#include "Copter.h" Mode::_TakeOff Mode::takeoff; bool Mode::auto_takeoff_no_nav_active = false; float Mode::auto_takeoff_no_nav_alt_cm = 0; // This file contains the high-level takeoff logic for Loiter, PosHold, AltHold, Sport modes. // The take-off can be initiated from a GCS NAV_TAKEOFF command which includes a takeoff altitude // A safe takeoff speed is calculated and used to calculate a time_ms // the pos_control target is then slowly increased until time_ms expires bool Mode::do_user_takeoff_start(float takeoff_alt_cm) { copter.flightmode->takeoff.start(takeoff_alt_cm); return true; } // initiate user takeoff - called when MAVLink TAKEOFF command is received bool Mode::do_user_takeoff(float takeoff_alt_cm, bool must_navigate) { if (!copter.motors->armed()) { return false; } if (!copter.ap.land_complete) { // can't takeoff again! return false; } if (!has_user_takeoff(must_navigate)) { // this mode doesn't support user takeoff return false; } if (takeoff_alt_cm <= copter.current_loc.alt) { // can't takeoff downwards... return false; } // Helicopters should return false if MAVlink takeoff command is received while the rotor is not spinning if (motors->get_spool_state() != AP_Motors::SpoolState::THROTTLE_UNLIMITED && copter.ap.using_interlock) { return false; } if (!do_user_takeoff_start(takeoff_alt_cm)) { return false; } copter.set_auto_armed(true); return true; } // start takeoff to specified altitude above home in centimeters void Mode::_TakeOff::start(float alt_cm) { // indicate we are taking off copter.set_land_complete(false); // tell position controller to reset alt target and reset I terms copter.flightmode->set_throttle_takeoff(); // calculate climb rate const float speed = MIN(copter.wp_nav->get_default_speed_up(), MAX(copter.g.pilot_speed_up*2.0f/3.0f, copter.g.pilot_speed_up-50.0f)); // sanity check speed and target if (speed <= 0.0f || alt_cm <= 0.0f) { return; } // initialise takeoff state _running = true; max_speed = speed; start_ms = millis(); alt_delta = alt_cm; } // stop takeoff void Mode::_TakeOff::stop() { _running = false; start_ms = 0; } // returns pilot and takeoff climb rates // pilot_climb_rate is both an input and an output // takeoff_climb_rate is only an output // has side-effect of turning takeoff off when timeout as expired void Mode::_TakeOff::get_climb_rates(float& pilot_climb_rate, float& takeoff_climb_rate) { // return pilot_climb_rate if take-off inactive if (!_running) { takeoff_climb_rate = 0.0f; return; } // acceleration of 50cm/s/s static constexpr float TAKEOFF_ACCEL = 50.0f; const float takeoff_minspeed = MIN(50.0f, max_speed); const float time_elapsed = (millis() - start_ms) * 1.0e-3f; const float speed = MIN(time_elapsed * TAKEOFF_ACCEL + takeoff_minspeed, max_speed); const float time_to_max_speed = (max_speed - takeoff_minspeed) / TAKEOFF_ACCEL; float height_gained; if (time_elapsed <= time_to_max_speed) { height_gained = 0.5f * TAKEOFF_ACCEL * sq(time_elapsed) + takeoff_minspeed * time_elapsed; } else { height_gained = 0.5f * TAKEOFF_ACCEL * sq(time_to_max_speed) + takeoff_minspeed * time_to_max_speed + (time_elapsed - time_to_max_speed) * max_speed; } // check if the takeoff is over if (height_gained >= alt_delta) { stop(); } // if takeoff climb rate is zero return if (speed <= 0.0f) { takeoff_climb_rate = 0.0f; return; } // default take-off climb rate to maximum speed takeoff_climb_rate = speed; // if pilot's commands descent if (pilot_climb_rate < 0.0f) { // if overall climb rate is still positive, move to take-off climb rate if (takeoff_climb_rate + pilot_climb_rate > 0.0f) { takeoff_climb_rate = takeoff_climb_rate + pilot_climb_rate; pilot_climb_rate = 0.0f; } else { // if overall is negative, move to pilot climb rate pilot_climb_rate = pilot_climb_rate + takeoff_climb_rate; takeoff_climb_rate = 0.0f; } } else { // pilot commands climb // pilot climb rate is zero until it surpasses the take-off climb rate if (pilot_climb_rate > takeoff_climb_rate) { pilot_climb_rate = pilot_climb_rate - takeoff_climb_rate; } else { pilot_climb_rate = 0.0f; } } } void Mode::auto_takeoff_run() { // if not armed set throttle to zero and exit immediately if (!motors->armed() || !copter.ap.auto_armed) { make_safe_spool_down(); wp_nav->shift_wp_origin_to_current_pos(); return; } // set motors to full range motors->set_desired_spool_state(AP_Motors::DesiredSpoolState::THROTTLE_UNLIMITED); // process pilot's yaw input float target_yaw_rate = 0; if (!copter.failsafe.radio) { // get pilot's desired yaw rate target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->get_control_in()); } // aircraft stays in landed state until rotor speed runup has finished if (motors->get_spool_state() == AP_Motors::SpoolState::THROTTLE_UNLIMITED) { set_land_complete(false); } else { wp_nav->shift_wp_origin_to_current_pos(); } // check if we are not navigating because of low altitude float nav_roll = 0.0f, nav_pitch = 0.0f; if (auto_takeoff_no_nav_active) { // check if vehicle has reached no_nav_alt threshold if (inertial_nav.get_altitude() >= auto_takeoff_no_nav_alt_cm) { auto_takeoff_no_nav_active = false; wp_nav->shift_wp_origin_and_destination_to_stopping_point_xy(); } else { // shift the navigation target horizontally to our current position wp_nav->shift_wp_origin_and_destination_to_current_pos_xy(); } // tell the position controller that we have limited roll/pitch demand to prevent integrator buildup pos_control->set_limit_accel_xy(); } // run waypoint controller copter.failsafe_terrain_set_status(wp_nav->update_wpnav()); if (!auto_takeoff_no_nav_active) { nav_roll = wp_nav->get_roll(); nav_pitch = wp_nav->get_pitch(); } // call z-axis position controller (wpnav should have already updated it's alt target) copter.pos_control->update_z_controller(); // roll & pitch from waypoint controller, yaw rate from pilot attitude_control->input_euler_angle_roll_pitch_euler_rate_yaw(nav_roll, nav_pitch, target_yaw_rate); } void Mode::auto_takeoff_set_start_alt(void) { if ((g2.wp_navalt_min > 0) && (is_disarmed_or_landed() || !motors->get_interlock())) { // we are not flying, climb with no navigation to current alt-above-ekf-origin + wp_navalt_min auto_takeoff_no_nav_alt_cm = inertial_nav.get_altitude() + g2.wp_navalt_min * 100; auto_takeoff_no_nav_active = true; } else { auto_takeoff_no_nav_active = false; } } bool Mode::is_taking_off() const { if (!has_user_takeoff(false)) { return false; } if (copter.ap.land_complete) { return false; } if (takeoff.running()) { return true; } return false; }