DCS_TEAM
The official code that runs on the FRDM board for the chlorine sensor.
Dependencies: MBed_Adafruit-GPS-Library SDFileSystem mbed GSM_Library
Fork of
DCS
by 
Brandon Crofts
Sensor.cpp
- Committer:
- es_marble
- Date:
- 2015-04-28
- Revision:
- 18:fcce48e94191
- Parent:
- 14:97611177509b
File content as of revision 18:fcce48e94191:
#pragma once
#include "mbed.h"
#include "math.h"
#include "MBed_Adafruit_GPS.h"
#include "SDFileSystem.h"
#include "QAM.h"
#include "param.h"
#include "GSMLibrary.h"
#include "stdlib.h"
DigitalOut led_red(LED_RED);
Serial pc(USBTX, USBRX);
Timer t;
bool run = 0;
bool fil = 0;
Serial gsm(D1,D0);
/**************************************************
** SD FILE SYSTEM **
**************************************************/
SDFileSystem sd(PTE3, PTE1, PTE2, PTE4, "sd");
FILE *fp;
/**************************************************
** GPS **
**************************************************/
Serial * gps_Serial;
/**************************************************
** SENSOR INPUTS **
**************************************************/
AnalogIn AnLong(A0);
AnalogIn AnShort(A1);
AnalogIn AnRefLong(A2);
AnalogIn AnRefShort(A3);
Ticker sample_tick;
bool takeSample = false;
void tick(){takeSample = true;}
/**************************************************
** SIN OUTPUT **
**************************************************/
AnalogOut dac0(DAC0_OUT);
int sinRes = (int)1/(CARRIER_FREQ*TIME_CONST);
float sinWave[SIN_LENGTH] = {};
int sinIndex = 0;
/**************************************************
** QAM **
**************************************************/
float sLQ[SAMPLE_LENGTH] = {};
float sLI[SAMPLE_LENGTH] = {};
float sSQ[SAMPLE_LENGTH] = {};
float sSI[SAMPLE_LENGTH] = {};
float sRefLQ[SAMPLE_LENGTH] = {};
float sRefLI[SAMPLE_LENGTH] = {};
float sRefSQ[SAMPLE_LENGTH] = {};
float sRefSI[SAMPLE_LENGTH] = {};
float Iarray[SAMPLE_LENGTH] = {};
float Qarray[SAMPLE_LENGTH] = {};
int sampleIndex = 0;
float I = 0;
float Q = 0;
float lon = 0;
float lonRef = 0;
float shor = 0;
float shorRef = 0;
void buildIQ(){
for(int i = 0; i < SAMPLE_LENGTH; i++){
Iarray[i] = cos(2*PI*CARRIER_FREQ*i*TIME_CONST);
Qarray[i] = -sin(2*PI*CARRIER_FREQ*i*TIME_CONST);
}
}
void create_sinWave(){
int i = 0;
for(i = 0; i < SIN_LENGTH; i++){
sinWave[i] = 0.25 * sin(2.0*PI*i/sinRes) + 0.75;
}
}
int main () {
pc.baud(115200);
gsm.baud(115200);
pc.printf("hello\r\n");
//GSM INITIALIZATION ///////////////////////////////
gsm_initialize();
// GPS INITIALIZATION //////////////////////////////
gps_Serial = new Serial(PTC4,PTC3); ////Serial gsm(D1,D0);
Adafruit_GPS myGPS(gps_Serial);
char c;
myGPS.begin(9600);
myGPS.sendCommand(PMTK_SET_NMEA_OUTPUT_RMCGGA);
myGPS.sendCommand(PMTK_SET_NMEA_UPDATE_1HZ);
myGPS.sendCommand(PGCMD_ANTENNA);
////////////////////////////////////////////////////
buildIQ();
create_sinWave();
float filteredLong = 0;
float filteredShort = 0;
float filteredLongRef = 0;
float filteredShortRef = 0;
fp = fopen("/sd/data.txt", "w");
if (fp != NULL){
fprintf(fp, "--------------- DCS ------------------");
}
void gsm_initialize();
sample_tick.attach(&tick, 0.0001);
t.start();
while(1){
if(takeSample){
dac0 = sinWave[sinIndex];
lon = AnLong.read();
lonRef = AnRefLong.read();
shor = AnShort.read();
shorRef = AnRefShort.read();
I = Iarray[sampleIndex];
Q = Qarray[sampleIndex];
sLI[sampleIndex] = lon*I;
sLQ[sampleIndex] = lon*Q;
sSI[sampleIndex] = shor*I;
sSQ[sampleIndex] = shor*Q;
sRefLI[sampleIndex] = lonRef*I;
sRefLQ[sampleIndex] = lonRef*Q;
sRefSI[sampleIndex] = shorRef*I;
sRefSQ[sampleIndex] = shorRef*Q;
takeSample = false;
sinIndex++;
if((sinIndex+1) > SIN_LENGTH){
sinIndex = 0;
}
sampleIndex++;
if(sampleIndex+1 > SAMPLE_LENGTH){
fil = 1;
}
}
if(fil==1){
fil = 0;
run = 1;
sampleIndex = 0;
gsm_tick();
filteredLong = 10*QAM(sLI, sLQ);
filteredLongRef = QAM(sRefLI, sRefLQ);
filteredShort = 25*QAM(sSI, sSQ);
filteredShortRef = QAM(sRefSI, sRefSQ);
gsm_tick();
}
c = myGPS.read();
if ( myGPS.newNMEAreceived() ) {
if ( !myGPS.parse(myGPS.lastNMEA()) ) {
continue;
}
}
if(run){
led_red = !led_red;
run = 0;
pc.printf("%f, ", filteredLong);
pc.printf("%f, ", filteredLongRef);
pc.printf("%f, ", filteredShort);
pc.printf("%f\r\n", filteredShortRef);
pc.printf("%f, ", filteredLong/filteredLongRef);
pc.printf("%f\r\n", filteredShort/filteredShortRef);
pc.printf("%d:%d:%d \r\n", myGPS.hour+6, myGPS.minute, myGPS.seconds);
if (myGPS.fix) pc.printf("%5.2f%c, %5.2f%c\r\n", myGPS.latitude, myGPS.lat, myGPS.longitude, myGPS.lon);
else pc.printf("No GPS fix\r\n");
pc.printf("--------------------------------\r\n");
fp = fopen("/sd/data.txt", "a");
if (fp != NULL){
fprintf(fp, "%f, ", filteredLong);
fprintf(fp, "%f, ", filteredLongRef);
fprintf(fp, "%f, ", filteredShort);
fprintf(fp, "%f\r\n", filteredShortRef);
fprintf(fp, "%d:%d:%d\r\n", myGPS.hour+6, myGPS.minute, myGPS.seconds);
if (myGPS.fix) fprintf(fp, "%5.2f%c, %5.2f%c\r\n", myGPS.latitude, myGPS.lat, myGPS.longitude, myGPS.lon);
else fprintf(fp, "No_GPS_fix\r\n");
fclose(fp);
}
if(myGPS.fix)
gsm_send_data(filteredLong, filteredLongRef, filteredShort, filteredShortRef, myGPS.hour+6, myGPS.minute, myGPS.seconds, myGPS.latitude, myGPS.lat, myGPS.longitude, myGPS.lon);
else
gsm_send_data(filteredLong, filteredLongRef, filteredShort, filteredShortRef, 0, 0, 0, 0, 0, 0, 0);
}
}
}