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gpssim.c
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gpssim.c
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#define _CRT_SECURE_NO_DEPRECATE
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <time.h>
#include <omp.h>
#define MAX_CHAR (100)
#define MAX_SAT (32)
#define MAX_CHAN (16)
#define N_SBF (51) // 6 seconds per subframe, 6 sec * 51 = 306 sec (max)
#define N_DWRD (N_SBF*10) // 10 word per subframe
#define SECONDS_IN_WEEK 604800.0
#define SECONDS_IN_HALF_WEEK 302400.0
#define SECONDS_IN_DAY 86400.0
#define SECONDS_IN_HOUR 3600.0
#define SECONDS_IN_MINUTE 60.0
#define POW2_M5 0.03125
#define POW2_M19 1.907348632812500e-6
#define POW2_M29 1.862645149230957e-9
#define POW2_M31 4.656612873077393e-10
#define POW2_M33 1.164153218269348e-10
#define POW2_M43 1.136868377216160e-13
#define POW2_M55 2.775557561562891e-17
// Conventional values employed in GPS ephemeris model (ICD-GPS-200)
#define GM_EARTH 3.986005e14
#define OMEGA_EARTH 7.2921151467e-5
#define PI 3.1415926535898
#define R2D 57.2957795131
#define SPEED_OF_LIGHT 2.99792458e8
#define LAMBDA_L1 0.190293672798365
#define CARR_FREQ (1575.42e6)
#define CODE_FREQ (1.023e6)
#define CARR_TO_CODE (1.0/1540.0)
#define SAMP_FREQ (4.0e6)
#define ADC_GAIN (250.0) // for bladeRF txvga1 = -25dB with 50dB external attenuation
#define USER_MOTION_SIZE (3000) // max 300 sec at 10Hz
#define IQ_BUFF_SIZE (400000) // 0.4Msps per 0.1sec
typedef struct
{
int week;
double sec;
} gpstime_t;
typedef struct
{
int y;
int m;
int d;
int hh;
int mm;
double sec;
} datetime_t;
typedef struct
{
int vflg;
gpstime_t toc;
gpstime_t toe;
int iodc;
int iode;
double deltan;
double cuc;
double cus;
double cic;
double cis;
double crc;
double crs;
double ecc;
double sqrta;
double m0;
double omg0;
double inc0;
double aop;
double omgdot;
double idot;
double af0;
double af1;
double af2;
double tgd;
} ephem_t;
typedef struct
{
gpstime_t g;
double range;
double rate;
} range_t;
typedef struct
{
int prn;
int ca[1023];
double f_carr,f_code;
double carr_phase,code_phase;
gpstime_t g0;
unsigned long dwrd[N_DWRD];
int iword;
int ibit;
int icode;
int dataBit;
int codeCA;
short *iq_buff;
} channel_t;
void codegen(int *ca, int prn)
{
int delay[] = {
5, 6, 7, 8, 17, 18, 139, 140, 141, 251,
252, 254, 255, 256, 257, 258, 469, 470, 471, 472,
473, 474, 509, 512, 513, 514, 515, 516, 859, 860,
861, 862};
int g1[1023],g2[1023],r1[10],r2[10],c1,c2;
int i,j;
int sv = prn-1;
if (prn<1 || prn>32)
return;
for (i=0;i<10;i++)
r1[i] = r2[i] = -1;
for (i=0; i<1023; i++)
{
g1[i] = r1[9];
g2[i] = r2[9];
c1 = r1[2]*r1[9];
c2 = r2[1]*r2[2]*r2[5]*r2[7]*r2[8]*r2[9];
for (j=9; j>0; j--)
{
r1[j] = r1[j-1];
r2[j] = r2[j-1];
}
r1[0] = c1;
r2[0] = c2;
}
for (i=0,j=1023-delay[prn-1]; i<1023; i++,j++)
ca[i] = (1-g1[i]*g2[j%1023])/2;
return;
}
void date2gps(datetime_t *t, gpstime_t *g)
{
int doy[12] = {0,31,59,90,120,151,181,212,243,273,304,334};
int ye;
int de;
int lpdays;
ye = t->y - 1980;
// Compute the number of leap days since Jan 5/Jan 6, 1980.
lpdays = ye/4 + 1;
if ((ye%4)==0 && t->m<=2)
lpdays--;
// Compute the number of days elapsed since Jan 5/Jan 6, 1980.
