forked from Archive/PX4-Autopilot
mc_pos_control: only swithc to velocity control from hold_engaged when user moves stick
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@ -196,6 +196,7 @@ private:
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param_t global_yaw_max;
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param_t mc_att_yaw_p;
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param_t hold_xy_dz;
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param_t hold_z_dz;
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param_t hold_max_xy;
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param_t hold_max_z;
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param_t acc_hor_max;
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@ -223,6 +224,7 @@ private:
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float global_yaw_max;
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float mc_att_yaw_p;
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float hold_xy_dz;
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float hold_z_dz;
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float hold_max_xy;
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float hold_max_z;
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float acc_hor_max;
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@ -516,6 +518,7 @@ MulticopterPositionControl::MulticopterPositionControl() :
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_params_handles.global_yaw_max = param_find("MC_YAWRATE_MAX");
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_params_handles.mc_att_yaw_p = param_find("MC_YAW_P");
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_params_handles.hold_xy_dz = param_find("MPC_HOLD_XY_DZ");
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_params_handles.hold_z_dz = param_find("MPC_HOLD_Z_DZ");
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_params_handles.hold_max_xy = param_find("MPC_HOLD_MAX_XY");
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_params_handles.hold_max_z = param_find("MPC_HOLD_MAX_Z");
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_params_handles.acc_hor_max = param_find("MPC_ACC_HOR_MAX");
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@ -626,6 +629,9 @@ MulticopterPositionControl::parameters_update(bool force)
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param_get(_params_handles.hold_xy_dz, &v);
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v = math::constrain(v, 0.0f, 1.0f);
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_params.hold_xy_dz = v;
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param_get(_params_handles.hold_z_dz, &v);
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v = math::constrain(v, 0.0f, 1.0f);
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_params.hold_z_dz = v;
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param_get(_params_handles.hold_max_xy, &v);
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_params.hold_max_xy = (v < 0.0f ? 0.0f : v);
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param_get(_params_handles.hold_max_z, &v);
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@ -965,26 +971,69 @@ MulticopterPositionControl::control_manual(float dt)
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* hold is activated for the corresponding axis
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*/
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/* vertical axis */
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bool do_alt_hold = _control_mode.flag_control_altitude_enabled &&
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/* check vertical hold engaged flag */
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if (_alt_hold_engaged) {
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/* only switch back to velocity control if user moves stick */
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_alt_hold_engaged = _control_mode.flag_control_altitude_enabled && (fabsf(req_vel_sp_z) < _params.hold_z_dz);
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} else {
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/* check if we switch to alt_hold_engaged */
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bool smooth_alt_transition = _control_mode.flag_control_altitude_enabled &&
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fabsf(req_vel_sp_z) < FLT_EPSILON &&
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(_params.hold_max_z < FLT_EPSILON || fabsf(_vel(2)) < _params.hold_max_z);
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bool smooth_alt_transition = do_alt_hold && !_alt_hold_engaged;
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/* during transition predict setpoint forward */
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if (smooth_alt_transition) {
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/* get max acceleration */
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float max_acc_z = (_vel(2) < 0.0f ? _params.acc_down_max : -_params.acc_up_max);
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/* time to travel from current velocity to zero velocity */
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float delta_t = -_vel(2) / max_acc_z;
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/* horizontal axes */
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/* set desired position setpoint assuming max acceleraiton */
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_pos_sp(2) = _pos(2) + _vel(2) * delta_t + 0.5f * max_acc_z * delta_t *delta_t;
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_alt_hold_engaged = true;
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}
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}
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/* check horizontal hold engaged flag */
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if (_pos_hold_engaged) {
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/* only switch back to velocity control if user moves stick */
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_pos_hold_engaged = _control_mode.flag_control_position_enabled && (fabsf(req_vel_sp_xy(0)) < _params.hold_xy_dz)
