mirror of https://github.com/ArduPilot/ardupilot
729 lines
23 KiB
C
729 lines
23 KiB
C
/*
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www.ArduCopter.com - www.DIYDrones.com
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Copyright (c) 2010. All rights reserved.
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An Open Source Arduino based multicopter.
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File : Arducopter.h
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Version : v1.0, Aug 27, 2010
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Author(s): ArduCopter Team
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Ted Carancho (aeroquad), Jose Julio, Jordi Muñoz,
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Jani Hirvinen, Ken McEwans, Roberto Navoni,
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Sandro Benigno, Chris Anderson
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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* ************************************************************** *
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ChangeLog:
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* ************************************************************** *
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TODO:
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* ************************************************************** */
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#include "WProgram.h"
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/* ************************************************************** */
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/* APM Hardware definitions */
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#define LED_Yellow 36 // A_LED
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#define LED_Green 37 // B_LED
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#define LED_Red 35 // C_LED
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#define A_LED_PIN LED_Green // For legacy issues
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#define B_LED_PIN LED_Yellow
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#define C_LED_PIN LED_Red
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// Programmable hardware switches/relays
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#define RELAY 47 // Onboard relay (PL2)
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#define SW1 41 // Push button close to I2C port (PG0)
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#define SW2 40 // Slide switch next to DIP switched (PG1)
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// Due limitations of Arduino libraries, these pins needs to be controlled differently so no real PIN numbers
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//#define DIP1 (PE7)
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//#define DIP2 (PE6)
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//#define DIP3 (PL6)
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//#define DIP4 (PL/)
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/* ************************************************************** */
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/* Expansion PIN's that people can use for various things. */
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// AN0 - 7 are located at edge of IMU PCB "above" pressure sensor and Expansion port
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// AN0 - 5 are also located next to voltage dividers and sliding SW2 switch
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// AN0 - 3 has 10kOhm resistor in serial, include 3.9kOhm to make it as voltage divider
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// AN4 - 5 are direct GPIO pins from atmega1280 and they are the latest pins next to SW2 switch
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// Look more ArduCopter Wiki for voltage dividers and other ports
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#define AN0 54 // resistor, vdiv use, divider 1 closest to relay
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#define AN1 55 // resistor, vdiv use, divider 2
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#define AN2 56 // resistor, vdiv use, divider 3
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#define AN3 57 // resistor, vdiv use, divider 4 closest to SW2
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#define AN4 58 // direct GPIO pin, default as analog input, next to SW2 switch
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#define AN5 59 // direct GPIO pin, default as analog input, next to SW2 switch
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#define AN6 60 // direct GPIO pin, default as analog input, close to Pressure sensor, Expansion Ports
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#define AN7 61 // direct GPIO pin, default as analog input, close to Pressure sensor, Expansion Ports
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// AN8 - 15 are located at edge of IMU PCB "above" pressure sensor and Expansion port
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// AN8 - 15 PINs are not connected anywhere, they are located as last 8 pins on edge of the board above Expansion Ports
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// even pins (8,10,12,14) are at edge of board, Odd pins (9,11,13,15) are on inner row
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#define AN8 62 // NC
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#define AN9 63 // NC
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#define AN10 64 // NC
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#define AN11 65 // NC
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#define AN12 66 // NC
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#define AN13 67 // NC
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#define AN14 68 // NC
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#define AN15 69 // NC
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// Defines for Voltage Dividers
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#define VDIV1 AN0 // AN0 as default and primary
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#define VDIV2 AN1 // AN1 for secondary battery
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#define VDIV3 AN2
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#define VDIV4 AN3
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/* ************************************************** */
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#define EE_LAST_LOG_PAGE 0xE00
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#define EE_LAST_LOG_NUM 0xE02
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#define EE_LOG_1_START 0xE04
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/* ************************************************** */
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/* Serial port definitions */
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#define SERIAL0_BAUD 38400 // this is the main USB out 38400 57600 115200
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#define SERIAL1_BAUD 115200
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#define SERIAL2_BAUD 115200
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#define SERIAL3_BAUD 115200
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#ifdef SerXbee // Xbee/Telemetry port
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//#define SerBau 115200 // Baud setting moved close next to port selection
