mirror of
https://github.com/azaion/autopilot.git
synced 2026-04-22 06:46:34 +00:00
Use raw missions in AutoPilot
- uses MAVSDK::MissionRaw objects for missions - added new state AZ_DRONE_STATE_MISSION_UPLOADED - new state is used in AzDroneControllerPlane before waiting for AUTO switch TODO!! - move to AzMissionController - use JSON file instead of hard coded mission items
This commit is contained in:
Tuomas Järvinen
@@ -5,6 +5,8 @@
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#include <QTimer>
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#include <mavsdk/plugins/action/action.h>
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#include <mavsdk/plugins/mission/mission.h>
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#include <mavsdk/plugins/mission_raw/mission_raw.h>
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#include <mavsdk/plugins/telemetry/telemetry.h>
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#include "az_config.h"
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@@ -12,9 +14,10 @@
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AzDroneController::AzDroneController(AzMission &mission, QObject *parent)
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: QObject(parent)
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, mMavsdk{Mavsdk::Configuration{Mavsdk::ComponentType::GroundStation}}
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, // TODO!! Autopilot or CompanionComputer?
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mDroneState(AZ_DRONE_STATE_DISCONNECTED)
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, mMavsdk{Mavsdk::Configuration{Mavsdk::ComponentType::GroundStation}} // TODO!! Autopilot or CompanionComputer?
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, mDroneState(AZ_DRONE_STATE_DISCONNECTED)
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, mMissionRaw(NULL)
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, mMissionItemSeqNum(0)
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{
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mFirstPosition.relative_altitude_m = -10000;
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@@ -32,6 +35,42 @@ AzDroneController::AzDroneController(AzMission &mission, QObject *parent)
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// Healt info update from MAVSDK.
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connect(this, &AzDroneController::newHealthInfo, this, &AzDroneController::newHealthInfoSlot, Qt::QueuedConnection);
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isCopterType = QCoreApplication::arguments().at(2) == "quadcopter";
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}
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MissionRaw::MissionItem AzDroneController::makeRawMissionItem(
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float latitude_deg1e7,
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float longitude_deg1e7,
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int32_t altitude_m,
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float do_photo,
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MAV_FRAME frame,
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MAV_CMD command,
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float p2,
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float p3)
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{
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(void)p2;
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(void)p3;
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MissionRaw::MissionItem new_item{};
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new_item.seq = mMissionItemSeqNum;
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new_item.frame = static_cast<uint32_t>(frame);
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new_item.command = static_cast<uint32_t>(command);
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new_item.param1 = do_photo;
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new_item.x = latitude_deg1e7 * 1e7;
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new_item.y = longitude_deg1e7 * 1e7;
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new_item.z = altitude_m;
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new_item.mission_type = MAV_MISSION_TYPE_MISSION;
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new_item.autocontinue = 1;
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if (mMissionItemSeqNum == 1) {
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new_item.current = 1;
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}
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mMissionItemSeqNum++;
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return new_item;
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}
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@@ -142,6 +181,98 @@ bool AzDroneController::stateHealthOk(void)
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}
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bool AzDroneController::stateUploadMission(void)
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{
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cout << "[CONTROLLER] stateUploadMission() Setting raw mission starts" << endl;
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mMissionItemSeqNum = 0;
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if (mMissionRaw == NULL) {
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mMissionRaw = new MissionRaw(*mSystem);
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}
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mMissionRaw->clear_mission();
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if (mMissionRaw == NULL) {
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mMissionRaw = new MissionRaw(*mSystem);
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}
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auto clearResult = mMissionRaw->clear_mission();
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if (clearResult != MissionRaw::Result::Success) {
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std::cout << "[CONTROLLER] stateUploadMission() Clearing mMissionRaw failed" << std::endl;
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return false;
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}
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auto downloadResult = mMissionRaw->download_mission();
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if (downloadResult.first != MissionRaw::Result::Success) {
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std::cout << "[CONTROLLER] stateUploadMission() Downloading mission failed" << std::endl;
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return false;
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}
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// first point in case of ardupilot is always home
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auto missionPlan = downloadResult.second;
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MissionRaw::MissionItem homePoint = missionPlan[0];
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missionPlan.clear();
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// going relative alt mission so we dont care about altitude
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auto latDeg = homePoint.x * 1e-7;
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auto lonDeg = homePoint.y * 1e-7;
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// in case of ardupilot we want to set lat lon to 0, to use current position as takeoff position
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missionPlan.push_back(makeRawMissionItem(
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0, // lat
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0, // lon
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50.0,
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0,
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MAV_FRAME_GLOBAL_RELATIVE_ALT,
