Andy K
Allows for a GPS module to be connected to a serial port and exposes an easy to use API to get the GPS data. New feature, added Mbed/LPC17xx RTC synchronisation
Dependents: SatGPS AntiTheftGPS FLIGHT_CONTROL_AND_COMMUNICATIONS_SYSTEM GPS-Lora ... more
example3.cpp
- Committer:
- AjK
- Date:
- 2011-04-21
- Revision:
- 6:64771e31464e
- Parent:
- 2:8aa059e7d8b1
File content as of revision 6:64771e31464e:
#ifdef COMPILE_EXAMPLE3_CODE_MODGPS
// See forum post http://mbed.org/forum/mbed/topic/2151/
#include "mbed.h"
#include "GPS.h"
Serial pc(USBTX, USBRX);
DigitalOut led1(LED1);
// SET THIS.
// Create an instance of the GPS object. You will need to
// set p25 to whichever Serial RX pin you have connected
// your GPS module to.
GPS gps(NC, GPSRX);
// 0.05 second flash of LED2
DigitalOut led2(LED2);
Timeout t2;
void t2out(void) { led2 = 0; }
void blip2(void) { led2 = 1; t2.attach(&t2out, 0.05); }
// 0.05 second flash of LED3
DigitalOut led3(LED3);
Timeout t3;
void t3out(void) { led3 = 0; }
void blip3(void) { led3 = 1; t3.attach(&t3out, 0.05); }
// 0.05 second flash of LED4
DigitalOut led4(LED4);
Timeout t4;
void t4out(void) { led4 = 0; }
void blip4(void) { led4 = 1; t4.attach(&t4out, 0.05); }
int main() {
GPS_Time q1;
GPS_VTG v1;
// SET THIS.
// Ensure you set the baud rate to match your serial
// communications to your PC/Max/Linux host so you
// can read the messages.
pc.baud(PCBAUD);
// SET THIS.
// Most GPS modules use 9600,8,n,1 so that's what
// we default to here. Ensure your GPS module matches
// this, otherwise set it to match.
gps.baud(GPSBUAD);
gps.format(8, GPS::None, 1);
// OPTIONAL
// If you GPS has a 1 pulse per second output you can
// connect it to an Mbed pin. Here you specify what pin
// and on what "edge" teh signal is active. If your GPS
// module has a rising edge at the one second point then
// use GPS::ppsRise
#ifdef PPSPIN
gps.ppsAttach(PPSPIN, GPS::ppsFall);
#endif
// Sample of a callback to a function when a NMEA GGA message is recieved.
// For this example, we flash LED2 for 0.05 second.
gps.attach_gga(&blip2);
// Sample of a callback to a function when a NMEA RMC message is recieved.
// For this example, we flash LED3 for 0.05 second.
gps.attach_rmc(&blip3);
// Sample of a callback to a function when a NMEA VTG message is recieved.
// For this example, we flash LED4 for 0.05 second.
gps.attach_vtg(&blip4);
while(1) {
// Every 3 seconds, flip LED1 and print the basic GPS info.
wait(3);
led1 = 1;
// Demonstrate how to find out the GPS location co-ords.
pc.printf("Method 1. Lat = %.4f ", gps.latitude());
pc.printf("Lon = %.4f ", gps.longitude());
pc.printf("Alt = %.4f ", gps.altitude());
// Grab a snapshot of the current time.
gps.timeNow(&q1);
pc.printf("%c %02d:%02d:%02d %02d/%02d/%04d\r\n",
q1.status, q1.hour, q1.minute, q1.second, q1.day, q1.month, q1.year);
gps.vtg(&v1);
pc.printf("Method 1. Vector data, Speed (knots):%lf, Speed(kph):%lf, Track(true):%lf, Track(mag)%lf\r\n",
v1.velocity_knots(), v1.velocity_kph(), v1.track_true(), v1.track_mag());
// Alternative method that does the same thing.
pc.printf("Method 2. Lat = %.4f ", gps.latitude());
pc.printf("Lon = %.4f ", gps.longitude());
pc.printf("Alt = %.4f ", gps.altitude());
GPS_Time *q2 = gps.timeNow();
pc.printf("%c %02d:%02d:%02d %02d/%02d/%04d\r\n",
q2->status, q2->hour, q2->minute, q2->second, q2->day, q2->month, q2->year);
delete(q2);
GPS_VTG *v2 = gps.vtg();
pc.printf("Method 2. Vector data, Speed (knots):%lf, Speed(kph):%lf, Track(true):%lf, Track(mag):%lf\r\n\n",
v2->velocity_knots(), v2->velocity_kph(), v2->track_true(), v2->track_mag());
delete(v2);
led1 = 0;
}
}
#endif