2011-09-28 21:51:12 -03:00
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/*
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* AP_Navigator.h
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* Copyright (C) James Goppert 2010 <james.goppert@gmail.com>
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*
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* This file is free software: you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the
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* Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This file is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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* See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef AP_Navigator_H
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#define AP_Navigator_H
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#include "AP_HardwareAbstractionLayer.h"
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#include "../AP_DCM/AP_DCM.h"
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#include "../AP_Math/AP_Math.h"
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#include "../AP_Compass/AP_Compass.h"
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#include "AP_MavlinkCommand.h"
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#include "constants.h"
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#include "AP_Var_keys.h"
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#include "../AP_RangeFinder/AP_RangeFinder.h"
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#include "../AP_IMU/AP_IMU.h"
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namespace apo {
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/// Navigator class
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class AP_Navigator {
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public:
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AP_Navigator(AP_HardwareAbstractionLayer * hal) :
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_hal(hal), _timeStamp(0), _roll(0), _rollRate(0), _pitch(0),
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_pitchRate(0), _yaw(0), _yawRate(0), _airSpeed(0),
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_groundSpeed(0), _vD(0), _lat_degInt(0),
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_lon_degInt(0), _alt_intM(0) {
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}
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virtual void calibrate() {
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}
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virtual void updateFast(float dt) = 0;
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virtual void updateSlow(float dt) = 0;
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float getPD() const {
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return AP_MavlinkCommand::home.getPD(getAlt_intM());
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}
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float getPE() const {
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return AP_MavlinkCommand::home.getPE(getLat_degInt(), getLon_degInt());
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}
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float getPN() const {
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return AP_MavlinkCommand::home.getPN(getLat_degInt(), getLon_degInt());
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}
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void setPD(float _pD) {
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setAlt(AP_MavlinkCommand::home.getAlt(_pD));
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}
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void setPE(float _pE) {
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setLat(AP_MavlinkCommand::home.getLat(_pE));
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}
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void setPN(float _pN) {
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setLon(AP_MavlinkCommand::home.getLon(_pN));
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}
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float getAirSpeed() const {
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return _airSpeed;
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}
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int32_t getAlt_intM() const {
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return _alt_intM;
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}
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float getAlt() const {
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return _alt_intM / scale_m;
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}
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void setAlt(float _alt) {
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this->_alt_intM = _alt * scale_m;
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}
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float getLat() const {
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//Serial.print("getLatfirst");
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//Serial.println(_lat_degInt * degInt2Rad);
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return _lat_degInt * degInt2Rad;
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}
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void setLat(float _lat) {
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//Serial.print("setLatfirst");
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//Serial.println(_lat * rad2DegInt);
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setLat_degInt(_lat*rad2DegInt);
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}
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float getLon() const {
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return _lon_degInt * degInt2Rad;
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}
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void setLon(float _lon) {
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this->_lon_degInt = _lon * rad2DegInt;
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}
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float getVD() const {
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return _vD;
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}
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float getVE() const {
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return sin(getYaw()) * getGroundSpeed();
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}
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float getGroundSpeed() const {
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return _groundSpeed;
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}
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int32_t getLat_degInt() const {
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//Serial.print("getLat_degInt");
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//Serial.println(_lat_degInt);
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return _lat_degInt;
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}
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int32_t getLon_degInt() const {
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return _lon_degInt;
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}
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float getVN() const {
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return cos(getYaw()) * getGroundSpeed();
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}
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float getPitch() const {
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return _pitch;
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}
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float getPitchRate() const {
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return _pitchRate;
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}
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float getRoll() const {
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return _roll;
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}
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float getRollRate() const {
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return _rollRate;
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}
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float getYaw() const {
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return _yaw;
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}
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float getYawRate() const {
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return _yawRate;
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}
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void setAirSpeed(float airSpeed) {
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_airSpeed = airSpeed;
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}
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void setAlt_intM(int32_t alt_intM) {
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_alt_intM = alt_intM;
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}
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void setVD(float vD) {
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_vD = vD;
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}
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void setGroundSpeed(float groundSpeed) {
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_groundSpeed = groundSpeed;
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}
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void setLat_degInt(int32_t lat_degInt) {
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_lat_degInt = lat_degInt;
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//Serial.print("setLat_degInt");
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//Serial.println(_lat_degInt);
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}
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void setLon_degInt(int32_t lon_degInt) {
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_lon_degInt = lon_degInt;
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}
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void setPitch(float pitch) {
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_pitch = pitch;
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}
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void setPitchRate(float pitchRate) {
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_pitchRate = pitchRate;
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}
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void setRoll(float roll) {
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_roll = roll;
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}
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void setRollRate(float rollRate) {
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_rollRate = rollRate;
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}
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void setYaw(float yaw) {
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_yaw = yaw;
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}
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void setYawRate(float yawRate) {
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_yawRate = yawRate;
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}
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void setTimeStamp(int32_t timeStamp) {
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_timeStamp = timeStamp;
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}
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int32_t getTimeStamp() const {
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return _timeStamp;
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}
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protected:
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AP_HardwareAbstractionLayer * _hal;
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private:
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int32_t _timeStamp; // micros clock
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float _roll; // rad
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float _rollRate; //rad/s
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float _pitch; // rad
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float _pitchRate; // rad/s
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float _yaw; // rad
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float _yawRate; // rad/s
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float _airSpeed; // m/s
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float _groundSpeed; // m/s
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float _vD; // m/s
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int32_t _lat_degInt; // deg / 1e7
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int32_t _lon_degInt; // deg / 1e7
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int32_t _alt_intM; // meters / 1e3
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};
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class DcmNavigator: public AP_Navigator {
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private:
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/**
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* Sensors
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*/
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RangeFinder * _rangeFinderDown;
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AP_DCM * _dcm;
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IMU * _imu;
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uint16_t _imuOffsetAddress;
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public:
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DcmNavigator(AP_HardwareAbstractionLayer * hal) :
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AP_Navigator(hal), _dcm(), _imuOffsetAddress(0) {
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// if orientation equal to front, store as front
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/**
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* rangeFinder<direction> is assigned values based on orientation which
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* is specified in ArduPilotOne.pde.
