/* * AP_Navigator.h * Copyright (C) James Goppert 2010 * * This file is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This file is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ #ifndef AP_Navigator_H #define AP_Navigator_H #include "constants.h" #include namespace apo { class AP_HardwareAbstractionLayer; /// Navigator class class AP_Navigator { public: AP_Navigator(AP_HardwareAbstractionLayer * hal); // note, override these with derived navigator functionality virtual void calibrate() {}; virtual void updateFast(float dt) {}; virtual void updateSlow(float dt) {}; // accessors float getPD() const; float getPE() const; float getPN() const; void setPD(float _pD); void setPE(float _pE); void setPN(float _pN); float getAirSpeed() const { // neglects vertical wind float vWN = getVN() + getWindSpeed()*cos(getWindDirection()); float vWE = getVE() + getWindSpeed()*sin(getWindDirection()); return sqrt(vWN*vWN+vWE+vWE+getVD()*getVD()); } float getGroundSpeed() const { return sqrt(getVN()*getVN()+getVE()*getVE()); } float getWindSpeed() const { return _windSpeed; } int32_t getAlt_intM() const { return _alt_intM; } float getAlt() const { return _alt_intM / scale_m; } void setAlt(float _alt) { this->_alt_intM = _alt * scale_m; } float getLat() const { //Serial.print("getLatfirst"); //Serial.println(_lat_degInt * degInt2Rad); return _lat_degInt * degInt2Rad; } void setLat(float _lat) { //Serial.print("setLatfirst"); //Serial.println(_lat * rad2DegInt); setLat_degInt(_lat*rad2DegInt); } float getLon() const { return _lon_degInt * degInt2Rad; } void setLon(float _lon) { this->_lon_degInt = _lon * rad2DegInt; } float getVN() const { return _vN; } float getVE() const { return _vE; } float getVD() const { return _vD; } int32_t getLat_degInt() const { //Serial.print("getLat_degInt"); //Serial.println(_lat_degInt); return _lat_degInt; } int32_t getLon_degInt() const { return _lon_degInt; } float getPitch() const { return _pitch; } float getPitchRate() const { return _pitchRate; } float getRoll() const { return _roll; } float getRollRate() const { return _rollRate; } float getYaw() const { return _yaw; } float getYawRate() const { return _yawRate; } float getWindDirection() const { return _windDirection; } float getCourseOverGround() const { return atan2(getVE(),getVN()); } float getRelativeCourseOverGround() const { float y = getCourseOverGround() - getYaw(); if (y > 180 * deg2Rad) y -= 360 * deg2Rad; if (y < -180 * deg2Rad) y += 360 * deg2Rad; return y; } float getSpeedOverGround() const { return sqrt(getVN()*getVN()+getVE()*getVE()); } float getXAccel() const { return _xAccel; } float getYAccel() const { return _yAccel; } float getZAccel() const { return _zAccel; } void setAirSpeed(float airSpeed) { // assumes wind constant and rescale navigation speed float vScale = (1 + airSpeed/getAirSpeed()); float vNorm = sqrt(getVN()*getVN()+getVE()*getVE()+getVD()*getVD()); _vN *= vScale/vNorm; _vE *= vScale/vNorm; _vD *= vScale/vNorm; } void setAlt_intM(int32_t alt_intM) { _alt_intM = alt_intM; } void setVN(float vN) { _vN = vN; } void setVE(float vE) { _vE = vE; } void setVD(float vD) { _vD = vD; } void setXAccel(float xAccel) { _xAccel = xAccel; } void setYAccel(float yAccel) { _yAccel = yAccel; } void setZAccel(float zAccel) { _zAccel = zAccel; } void setGroundSpeed(float groundSpeed) { float cog = getCourseOverGround(); _vN = cos(cog)*groundSpeed; _vE = sin(cog)*groundSpeed; } void setLat_degInt(int32_t lat_degInt) { _lat_degInt = lat_degInt; //Serial.print("setLat_degInt"); //Serial.println(_lat_degInt); } void setLon_degInt(int32_t lon_degInt) { _lon_degInt = lon_degInt; } void setPitch(float pitch) { _pitch = pitch; } void setPitchRate(float pitchRate) { _pitchRate = pitchRate; } void setRoll(float roll) { _roll = roll; } void setRollRate(float rollRate) { _rollRate = rollRate; } void setYaw(float yaw) { _yaw = yaw; } void setYawRate(float yawRate) { _yawRate = yawRate; } void setTimeStamp(int32_t timeStamp) { _timeStamp = timeStamp; } int32_t getTimeStamp() const { return _timeStamp; } void setWindDirection(float windDirection) { _windDirection = windDirection; } void setWindSpeed(float windSpeed) { _windSpeed = windSpeed; } protected: AP_HardwareAbstractionLayer * _hal; private: int32_t _timeStamp; /// time stamp for navigation data, micros clock float _roll; /// roll angle, radians float _rollRate; /// roll rate, radians/s float _pitch; /// pitch angle, radians float _pitchRate; /// pitch rate, radians/s float _yaw; /// yaw angle, radians float _yawRate; /// yaw rate, radians/s // vertical float _windSpeed; /// wind speed, m/s float _windDirection; /// wind directioin, radians float _vN; /// float _vE; float _vD; // m/s float _xAccel; float _yAccel; float _zAccel; int32_t _lat_degInt; // deg / 1e7 int32_t _lon_degInt; // deg / 1e7 int32_t _alt_intM; // meters / 1e3 }; } // namespace apo #endif // AP_Navigator_H // vim:ts=4:sw=4:expandtab