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#define SerPri Serial3.print
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#define SerPrln Serial3.println
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#define SerPriln Serial3.println
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#define SerRea Serial3.read
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#define SerAva Serial3.available
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#define SerRea Serial3.read
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#define SerFlu Serial3.flush
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#define SerBeg Serial3.begin
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#define SerP Serial3.printf_P
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#define SerPor "FTDI"
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#endif
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#ifndef SerXbee // If we don't have SerXbee set, it means we have are using Serial0
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//#define SerBau 115200 // Baud setting moved close next to port selection
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#define SerPri Serial.print
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#define SerPrln Serial.println
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#define SerPriln Serial.println
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#define SerRea Serial.read
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#define SerAva Serial.available
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#define SerRea Serial.read
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#define SerFlu Serial.flush
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#define SerBeg Serial.begin
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#define SerP Serial.printf_P
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#define SerPor "Telemetry"
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#endif
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/* *********************************************** */
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// IMU definitions
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// Sensor: GYROX, GYROY, GYROZ, ACCELX, ACCELY, ACCELZ
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uint8_t sensors[6] = {1, 2, 0, 4, 5, 6}; // For ArduPilot Mega Sensor Shield Hardware
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// Sensor: GYROX, GYROY, GYROZ, ACCELX, ACCELY, ACCELZ, MAGX, MAGY, MAGZ
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int SENSOR_SIGN[]={
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1, -1, -1, -1, 1, 1, -1, -1, -1};
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//{-1,1,-1,1,-1,1,-1,-1,-1};
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/* APM Hardware definitions, END */
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/* *********************************************** */
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/* General definitions */
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#define TRUE 1
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#define FALSE 0
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#define ON 1
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#define OFF 0
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// ADC : Voltage reference 3.3v / 12bits(4096 steps) => 0.8mV/ADC step
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// ADXL335 Sensitivity(from datasheet) => 330mV/g, 0.8mV/ADC step => 330/0.8 = 412
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// Tested value : 408
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#define GRAVITY 408 //this equivalent to 1G in the raw data coming from the accelerometer
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#define Accel_Scale(x) x*(GRAVITY/9.81)//Scaling the raw data of the accel to actual acceleration in meters for seconds square
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#define ROLL_DEF 0 // Level values for roll, used to calculate roll_acc_offset
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#define PITCH_DEF 0 // Level values for pitch, used to calculate pitch_acc_offset
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#define Z_DEF GRAVITY // Stable level value for Z, used to calculate z_acc_offset, same as GRAVITY
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#define ToRad(x) (x*0.01745329252) // *pi/180
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#define ToDeg(x) (x*57.2957795131) // *180/pi
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// IDG500 Sensitivity (from datasheet) => 2.0mV/º/s, 0.8mV/ADC step => 0.8/3.33 = 0.4
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// Tested values :
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#define Gyro_Gain_X 0.4 //X axis Gyro gain
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#define Gyro_Gain_Y 0.4 //Y axis Gyro gain
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#define Gyro_Gain_Z 0.4 //Z axis Gyro gain
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#define Gyro_Scaled_X(x) x*ToRad(Gyro_Gain_X) //Return the scaled ADC raw data of the gyro in radians for second
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#define Gyro_Scaled_Y(x) x*ToRad(Gyro_Gain_Y) //Return the scaled ADC raw data of the gyro in radians for second
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#define Gyro_Scaled_Z(x) x*ToRad(Gyro_Gain_Z) //Return the scaled ADC raw data of the gyro in radians for second
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/*For debugging purposes*/
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#define OUTPUTMODE 1 //If value = 1 will print the corrected data, 0 will print uncorrected data of the gyros (with drift), 2 Accel only data
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int AN[6]; //array that store the 6 ADC channels
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int AN_OFFSET[6]; //Array that store the Offset of the gyros and accelerometers
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int gyro_temp;
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float G_Dt=0.02; // Integration time for the gyros (DCM algorithm)
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float Accel_Vector[3]= {0, 0, 0}; // Store the acceleration in a vector
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float Accel_Vector_unfiltered[3]= {0, 0, 0}; // Store the acceleration in a vector
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float Gyro_Vector[3]= {0, 0, 0}; // Store the gyros rutn rate in a vector
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float Omega_Vector[3]= {0, 0, 0}; // Corrected Gyro_Vector data
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float Omega_P[3]= {0, 0, 0}; // Omega Proportional correction
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float Omega_I[3]= {0, 0, 0}; // Omega Integrator
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float Omega[3]= {0, 0, 0};
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//float Accel_magnitude;
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//float Accel_weight;
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float errorRollPitch[3] = {0, 0, 0};
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float errorYaw[3] = {0, 0, 0};
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float errorCourse = 0;
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float COGX = 0; // Course overground X axis