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&& (fabsf(req_vel_sp_xy(1)) < _params.hold_xy_dz);
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} else {
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/* check if we switch to pos_hold_engaged */
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float vel_xy_mag = sqrtf(_vel(0) * _vel(0) + _vel(1) * _vel(1));
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bool do_pos_hold = _control_mode.flag_control_position_enabled &&
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bool smooth_pos_transition = _control_mode.flag_control_position_enabled &&
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(fabsf(req_vel_sp_xy(0)) < _params.hold_xy_dz && fabsf(req_vel_sp_xy(1)) < _params.hold_xy_dz) &&
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(_params.hold_max_xy < FLT_EPSILON || vel_xy_mag < _params.hold_max_xy);
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bool smooth_pos_transition = do_pos_hold && !_pos_hold_engaged;
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/* during transition predict setpoint forward */
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if (smooth_pos_transition) {
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/* time to travel from current velocity to zero velocity */
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float delta_t = sqrtf(_vel(0) * _vel(0) + _vel(1) * _vel(1)) / _params.acc_hor_max;
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/* p pos_sp in xy from max acceleration and current velocity */
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math::Vector<2> pos(_pos(0), _pos(1));
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math::Vector<2> vel(_vel(0), _vel(1));
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math::Vector<2> pos_sp = pos + vel * delta_t - vel.normalized() * 0.5f * _params.acc_hor_max * delta_t *delta_t;
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_pos_sp(0) = pos_sp(0);
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_pos_sp(1) = pos_sp(1);
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_pos_hold_engaged = true;
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}
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}
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/* update hold flags */
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_alt_hold_engaged = do_alt_hold;
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_pos_hold_engaged = do_pos_hold;
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/* set requested velocity setpoitns */
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if (!_alt_hold_engaged) {
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@ -1001,30 +1050,6 @@ MulticopterPositionControl::control_manual(float dt)
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_vel_sp(1) = req_vel_sp_scaled(1);
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}
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/* reset position setpoints when in smooth transition for position*/
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if (smooth_pos_transition) {
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/* time to travel from current velocity to zero velocity */
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float delta_t = sqrtf(_vel(0) * _vel(0) + _vel(1) * _vel(1)) / _params.acc_hor_max;
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/* p pos_sp in xy from max acceleration and current velocity */
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math::Vector<2> pos(_pos(0), _pos(1));
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math::Vector<2> vel(_vel(0), _vel(1));
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math::Vector<2> pos_sp = pos + vel * delta_t - vel.normalized() * 0.5f * _params.acc_hor_max * delta_t *delta_t;
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_pos_sp(0) = pos_sp(0);
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_pos_sp(1) = pos_sp(1);
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}
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if (smooth_alt_transition) {
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/* get max acceleration */
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float max_acc_z = (_vel(2) < 0.0f ? _params.acc_down_max : -_params.acc_up_max);
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/* time to travel from current velocity to zero velocity */
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float delta_t = -_vel(2) / max_acc_z;
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/* set desired position setpoint assuming max acceleraiton */
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_pos_sp(2) = _pos(2) + _vel(2) * delta_t + 0.5f * max_acc_z * delta_t *delta_t;
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}
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if (_vehicle_land_detected.landed) {
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/* don't run controller when landed */
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_reset_pos_sp = true;
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@ -413,6 +413,18 @@ PARAM_DEFINE_FLOAT(MPC_MAN_Y_MAX, 200.0f);
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*/
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PARAM_DEFINE_FLOAT(MPC_HOLD_XY_DZ, 0.1f);
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/**
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* Deadzone of Z stick where altitude hold is enabled
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*
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* @min 0.0
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* @max 1.0
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* @decimal 2
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* @group Multicopter Position Control
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*/
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PARAM_DEFINE_FLOAT(MPC_HOLD_Z_DZ, 0.1f);
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/**
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* Maximum horizontal velocity for which position hold is enabled (use 0 to disable check)
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*
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