#include "AC_PrecLand_config.h" #if AC_PRECLAND_ENABLED #include #include "AC_PrecLand_StateMachine.h" #include #include static const float MAX_POS_ERROR_M = 0.75f; // Maximum position error for retry locations static const uint32_t FAILSAFE_INIT_TIMEOUT_MS = 7000; // Timeout in ms before failsafe measures are started. During this period vehicle is completely stopped to give user the time to take over static const float RETRY_OFFSET_ALT_M = 1.5f; // This gets added to the altitude of the retry location // Initialize the state machine. This is called every time vehicle switches mode void AC_PrecLand_StateMachine::init() { AC_PrecLand *_precland = AP::ac_precland(); if (_precland == nullptr) { // precland not enabled return; } if (!_precland->enabled()) { // precland is not enabled, prec land state machine methods should not be called! return; } // init is only called ONCE per mode change. So in a particular mode we can retry only a finite times. // The counter will be reset if the statemachine is called from a different mode _retry_count = 0; // reset every other statemachine reset_failed_landing_statemachine(); } // Reset the landing statemachines. This needs to be called every time the landing target is back in sight. // So that if the landing target goes out of sight again, we can start the failed landing procedure back from the beginning stage void AC_PrecLand_StateMachine::reset_failed_landing_statemachine() { landing_target_lost_action = TargetLostAction::INIT; _retry_state = RetryLanding::INIT; failsafe_initialized = false; } // Run Prec Land State Machine. During Prec Landing, we might encounter four scenarios: // 1. We had the target in sight, but have lost it now. 2. We never had the target in sight and user wants to land. // 3. We have the target in sight and can continue landing. 4. The sensor is out of range // This method deals with all of these scenarios // Returns the action needed to be done by the vehicle. // Parameters: Vector3f "retry_pos_m" is filled with the required location if we need to retry landing. AC_PrecLand_StateMachine::Status AC_PrecLand_StateMachine::update(Vector3f &retry_pos_m) { // grab the current status of Landing Target AC_PrecLand *_precland = AP::ac_precland(); if (_precland == nullptr) { // should never happen return Status::ERROR; } if (!_precland->enabled()) { // precland is not enabled, prec land state machine should not be called! return Status::ERROR; } AC_PrecLand::TargetState precland_target_state = _precland->get_target_state(); switch (precland_target_state) { case AC_PrecLand::TargetState::TARGET_RECENTLY_LOST: // we have lost the target but had it in sight at least once recently // action will depend on what user wants return get_target_lost_actions(retry_pos_m); case AC_PrecLand::TargetState::TARGET_NEVER_SEEN: // we have no clue where we are supposed to be landing // let user decide how strict our failsafe actions need to be return Status::FAILSAFE; case AC_PrecLand::TargetState::TARGET_OUT_OF_RANGE: // The target isn't in sight, but we can't run any fail safe measures or do landing retry // Therefore just descend for now, and check again later if retry is allowed case AC_PrecLand::TargetState::TARGET_FOUND: // no action required, target is in sight reset_failed_landing_statemachine(); return Status::DESCEND; } // should never reach here, all values are handled above return Status::ERROR; } // Target is lost (i.e we had it in sight some time back), this method helps decide on what needs to be done next // The chosen action depends on user set landing strictness and will be returned by this function // Parameters: Vector3f "retry_pos_m" is filled with the required location if we need to retry landing. AC_PrecLand_StateMachine::Status AC_PrecLand_StateMachine::get_target_lost_actions(Vector3f &retry_pos_m) { AC_PrecLand *_precland = AP::ac_precland(); if (_precland == nullptr) { // should never happen return Status::ERROR; } switch (landing_target_lost_action) { case TargetLostAction::INIT: { // figure out how strict the user is with the landing const RetryStrictness strictness =_precland->get_retry_strictness(); switch (strictness) { case RetryStrictness::NORMAL: case RetryStrictness::VERY_STRICT: // We eventually want to retry landing, but lets descend for some time and hope the target gets in sight // If not, we will retry landing landing_target_lost_action = TargetLostAction::DESCEND; break; case RetryStrictness::NOT_STRICT: // User just wants to land, prec land isn't a priority landing_target_lost_action = TargetLostAction::LAND_VERTICALLY; break; } // at this stage we will be descending no matter what // so no special action required return Status::DESCEND; } case TargetLostAction::DESCEND: if (AP_HAL::millis() - _precland->get_last_valid_target_ms() >=_precland->get_min_retry_time_sec() * 1000) { // we have descended for some time and the target still isn't in sight // lets retry landing_target_lost_action = TargetLostAction::RETRY_LANDING; _retry_state = RetryLanding::INIT; } // still descending, no other action