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float COGY = 1; // Course overground Y axis
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float roll = 0;
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float pitch = 0;
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float yaw = 0;
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unsigned int counter = 0;
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float DCM_Matrix[3][3]= {
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{ 1,0,0 },
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{ 0,1,0 },
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{ 0,0,1 }};
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float Update_Matrix[3][3]={
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{ 0,1,2 },
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{ 3,4,5 },
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{ 6,7,8 }}; //Gyros here
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float Temporary_Matrix[3][3]={
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{ 0,0,0 },
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{ 0,0,0 },
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{ 0,0,0 }};
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// GPS variables
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float speed_3d=0;
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int GPS_ground_speed=0;
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// Main timers
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long timer=0;
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long timer_old;
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long GPS_timer;
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long GPS_timer_old;
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float GPS_Dt=0.2; // GPS Dt
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// Attitude control variables
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float command_rx_roll=0; // User commands
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float command_rx_roll_old;
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float command_rx_roll_diff;
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float command_rx_pitch=0;
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float command_rx_pitch_old;
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float command_rx_pitch_diff;
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float command_rx_yaw=0;
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float command_rx_yaw_diff;
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int control_roll; // PID control results
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int control_pitch;
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int control_yaw;
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//float K_aux;
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boolean SW_DIP1; // closest to SW2 slider switch
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boolean SW_DIP2;
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boolean SW_DIP3;
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boolean SW_DIP4; // closest to header pins
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boolean BATTLOW = FALSE; // We should be always FALSE, if we are TRUE.. it means destruction is close,
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// shut down all secondary systems that uses our precious mAh's
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// Attitude PID controls
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float roll_I=0;
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float roll_D;
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float err_roll;
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float pitch_I=0;
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float pitch_D;
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float err_pitch;
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float yaw_I=0;
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float yaw_D;
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float err_yaw;
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float heading_I=0; // used only by heli
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//Position control
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long target_longitude;
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long target_lattitude;
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byte target_position;
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float gps_err_roll;
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float gps_err_roll_old;
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float gps_roll_D;
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float gps_roll_I=0;
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float gps_err_pitch;
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float gps_err_pitch_old;
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float gps_pitch_D;
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float gps_pitch_I=0;
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float command_gps_roll;
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float command_gps_pitch;
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float gps_err_lat;
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float gps_err_lat_old;
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float gps_lat_D;
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float gps_lat_I=0;
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float gps_err_lon;
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float gps_err_lon_old;
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float gps_lon_D;
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float gps_lon_I=0;
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// object avoidance
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float RF_roll_I=0;
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float RF_pitch_I=0;
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float command_RF_roll = 0;
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float command_RF_pitch = 0;
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float command_RF_throttle = 0;
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byte RF_new_data = 0;
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//Altitude control
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int Initial_Throttle;
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int target_sonar_altitude;
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int err_altitude;
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int err_altitude_old;
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float command_altitude;
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float altitude_I;
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float altitude_D;
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int ch_throttle_altitude_hold;
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//Pressure Sensor variables
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long target_baro_altitude; // Altitude in cm
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long press_alt = 0;
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byte Baro_new_data = 0;
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#define BATTERY_VOLTAGE(x) (x*(INPUT_VOLTAGE/1024.0))*VOLT_DIV_RATIO
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#define AIRSPEED_PIN 1 // Need to correct value