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*/
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for (uint8_t i = 0; i < _hal-> rangeFinders.getSize(); i++) {
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if (_hal->rangeFinders[i] == NULL)
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continue;
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if (_hal->rangeFinders[i]->orientation_x == 0
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&& _hal->rangeFinders[i]->orientation_y == 0
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&& _hal->rangeFinders[i]->orientation_z == 1)
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_rangeFinderDown = _hal->rangeFinders[i];
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}
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if (_hal->getMode() == MODE_LIVE) {
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if (_hal->adc)
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_hal->imu = new AP_IMU_Oilpan(_hal->adc, k_sensorCalib);
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if (_hal->imu)
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_dcm = new AP_DCM(_hal->imu, _hal->gps, _hal->compass);
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if (_hal->compass) {
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_dcm->set_compass(_hal->compass);
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}
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}
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}
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virtual void calibrate() {
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AP_Navigator::calibrate();
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2011-10-06 20:17:49 -03:00
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// TODO: handle cold/warm restart
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2011-09-28 21:51:12 -03:00
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if (_hal->imu) {
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2011-10-06 20:17:49 -03:00
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_hal->imu->init(IMU::COLD_START,delay);
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2011-09-28 21:51:12 -03:00
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}
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}
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virtual void updateFast(float dt) {
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if (_hal->getMode() != MODE_LIVE)
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return;
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setTimeStamp(micros()); // if running in live mode, record new time stamp
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//_hal->debug->println_P(PSTR("nav loop"));
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/**
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* The altitued is read off the barometer by implementing the following formula:
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* altitude (in m) = 44330*(1-(p/po)^(1/5.255)),
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* where, po is pressure in Pa at sea level (101325 Pa).
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* See http://www.sparkfun.com/tutorials/253 or type this formula
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* in a search engine for more information.
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* altInt contains the altitude in meters.
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*/
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if (_hal->baro) {
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if (_rangeFinderDown != NULL && _rangeFinderDown->distance <= 695)
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setAlt(_rangeFinderDown->distance);
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else {
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float tmp = (_hal->baro->Press / 101325.0);
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tmp = pow(tmp, 0.190295);
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//setAlt(44330 * (1.0 - tmp)); //sets the altitude in meters XXX wrong, baro reads 0 press
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setAlt(0.0);
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}
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}
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// dcm class for attitude
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if (_dcm) {
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_dcm->update_DCM();
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setRoll(_dcm->roll);
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setPitch(_dcm->pitch);
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setYaw(_dcm->yaw);
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setRollRate(_dcm->get_gyro().x);
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setPitchRate(_dcm->get_gyro().y);
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setYawRate(_dcm->get_gyro().z);
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/*
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* accel/gyro debug
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*/
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/*
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Vector3f accel = _hal->imu->get_accel();
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Vector3f gyro = _hal->imu->get_gyro();
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Serial.printf_P(PSTR("accel: %f %f %f gyro: %f %f %f\n"),
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accel.x,accel.y,accel.z,gyro.x,gyro.y,gyro.z);
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*/
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}
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}
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virtual void updateSlow(float dt) {
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if (_hal->getMode() != MODE_LIVE)
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return;
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setTimeStamp(micros()); // if running in live mode, record new time stamp
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if (_hal->gps) {
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_hal->gps->update();
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updateGpsLight();
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if (_hal->gps->fix && _hal->gps->new_data) {
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setLat_degInt(_hal->gps->latitude);
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setLon_degInt(_hal->gps->longitude);
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setAlt_intM(_hal->gps->altitude * 10); // gps in cm, intM in mm
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setGroundSpeed(_hal->gps->ground_speed / 100.0); // gps is in cm/s
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}
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}
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if (_hal->compass) {
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_hal->compass->read();
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_hal->compass->calculate(getRoll(), getPitch());
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_hal->compass->null_offsets(_dcm->get_dcm_matrix());
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}
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}
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void updateGpsLight(void) {
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// GPS LED on if we have a fix or Blink GPS LED if we are receiving data
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// ---------------------------------------------------------------------
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static bool GPS_light = false;
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switch (_hal->gps->status()) {
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case (2):
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//digitalWrite(C_LED_PIN, HIGH); //Turn LED C on when gps has valid fix.
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break;
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case (1):
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if (_hal->gps->valid_read == true) {
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GPS_light = !GPS_light; // Toggle light on and off to indicate gps messages being received, but no GPS fix lock
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if (GPS_light) {
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digitalWrite(_hal->cLedPin, LOW);
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} else {
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digitalWrite(_hal->cLedPin, HIGH);
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}
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_hal->gps->valid_read = false;
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}
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break;
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default:
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digitalWrite(_hal->cLedPin, LOW);
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break;
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}
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}
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};
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} // namespace apo
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#endif // AP_Navigator_H
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// vim:ts=4:sw=4:expandtab
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