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MAV_CMD_NAV_TAKEOFF));
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// setup speed during mission execution
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missionPlan.push_back(makeRawMissionItem(
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0, 0, 0, 0, MAV_FRAME_GLOBAL_RELATIVE_ALT, MAV_CMD_DO_CHANGE_SPEED, 9.35f, -1.0f));
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missionPlan.push_back(makeRawMissionItem(
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latDeg + 0.001,
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lonDeg + 0.001,
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50.00,
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0,
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MAV_FRAME_GLOBAL_TERRAIN_ALT,
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MAV_CMD_NAV_WAYPOINT));
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missionPlan.push_back(makeRawMissionItem(
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latDeg + 0.001,
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lonDeg - 0.001,
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50.00,
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0,
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MAV_FRAME_GLOBAL_TERRAIN_ALT,
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MAV_CMD_NAV_WAYPOINT));
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missionPlan.push_back(makeRawMissionItem(
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latDeg - 0.001, lonDeg, 50.00, 0, MAV_FRAME_GLOBAL_TERRAIN_ALT, MAV_CMD_NAV_WAYPOINT));
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missionPlan.push_back(makeRawMissionItem(
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latDeg, lonDeg, 50.00, 0, MAV_FRAME_GLOBAL_TERRAIN_ALT, MAV_CMD_NAV_LAND));
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missionPlan.push_back(
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makeRawMissionItem(0, 0, 0, 0, MAV_FRAME_GLOBAL_INT, MAV_CMD_NAV_RETURN_TO_LAUNCH));
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for (const auto& item : missionPlan) {
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std::cout << "[CONTROLLER] stateUploadMission() seq: " << (int)item.seq << '\n';
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}
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auto uploadResult = mMissionRaw->upload_mission(missionPlan);
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if (uploadResult != MissionRaw::Result::Success) {
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std::cout << "[CONTROLLER] stateUploadMission() upload failed. Result: " << uploadResult << std::endl;
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return false;
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}
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mMissionRaw->set_current_mission_item(0);
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cout << "[CONTROLLER] stateUploadMission() Setting raw mission ends" << endl;
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return true;
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}
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bool AzDroneController::stateArm(void)
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{
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Action::Result result = mAction->arm();
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@@ -158,11 +289,6 @@ bool AzDroneController::stateArm(void)
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bool AzDroneController::stateTakeoff(void)
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{
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// Drone never reaches the target altitude with ArduPilot. This seems
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// to be a bug in MAVSDK/ArduPilot, because this doesn't happen with PX4.
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// Added extra check to AzDroneController::stateFlyMission() to not start the
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// mission before 90% of AZ_RELATIVE_FLY_ALTITUDE is reached.
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mAction->set_takeoff_altitude(AZ_RELATIVE_FLY_ALTITUDE);
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Action::Result result = mAction->takeoff();
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cout << "[CONTROLLER] MAVSDK::Action::takeoff() failed. Reason: " << result << endl;
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@@ -172,14 +298,26 @@ bool AzDroneController::stateTakeoff(void)
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bool AzDroneController::stateFlyMission(void)
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{
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if (mCurrentPosition.relative_altitude_m < AZ_RELATIVE_FLY_ALTITUDE * 0.90) {
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// Drone never reaches the target altitude with ArduPilot. This seems
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// to be a bug in MAVSDK/ArduPilot, because this doesn't happen with PX4.
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// Added extra check to AzDroneController::stateFlyMission() to not start the
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// mission before 90% of AZ_RELATIVE_FLY_ALTITUDE is reached.
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if (isCopterType && mCurrentPosition.relative_altitude_m < AZ_RELATIVE_FLY_ALTITUDE * 0.90) {
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cout << "[CONTROLLER] 90% of the takeoff altitide is not reached yet." << endl;
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return false;
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}
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// TODO!! Check with the team about fly altitude. Is altitudes in JSON file absolute or relative?
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float flight_altitude_abs = AZ_RELATIVE_FLY_ALTITUDE + mFirstPosition.absolute_altitude_m;
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return mMissionController->startMissions(flight_altitude_abs);
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//float flight_altitude_abs = AZ_RELATIVE_FLY_ALTITUDE + mFirstPosition.absolute_altitude_m;
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//return mMissionController->startMissions(flight_altitude_abs);
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// start mission, this set autopilot auto mode.
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// ignore result, we dont care for now
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MissionRaw::Result startResult = mMissionRaw->start_mission();
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cout << "Start mission result:" << startResult << endl;
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cout << "AzDroneController::stateFlyMission() ends\n";
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return startResult == MissionRaw::Result::Success;
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}
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@@ -246,8 +384,19 @@ void AzDroneController::droneStateMachineSlot(void)
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void AzDroneController::newPositionSlot(Telemetry::Position position)
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{
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cout << "[CONTROLLER] GPS position: " << position.latitude_deg << ", " << position.longitude_deg
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<< " Altitudes: " << position.absolute_altitude_m << ", " << position.relative_altitude_m << endl;
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/*
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static Telemetry::Position previousPosition;
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// Only print position if it has changed.