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#define BATTERY_PIN 1 // Need to correct value
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#define RELAY_PIN 47
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#define LOW_VOLTAGE 11.4 // Pack voltage at which to trigger alarm
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#define INPUT_VOLTAGE 5.2 // (Volts) voltage your power regulator is feeding your ArduPilot to have an accurate pressure and battery
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// level readings. (you need a multimeter to measure and set this of course)
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#define VOLT_DIV_RATIO 1.0 // Voltage divider ratio set with thru-hole resistor (see manual)
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float battery_voltage = LOW_VOLTAGE * 1.05; // Battery Voltage, initialized above threshold for filter
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// Sonar variables
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int Sonar_value=0;
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int Sonar_Counter=0;
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#define SonarToCm(x) (x*1.26) // Sonar raw value to centimeters
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// AP_mode : 1=> Position hold 2=>Stabilization assist mode (normal mode)
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byte AP_mode = 2;
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//byte cam_mode = 0; // moved to general settings, 31-10-10, jp
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// Mode LED timers and variables, used to blink LED_Green
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byte gled_status = HIGH;
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long gled_timer;
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int gled_speed;
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long cli_timer;
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byte cli_status = LOW;
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byte cli_step;
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long t0;
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int num_iter;
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float aux_debug;
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// Radio definitions
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int roll_mid;
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int pitch_mid;
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int yaw_mid;
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int Neutro_yaw;
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int ch_roll;
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int ch_pitch;
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int ch_throttle;
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int ch_yaw;
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int ch_aux;
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int ch_aux2;
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int frontMotor;
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int backMotor;
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int leftMotor;
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int rightMotor;
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byte motorArmed = 0; // 0 = motors disarmed, 1 = motors armed
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byte motorSafety = 1; // 0 = safety off, 1 = on. When On, sudden increases in throttle not allowed
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int minThrottle = 0;
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boolean flightOrientation = 0; // 0 = +, 1 = x this is read from DIP1 switch during system bootup
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// Serial communication
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char queryType;
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long tlmTimer = 0;
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// Arming/Disarming
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uint8_t Arming_counter=0;
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uint8_t Disarming_counter=0;
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uint8_t Safety_counter=0;
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// Performance monitoring
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// ----------------------
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long perf_mon_timer = 0;
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float imu_health = 0; //Metric based on accel gain deweighting
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int G_Dt_max = 0; //Max main loop cycle time in milliseconds
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byte gyro_sat_count = 0;
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byte adc_constraints = 0;
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byte renorm_sqrt_count = 0;
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byte renorm_blowup_count = 0;
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int gps_fix_count = 0;
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byte gcs_messages_sent = 0;
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// System Timers
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// --------------
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unsigned long fast_loopTimer = 0; // Time in miliseconds of main control loop
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unsigned long medium_loopTimer = 0; // Time in miliseconds of navigation control loop
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byte medium_loopCounter = 0; // Counters for branching from main control loop to slower loops
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byte slow_loopCounter = 0; //
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unsigned long deltaMiliSeconds = 0; // Delta Time in miliseconds
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unsigned long dTnav = 0; // Delta Time in milliseconds for navigation computations
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int mainLoop_count = 0;
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unsigned long elapsedTime = 0; // for doing custom events
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//unsigned int GPS_timer = 0;
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/* ******************************************************** */
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/* Logging Stuff - These should be 1 (on) or 0 (off) */
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#define LOG_ATTITUDE 1 // Logs basic attitude info
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#define LOG_GPS 1 // Logs GPS info
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#define LOG_PM 1 // Logs IMU performance monitoring info£
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#define LOG_CTUN 0 // Logs control loop tuning info
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#define LOG_NTUN 0 // Logs navigation loop tuning info
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#define LOG_MODE 1 // Logs mode changes
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#define LOG_RAW 0 // Logs raw accel/gyro data
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#define LOG_SEN 1 // Logs sensor data
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// GCS Message ID's
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#define MSG_ACKNOWLEDGE 0x00