return Status::DESCEND; case TargetLostAction::RETRY_LANDING: // retry the landing by going to another position return retry_landing(retry_pos_m); case TargetLostAction::LAND_VERTICALLY: // Just land vertically // we will not be retrying to any location here on, so return false return Status::DESCEND; } // should never reach here, all cases are handled above return Status::ERROR; } // Retry landing based on a previously known location of the landing target // Returns the action that should be taken by the vehicle // Vector3f "retry_pos_m" is filled with the required location. AC_PrecLand_StateMachine::Status AC_PrecLand_StateMachine::retry_landing(Vector3f &retry_pos_m) { AC_PrecLand *_precland = AP::ac_precland(); if (_precland == nullptr) { // should never happen return Status::ERROR; } if (_precland->get_max_retry_allowed() == 0) { // user does not want retry return Status::FAILSAFE; } if (_retry_count > _precland->get_max_retry_allowed()) { // we have exhausted the amount of times vehicle was allowed to retry landing // do failsafe measure so the vehicle isn't stuck in a constant loop return Status::FAILSAFE; } // get the retry position. This depends on what retry behavior has been set by user Vector3f go_to_pos; const RetryAction retry_action = _precland->get_retry_behaviour(); if (retry_action == RetryAction::GO_TO_TARGET_LOC) { _precland->get_last_detected_landing_pos(go_to_pos); } else if (retry_action == RetryAction::GO_TO_LAST_LOC) { _precland->get_last_vehicle_pos_when_target_detected(go_to_pos); } // add a little bit offset so the vehicle climbs slightly higher than where it was // remember this is "D" frame and in meters's go_to_pos.z -= RETRY_OFFSET_ALT_M; switch (_retry_state) { case RetryLanding::INIT: // Init the Retry _retry_count ++; _retry_state = RetryLanding::IN_PROGRESS; // inform the user what we are doing if (_retry_count <= _precland->get_max_retry_allowed()) { GCS_SEND_TEXT(MAV_SEVERITY_INFO, "PrecLand: Retrying"); } retry_pos_m = go_to_pos; return Status::RETRYING; case RetryLanding::IN_PROGRESS: { // continue converging towards the target till we are close by retry_pos_m = go_to_pos; Vector3f pos; if (!AP::ahrs().get_relative_position_NED_origin(pos)) { return Status::ERROR; } const float dist_to_target = (go_to_pos-pos).length(); if ((dist_to_target < MAX_POS_ERROR_M)) { // we have approx reached landing location previously detected _retry_state = RetryLanding::DESCEND; } return Status::RETRYING; } case RetryLanding::DESCEND: { // descend a little bit before completing the retry // This will descend to the original height of where landing target was first detected Vector3f pos; if (!AP::ahrs().get_relative_position_NED_origin(pos)) { return Status::ERROR; } // z_target is in "D" frame const float z_target = go_to_pos.z + RETRY_OFFSET_ALT_M; retry_pos_m = Vector3f{pos.x, pos.y, z_target}; if (fabsf(pos.z - retry_pos_m.z) < MAX_POS_ERROR_M) { // we have descended to the original height where we started the climb from _retry_state = RetryLanding::COMPLETE; GCS_SEND_TEXT(MAV_SEVERITY_INFO, "PrecLand: Retry Completed"); } return Status::RETRYING; } case RetryLanding::COMPLETE: // Vehicle has completed a retry, and most likely the landing location still isn't sight // we have no choice but to force a failsafe action return Status::FAILSAFE; } // should never reach here return Status::ERROR; } // This is only called when the current status of the state machine returns "failsafe" and will return the action that the vehicle should do // At the moment this method only allows you to stop in air permanently, or land vertically // Failsafe will only trigger as a last resort AC_PrecLand_StateMachine::FailSafeAction AC_PrecLand_StateMachine::get_failsafe_actions() { AC_PrecLand *_precland = AP::ac_precland(); if (_precland == nullptr) { // should never happen, just descend return FailSafeAction::DESCEND; } if (!failsafe_initialized) { // start the timer failsafe_start_ms = AP_HAL::millis(); failsafe_initialized = true; GCS_SEND_TEXT(MAV_SEVERITY_INFO, "PrecLand: Failsafe Measures"); } // Depending on the strictness we will either land vertically, wait for some time and then land vertically, not land at all const RetryStrictness strictness= _precland->get_retry_strictness(); switch (strictness) { case RetryStrictness::VERY_STRICT: // user does not want to land on anything but the target // stop landing (hover) return FailSafeAction::HOLD_POS; case RetryStrictness::NORMAL: if (AP_HAL::millis() - failsafe_start_ms < FAILSAFE_INIT_TIMEOUT_MS) { // stop the vehicle for at least a few seconds before descending // this might give user the chance to take over // we do not want to be too linent in landing vertically because of the strictness set by the user return FailSafeAction::HOLD_POS; } // land the vehicle vertically return FailSafeAction::DESCEND; case RetryStrictness::NOT_STRICT: // User wants to prioritize landing over staying in the air return FailSafeAction::DESCEND; } // should never reach here return FailSafeAction::DESCEND; } #endif // AC_PRECLAND_ENABLED