2010-08-29 17:38:25 -03:00
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/*
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GPS_IMU.cpp - IMU/X-Plane GPS library for Arduino
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*/
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#include "GPS_IMU.h"
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#include <avr/interrupt.h>
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#include "WProgram.h"
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// Constructors ////////////////////////////////////////////////////////////////
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GPS_IMU_Class::GPS_IMU_Class()
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{
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}
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// Public Methods //////////////////////////////////////////////////////////////
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void GPS_IMU_Class::Init(void)
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{
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ck_a = 0;
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ck_b = 0;
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IMU_step = 0;
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NewData = 0;
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Fix = 0;
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PrintErrors = 0;
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IMU_timer = millis(); //Restarting timer...
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// Initialize serial port
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#if defined(__AVR_ATmega1280__)
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Serial1.begin(38400); // Serial port 1 on ATMega1280
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#else
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Serial.begin(38400);
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#endif
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}
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// optimization : This code don<6F>t wait for data, only proccess the data available
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// We can call this function on the main loop (50Hz loop)
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// If we get a complete packet this function calls parse_IMU_gps() to parse and update the GPS info.
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void GPS_IMU_Class::Read(void)
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{
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static unsigned long GPS_timer = 0;
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byte data;
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int numc = 0;
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static byte message_num = 0;
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#if defined(__AVR_ATmega1280__) // If AtMega1280 then Serial port 1...
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numc = Serial.available();
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#else
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numc = Serial.available();
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#endif
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if (numc > 0){
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for (int i=0;i<numc;i++){ // Process bytes received
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#if defined(__AVR_ATmega1280__)
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data = Serial.read();
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#else
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data = Serial.read();
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#endif
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switch(IMU_step){ //Normally we start from zero. This is a state machine
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case 0:
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if(data == 0x44) // IMU sync char 1
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IMU_step++; //OH first data packet is correct, so jump to the next IMU_step
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break;
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case 1:
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if(data == 0x49) // IMU sync char 2
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IMU_step++; //ooh! The second data packet is correct, jump to the IMU_step 2
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else
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IMU_step=0; //Nop, is not correct so restart to IMU_step zero and try again.
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break;
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case 2:
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if(data == 0x59) // IMU sync char 3
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IMU_step++; //ooh! The second data packet is correct, jump to the IMU_step 2
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else
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IMU_step=0; //Nop, is not correct so restart to IMU_step zero and try again.
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break;
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case 3:
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if(data == 0x64) // IMU sync char 4
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IMU_step++; //ooh! The second data packet is correct, jump to the IMU_step 2
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else
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IMU_step=0; //Nop, is not correct so restart to IMU_step zero and try again.
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break;
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case 4:
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payload_length = data;
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checksum(payload_length);
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IMU_step++;
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if (payload_length > 28){
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IMU_step = 0; //Bad data, so restart to IMU_step zero and try again.
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payload_counter = 0;
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ck_a = 0;
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ck_b = 0;
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//payload_error_count++;
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}
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break;
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case 5:
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message_num = data;
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checksum(data);
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IMU_step++;
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break;
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case 6: // Payload data read...
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// We stay in this state until we reach the payload_length
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buffer[payload_counter] = data;
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checksum(data);
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payload_counter++;
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if (payload_counter >= payload_length) {
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IMU_step++;
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}
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break;
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case 7:
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IMU_ck_a = data; // First checksum byte
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IMU_step++;
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break;
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case 8:
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IMU_ck_b = data; // Second checksum byte
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// We end the IMU/GPS read...
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// Verify the received checksum with the generated checksum..
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if((ck_a == IMU_ck_a) && (ck_b == IMU_ck_b)) {
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if (message_num == 0x02) {
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IMU_join_data();
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IMU_timer = millis();
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} else if (message_num == 0x03) {
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GPS_join_data();
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GPS_timer = millis();
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} else if (message_num == 0x04) {
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IMU2_join_data();
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IMU_timer = millis();
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} else if (message_num == 0x0a) {
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//PERF_join_data();
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} else {
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Serial.print("Invalid message number = ");
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Serial.println(message_num,DEC);
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}
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} else {
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Serial.println("XXX Checksum error"); //bad checksum
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//imu_checksum_error_count++;
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}
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// Variable initialization
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IMU_step = 0;
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payload_counter = 0;
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ck_a = 0;
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ck_b = 0;
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IMU_timer = millis(); //Restarting timer...
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break;
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}
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}// End for...
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}
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// If we don't receive GPS packets in 2 seconds => Bad FIX state
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2010-08-29 21:15:54 -03:00
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if ((millis() - GPS_timer) > 3000){
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2010-08-29 17:38:25 -03:00
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Fix = 0;
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}
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if (PrintErrors){
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Serial.println("ERR:GPS_TIMEOUT!!");
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}
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}
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/****************************************************************
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*
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****************************************************************/
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void GPS_IMU_Class::IMU_join_data(void)
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{
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int j;
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//Verifing if we are in class 1, you can change this "IF" for a "Switch" in case you want to use other IMU classes..
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//In this case all the message im using are in class 1, to know more about classes check PAGE 60 of DataSheet.
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//Storing IMU roll
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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roll_sensor = intUnion.word;
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//Storing IMU pitch
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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pitch_sensor = intUnion.word;
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//Storing IMU heading (yaw)
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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Ground_Course = intUnion.word;
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imu_ok = true;
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}
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void GPS_IMU_Class::IMU2_join_data()
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{
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int j=0;
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//Storing IMU roll
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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roll_sensor = intUnion.word;
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//Storing IMU pitch
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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pitch_sensor = intUnion.word;
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//Storing IMU heading (yaw)
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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Ground_Course = (unsigned int)intUnion.word;
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//Storing airspeed
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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airspeed = intUnion.word;
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imu_ok = true;
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}
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void GPS_IMU_Class::GPS_join_data(void)
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{
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//gps_messages_received++;
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int j = 0;
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Longitude = join_4_bytes(&buffer[j]); // Lat and Lon * 10**7
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j += 4;
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Lattitude = join_4_bytes(&buffer[j]);
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j += 4;
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//Storing GPS Height above the sea level
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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Altitude = (long)intUnion.word * 10; // Altitude in meters * 100
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//Storing Speed (3-D)
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intUnion.byte[0] = buffer[j++];
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intUnion.byte[1] = buffer[j++];
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Speed_3d = Ground_Speed = (float)intUnion.word; // Speed in M/S * 100
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//We skip the gps ground course because we use yaw value from the IMU for ground course
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j += 2;
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Time = join_4_bytes(&buffer[j]); // Time of Week in milliseconds
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j +=4;
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imu_health = buffer[j++];
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NewData = 1;
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Fix = 1;
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}
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/****************************************************************
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*
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****************************************************************/
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// Join 4 bytes into a long
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long GPS_IMU_Class::join_4_bytes(unsigned char Buffer[])
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{
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longUnion.byte[0] = *Buffer;
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longUnion.byte[1] = *(Buffer+1);
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longUnion.byte[2] = *(Buffer+2);
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longUnion.byte[3] = *(Buffer+3);
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return(longUnion.dword);
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}
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/****************************************************************
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*
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****************************************************************/
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// checksum algorithm
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void GPS_IMU_Class::checksum(byte IMU_data)
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{
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ck_a+=IMU_data;
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ck_b+=ck_a;
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}
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2010-08-29 21:15:54 -03:00
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GPS_IMU_Class GPS;
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