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#define MSG_HEARTBEAT 0x01
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#define MSG_ATTITUDE 0x02
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#define MSG_LOCATION 0x03
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#define MSG_PRESSURE 0x04
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#define MSG_STATUS_TEXT 0x05
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#define MSG_PERF_REPORT 0x06
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#define MSG_COMMAND 0x22
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#define MSG_VALUE 0x32
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#define MSG_PID 0x42
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#define MSG_TRIMS 0x50
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#define MSG_MINS 0x51
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#define MSG_MAXS 0x52
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#define MSG_IMU_OUT 0x53
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#define SEVERITY_LOW 1
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#define SEVERITY_MEDIUM 2
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#define SEVERITY_HIGH 3
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#define SEVERITY_CRITICAL 4
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// Debug options - set only one of these options to 1 at a time, set the others to 0
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#define DEBUG_SUBSYSTEM 0 // 0 = no debug
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// 1 = Debug the Radio input
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// 2 = Debug the Servo output
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// 3 = Debug the Sensor input
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// 4 = Debug the GPS input
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// 5 = Debug the GPS input - RAW HEX OUTPUT
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// 6 = Debug the IMU
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// 7 = Debug the Control Switch
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// 8 = Debug the Servo DIP switches
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// 9 = Debug the Relay out
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// 10 = Debug the Magnetometer
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// 11 = Debug the ABS pressure sensor
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// 12 = Debug the stored waypoints
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// 13 = Debug the Throttle
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// 14 = Debug the Radio Min Max
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// 15 = Debug the EEPROM - Hex Dump
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#define DEBUG_LEVEL SEVERITY_LOW
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// SEVERITY_LOW
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// SEVERITY_MEDIUM
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// SEVERITY_HIGH
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// SEVERITY_CRITICAL
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// Different GPS devices,
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#define GPSDEV_DIYMTEK 1
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#define GPSDEV_DIYUBLOX 2
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#define GPSDEV_FPUBLOX 3
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#define GPSDEV_IMU 4
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#define GPSDEV_NMEA 5
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// Radio Modes, mainly just Mode2
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#define MODE1 1
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#define MODE2 2
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#define MODE3 3
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#define MODE4 4
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// Frame models
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#define QUAD 0 // Normal Quad
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#define QUADCOAX 1 // Quad with double motors as coax
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#define HEXA 2 // Hexa
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#define HEXARADIAL 3
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#define HEXACOAX 4
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#define OCTO 5
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#define PWM 0
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#define I2C 1
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#define UART 2
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// Following variables stored in EEPROM
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float KP_QUAD_ROLL;
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float KI_QUAD_ROLL;
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float STABLE_MODE_KP_RATE_ROLL;
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float KP_QUAD_PITCH;
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float KI_QUAD_PITCH;
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float STABLE_MODE_KP_RATE_PITCH;
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float KP_QUAD_YAW;
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float KI_QUAD_YAW;
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float STABLE_MODE_KP_RATE_YAW;
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float STABLE_MODE_KP_RATE; //NOT USED NOW
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float KP_GPS_ROLL;
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float KI_GPS_ROLL;
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float KD_GPS_ROLL;
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float KP_GPS_PITCH;
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float KI_GPS_PITCH;
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float KD_GPS_PITCH;
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float GPS_MAX_ANGLE;
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float KP_ALTITUDE;
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float KI_ALTITUDE;
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float KD_ALTITUDE;
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int acc_offset_x;
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int acc_offset_y;
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int acc_offset_z;
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int gyro_offset_roll;
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int gyro_offset_pitch;
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int gyro_offset_yaw;
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float Kp_ROLLPITCH;
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float Ki_ROLLPITCH;
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float Kp_YAW;
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float Ki_YAW;
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float GEOG_CORRECTION_FACTOR=0;
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int MAGNETOMETER;
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float Kp_RateRoll;
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float Ki_RateRoll;
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float Kd_RateRoll;
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float Kp_RatePitch;
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float Ki_RatePitch;
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float Kd_RatePitch;
