset((void *)PIDposH, 0, 2 * sizeof(pid));
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mVelocitySetpointTarget[0] = 0.0f;
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mVelocitySetpointTarget[1] = 0.0f;
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mVelocityState[0] = 0.0f;
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mVelocityState[1] = 0.0f;
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mPositionSetpointTarget[0] = 0.0f;
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mPositionSetpointTarget[1] = 0.0f;
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mPositionState[0] = 0.0f;
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mPositionState[1] = 0.0f;
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mVelocitySetpointCurrent[0] = 0.0f;
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mVelocitySetpointCurrent[1] = 0.0f;
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}
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PIDControlNE::~PIDControlNE() {}
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void PIDControlNE::Initialize()
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{}
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void PIDControlNE::Deactivate()
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{
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mActive = false;
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@ -62,6 +73,10 @@ void PIDControlNE::Deactivate()
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void PIDControlNE::Activate()
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{
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mActive = true;
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pid2_transfer(&PIDvel[0], 0.0f);
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pid2_transfer(&PIDvel[1], 0.0f);
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pid_zero(&PIDposH[0]);
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pid_zero(&PIDposH[1]);
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}
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void PIDControlNE::UpdateParameters(float kp, float ki, float kd, float beta, float dT, float velocityMax)
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@ -84,6 +84,7 @@ void VtolFlyController::Activate(void)
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mManualThrust = false;
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SettingsUpdated();
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controlDown.Activate();
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controlNE.UpdateVelocitySetpoint(0.0f, 0.0f);
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controlNE.Activate();
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mMode = pathDesired->Mode;
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@ -175,8 +176,6 @@ void VtolFlyController::UpdateVelocityDesired()
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VelocityStateData velocityState;
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VelocityStateGet(&velocityState);
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controlNE.UpdateVelocityState(velocityState.North, velocityState.East);
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controlDown.UpdateVelocityState(velocityState.Down);
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VelocityDesiredData velocityDesired;
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@ -192,6 +191,9 @@ void VtolFlyController::UpdateVelocityDesired()
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controlDown.ControlPositionWithPath(&progress);
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}
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controlNE.UpdateVelocityState(velocityState.North, velocityState.East);
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controlDown.UpdateVelocityState(velocityState.Down);
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float north, east;
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controlNE.GetVelocityDesired(&north, &east);
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velocityDesired.North = north;
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@ -368,6 +370,7 @@ void VtolFlyController::UpdateAutoPilot()
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// to the pathDesired to initiate a Landing sequence. This is the simpliest approach. plans.c
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// can't manage this. And pathplanner whilst similar does not manage this as it is not a
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// waypoint traversal and is not aware of flight modes other than path plan.
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if (flightStatus->FlightMode == FLIGHTSTATUS_FLIGHTMODE_RETURNTOBASE) {
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if ((uint8_t)pathDesired->ModeParameters[PATHDESIRED_MODEPARAMETER_GOTOENDPOINT_NEXTCOMMAND] == FLIGHTMODESETTINGS_RETURNTOBASENEXTCOMMAND_LAND) {
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if (pathStatus->fractional_progress > RTB_LAND_FRACTIONAL_PROGRESS_START_CHECKS) {
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if (fabsf(pathStatus->correction_direction_north) < RTB_LAND_NE_DISTANCE_REQUIRED_TO_START_LAND_SEQUENCE && fabsf(pathStatus->correction_direction_east) < RTB_LAND_NE_DISTANCE_REQUIRED_TO_START_LAND_SEQUENCE) {
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@ -375,6 +378,7 @@ void VtolFlyController::UpdateAutoPilot()
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}
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}
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}
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}
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}
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/**
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* vtol autopilot
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