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if (position == previousPosition) {
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return;
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}
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previousPosition = position;
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*/
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//cout << "[CONTROLLER] GPS position: " << position.latitude_deg << ", " << position.longitude_deg
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// << " Altitudes: " << position.absolute_altitude_m << ", " << position.relative_altitude_m << endl;
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// Save first position. It will be used later to set altitude for missions.
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// TODO!! Probably we want to use rangefinder or at least barometer with altitude from the map later.
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@@ -267,7 +416,8 @@ void AzDroneController::newPositionSlot(Telemetry::Position position)
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void AzDroneController::newHeadingSlot(double heading)
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{
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cout << "[CONTROLLER] Heading: " << heading << endl;
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(void)heading;
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//cout << "[CONTROLLER] Heading: " << heading << endl;
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}
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@@ -5,6 +5,7 @@
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#include <mavsdk/mavsdk.h>
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#include <mavsdk/plugins/action/action.h>
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#include <mavsdk/plugins/mission_raw/mission_raw.h>
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#include <mavsdk/plugins/telemetry/telemetry.h>
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#include "az_mission.h"
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@@ -19,6 +20,7 @@ typedef enum {
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AZ_DRONE_STATE_GOT_TELEMETRY_MODULE,
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AZ_DRONE_STATE_GOT_ACTION_MODULE,
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AZ_DRONE_STATE_HEALTH_OK,
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AZ_DRONE_STATE_MISSION_UPLOADED,
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AZ_DRONE_STATE_ARMED,
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AZ_DRONE_STATE_TAKE_OFF,
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AZ_DRONE_STATE_AUTO_MODE_ACTIVATED,
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@@ -44,8 +46,18 @@ protected:
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bool stateGetActionModule(void);
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bool stateHealthOk(void);
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bool stateArm(void);
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bool stateUploadMission(void);
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bool stateTakeoff(void);
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bool stateFlyMission(void);
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void setRawMission(void);
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MissionRaw::MissionItem makeRawMissionItem(float latitude_deg1e7,
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float longitude_deg1e7,
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int32_t altitude_m,
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float do_photo,
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MAV_FRAME frame,
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MAV_CMD command,
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float p2 = 0,
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float p3 = 0);
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// Slots that are called by the emitted Qt signals.
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protected slots:
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@@ -93,7 +105,10 @@ protected:
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shared_ptr<System> mSystem;
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Telemetry *mTelemetry;
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Action *mAction;
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MissionRaw *mMissionRaw;
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Telemetry::Position mFirstPosition;
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Telemetry::Position mCurrentPosition;
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AzMissionController *mMissionController;
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bool isCopterType;
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int mMissionItemSeqNum;
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};
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@@ -34,7 +34,8 @@ void AzDroneControllerPlane::droneStateMachineSlot(void)
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{AZ_DRONE_STATE_GOT_SYSTEM, &AzDroneControllerPlane::stateGetTelemetryModule, "Getting telemetry module", 1000},
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{AZ_DRONE_STATE_GOT_TELEMETRY_MODULE, &AzDroneControllerPlane::stateGetActionModule, "Getting action module", 1000},
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{AZ_DRONE_STATE_GOT_ACTION_MODULE, &AzDroneControllerPlane::stateHealthOk, "Drone health OK", 1000},
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{AZ_DRONE_STATE_HEALTH_OK, &AzDroneControllerPlane::stateWaitAutoSwitch, "User switched to AUTO mode", 1000},
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{AZ_DRONE_STATE_HEALTH_OK, &AzDroneControllerPlane::stateUploadMission, "Uploading the mission", 1000},
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{AZ_DRONE_STATE_MISSION_UPLOADED, &AzDroneControllerPlane::stateWaitAutoSwitch, "Waiting user to switch to ArduPilot AUTO mode", 1000},
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{AZ_DRONE_STATE_AUTO_MODE_ACTIVATED, &AzDroneControllerPlane::stateFlyMission, "Starting the mission", 1000},
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{AZ_DRONE_STATE_FLY_MISSION, nullptr, "Mission started", 0}};
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@@ -25,7 +25,7 @@ int main(int argc, char *argv[])
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qCritical() << "\tFirst argument: mission JSON file.";
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qCritical() << "\tSecond argument: \"quadcopter\" or \"plane\".";
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qCritical() << "\tThird argument: \"udp\" or \"serial\" for connection type.";
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qCritical() << "\tFor example ./autopilot mission.json plane udp";
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qCritical() << "\tFor example ./drone_controller mission.json plane udp";
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return 1;
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}
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