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float Kp_RateYaw;
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float Ki_RateYaw;
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float Kd_RateYaw;
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float xmitFactor;
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float ch_roll_slope = 1;
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float ch_pitch_slope = 1;
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float ch_throttle_slope = 1;
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float ch_yaw_slope = 1;
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float ch_aux_slope = 1;
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float ch_aux2_slope = 1;
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float ch_roll_offset = 0;
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float ch_pitch_offset = 0;
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float ch_throttle_offset = 0;
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float ch_yaw_offset = 0;
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float ch_aux_offset = 0;
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float ch_aux2_offset = 0;
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byte cam_mode = 0;
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byte mag_orientation = 0; // mag variables, reserved for future use, 31-10-10, jp
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float mag_declination = 0.0;
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float mag_offset_x = 0; // is int enough for offsets.. checkit, 31-10-10, jp
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float mag_offset_y = 0;
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float mag_offset_z = 0;
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int MIN_THROTTLE;
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//float eeprom_counter; // reserved for eeprom write counter, 31-10-10, jp
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//float eeprom_checker; // reserved for eeprom checksums, 01-11-10, jp
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// obstacle avoidance
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float KP_RF_ROLL;
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float KD_RF_ROLL;
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float KI_RF_ROLL;
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float KP_RF_PITCH;
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float KD_RF_PITCH;
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float KI_RF_PITCH;
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float RF_MAX_ANGLE; // Maximun command roll and pitch angle from obstacle avoiding control
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float RF_SAFETY_ZONE; // object avoidance will move away from objects within this distance (in cm)
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// This function call contains the default values that are set to the ArduCopter
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// when a "Default EEPROM Value" command is sent through serial interface
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void defaultUserConfig() {
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KP_QUAD_ROLL = 4.0;
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KI_QUAD_ROLL = 0.15;
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STABLE_MODE_KP_RATE_ROLL = 1.2;
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KP_QUAD_PITCH = 4.0;
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KI_QUAD_PITCH = 0.15;
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STABLE_MODE_KP_RATE_PITCH = 1.2;
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KP_QUAD_YAW = 3.0;
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KI_QUAD_YAW = 0.15;
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STABLE_MODE_KP_RATE_YAW = 2.4;
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STABLE_MODE_KP_RATE = 0.2; // NOT USED NOW
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KP_GPS_ROLL = 0.013;
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KI_GPS_ROLL = 0.005;
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KD_GPS_ROLL = 0.012;
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KP_GPS_PITCH = 0.013;
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KI_GPS_PITCH = 0.005;
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KD_GPS_PITCH = 0.01;
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GPS_MAX_ANGLE = 22;
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KP_ALTITUDE = 0.08;
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KI_ALTITUDE = 0.05;
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KD_ALTITUDE = 0.06;
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acc_offset_x = 2048;
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acc_offset_y = 2048;
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acc_offset_z = 2048;
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gyro_offset_roll = 1659;
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gyro_offset_pitch = 1650;
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gyro_offset_yaw = 1650;
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Kp_ROLLPITCH = 0.0014;
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Ki_ROLLPITCH = 0.00000015;
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Kp_YAW = 1.0;
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Ki_YAW = 0.00002;
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GEOG_CORRECTION_FACTOR = 0.0; // will be automatically calculated
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MAGNETOMETER = 0;
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Kp_RateRoll = 1.95;
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Ki_RateRoll = 0.0;
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Kd_RateRoll = 0.0;
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Kp_RatePitch = 1.95;
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Ki_RatePitch = 0.0;
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Kd_RatePitch = 0.0;
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Kp_RateYaw = 3.2;
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Ki_RateYaw = 0.0;
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Kd_RateYaw = 0.0;
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xmitFactor = 0.32;
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roll_mid = 1500;
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pitch_mid = 1500;
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yaw_mid = 1500;
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ch_roll_slope = 1;
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ch_pitch_slope = 1;
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ch_throttle_slope = 1;
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ch_yaw_slope = 1;
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ch_aux_slope = 1;
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ch_aux2_slope = 1;
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ch_roll_offset = 0;
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ch_pitch_offset = 0;
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ch_throttle_offset = 0;
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ch_yaw_offset = 0;
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ch_aux_offset = 0;
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ch_aux2_offset = 0;
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cam_mode = 0;
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mag_orientation = 0; // reserved for future, 31-10-10, jp
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mag_declination = 0.0;
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mag_offset_x = 0;
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mag_offset_y = 0;
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mag_offset_z = 0;
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MIN_THROTTLE = 1040; // used to be #define but now in EEPROM
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KP_RF_ROLL = 0.10;
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KI_RF_ROLL = 0.00;
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KD_RF_ROLL = 0.03;
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KP_RF_PITCH = 0.10;
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KI_RF_PITCH = 0.00;
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KD_RF_PITCH = 0.03;
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RF_MAX_ANGLE = 10.0;
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RF_SAFETY_ZONE = 120.0; // object avoidance will avoid objects within this range (in cm)
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}
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// EEPROM storage addresses
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#define KP_QUAD_ROLL_ADR 0
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#define KI_QUAD_ROLL_ADR 8
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#define STABLE_MODE_KP_RATE_ROLL_ADR 4
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#define KP_QUAD_PITCH_ADR 12
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#define KI_QUAD_PITCH_ADR 20
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#define STABLE_MODE_KP_RATE_PITCH_ADR 16
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#define KP_QUAD_YAW_ADR 24
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#define KI_QUAD_YAW_ADR 32
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#define STABLE_MODE_KP_RATE_YAW_ADR 28
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#define STABLE_MODE_KP_RATE_ADR 36 // NOT USED NOW
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#define KP_GPS_ROLL_ADR 40
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#define KI_GPS_ROLL_ADR 48
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#define KD_GPS_ROLL_ADR 44
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#define KP_GPS_PITCH_ADR 52
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#define KI_GPS_PITCH_ADR 60
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#define KD_GPS_PITCH_ADR 56
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#define GPS_MAX_ANGLE_ADR 64
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#define KP_ALTITUDE_ADR 68
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#define KI_ALTITUDE_ADR 76
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#define KD_ALTITUDE_ADR 72
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#define acc_offset_x_ADR 80
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#define acc_offset_y_ADR 84
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#define acc_offset_z_ADR 88
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#define gyro_offset_roll_ADR 92
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#define gyro_offset_pitch_ADR 96
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#define gyro_offset_yaw_ADR 100
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#define Kp_ROLLPITCH_ADR 104
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#define Ki_ROLLPITCH_ADR 108
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#define Kp_YAW_ADR 112
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#define Ki_YAW_ADR 116
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#define GEOG_CORRECTION_FACTOR_ADR 120
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#define MAGNETOMETER_ADR 124
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#define XMITFACTOR_ADR 128
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#define KP_RATEROLL_ADR 132
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#define KI_RATEROLL_ADR 136
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#define KD_RATEROLL_ADR 140
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#define KP_RATEPITCH_ADR 144
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#define KI_RATEPITCH_ADR 148
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#define KD_RATEPITCH_ADR 152
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#define KP_RATEYAW_ADR 156
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#define KI_RATEYAW_ADR 160
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#define KD_RATEYAW_ADR 164
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#define CHROLL_MID 168
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#define CHPITCH_MID 172
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#define CHYAW_MID 176
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#define ch_roll_slope_ADR 180
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#define ch_pitch_slope_ADR 184
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#define ch_throttle_slope_ADR 188
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#define ch_yaw_slope_ADR 192
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#define ch_aux_slope_ADR 196
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#define ch_aux2_slope_ADR 200
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#define ch_roll_offset_ADR 204
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#define ch_pitch_offset_ADR 208
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#define ch_throttle_offset_ADR 212
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#define ch_yaw_offset_ADR 216
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#define ch_aux_offset_ADR 220
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#define ch_aux2_offset_ADR 224
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#define cam_mode_ADR 228
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#define mag_orientation_ADR 232 // reserved for future, 31-10-10, jp
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#define mag_declination_ADR 236 // reserved for future, 31-10-10, jp
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#define mag_offset_x_ADR 240
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#define mag_offset_y_ADR 244
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#define mag_offset_z_ADR 248
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#define MIN_THROTTLE_ADR 252
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#define KP_RF_ROLL_ADR 256
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#define KD_RF_ROLL_ADR 260
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#define KI_RF_ROLL_ADR 264
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#define KP_RF_PITCH_ADR 268
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#define KD_RF_PITCH_ADR 272
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#define KI_RF_PITCH_ADR 276
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#define RF_MAX_ANGLE_ADR 280
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#define RF_SAFETY_ZONE_ADR 284
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//#define eeprom_counter_ADR 238 // hmm should i move these?!? , 31-10-10, jp
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//#define eeprom_checker_ADR 240 // this too... , 31-10-10, jp
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// end of file
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