de = ye*365 + doy[t->m-1] + t->d + lpdays - 6;
// Convert time to GPS weeks and seconds.
g->week = de / 7;
g->sec = (double)(de%7)*SECONDS_IN_DAY + t->hh*SECONDS_IN_HOUR
+ t->mm*SECONDS_IN_MINUTE + t->sec;
return;
}
void xyz2llh(double *xyz, double *llh)
{
double a,eps,e,e2;
double x,y,z;
double rho2,dz,zdz,nh,slat,n,dz_new;
a = 6378137.0;
e = 0.0818191908426;
eps = 1.0e-3;
e2 = e*e;
x = xyz[0];
y = xyz[1];
z = xyz[2];
rho2 = x*x + y*y;
dz = e2*z;
while (1)
{
zdz = z + dz;
nh = sqrt(rho2 + zdz*zdz);
slat = zdz / nh;
n = a / sqrt(1.0-e2*slat*slat);
dz_new = n*e2*slat;
if (fabs(dz-dz_new) < eps)
break;
dz = dz_new;
}
llh[0] = atan2(zdz, sqrt(rho2));
llh[1] = atan2(y, x);
llh[2] = nh - n;
return;
}
/*
void llh2xyz(double *llh, double *xyz)
{
double n;
double a;
double e;
double e2;
double clat;
double slat;
double clon;
double slon;
double d,nph;
double tmp;
a = 6378137.0;
e = 0.0818191908426;
e2 = e*e;
clat = cos(llh[0]);
slat = sin(llh[0]);
clon = cos(llh[1]);
slon = sin(llh[1]);
d = e*slat;
n = a/sqrt(1.0-d*d);
nph = n + llh[2];
tmp = nph*clat;
xyz[0] = tmp*clon;
xyz[1] = tmp*slon;
xyz[2] = ((1.0-e2)*n + llh[2])*slat;
return;
}
*/
void ltcmat(double *llh, double t[3][3])
{
double slat, clat;
double slon, clon;
slat = sin(llh[0]);
clat = cos(llh[0]);
slon = sin(llh[1]);
clon = cos(llh[1]);
t[0][0] = -slat*clon;
t[0][1] = -slat*slon;
t[0][2] = clat;
t[1][0] = -slon;
t[1][1] = clon;
t[1][2] = 0.0;
t[2][0] = clat*clon;
t[2][1] = clat*slon;
t[2][2] = slat;
return;
}
void ecef2neu(double *xyz, double t[3][3], double *neu)
{
neu[0] = t[0][0]*xyz[0] + t[0][1]*xyz[1] + t[0][2]*xyz[2];
neu[1] = t[1][0]*xyz[0] + t[1][1]*xyz[1] + t[1][2]*xyz[2];
neu[2] = t[2][0]*xyz[0] + t[2][1]*xyz[1] + t[2][2]*xyz[2];
return;
}
void neu2azel(double *azel, double *neu)
{
double ne;
azel[0] = atan2(neu[1],neu[0]);
if (azel[0]<0.0)
azel[0] += (2.0*PI);
ne = sqrt(neu[0]*neu[0] + neu[1]*neu[1]);
azel[1] = atan2(neu[2], ne);
return;
}
void satpos(ephem_t eph, gpstime_t g, double *pos, double *vel, double *clk)
{
// Computing Satellite Velocity using the Broadcast Ephemeris
// http://www.ngs.noaa.gov/gps-toolbox/bc_velo.htm
double tk;
double a;
double mk;
double mkdot;
double ek;
double ekold;
double ekdot;
double cek,sek;
double pk;
double pkdot;
double c2pk,s2pk;
double uk;
double ukdot;
double cuk,suk;
double ok;
double okdot;
double sok,cok;
double ik;
double ikdot;
double sik,cik;
double rk;
double rkdot;
double xpk,ypk;
double xpkdot,ypkdot;
double relativistic, OneMinusecosE, sqrtOneMinuse2, tmp;
tk = g.sec - eph.toe.sec;
if(tk>SECONDS_IN_HALF_WEEK)
tk -= SECONDS_IN_WEEK;
else if(tk<-SECONDS_IN_HALF_WEEK)
tk += SECONDS_IN_WEEK;
a = eph.sqrta*eph.sqrta;
mkdot = sqrt(GM_EARTH/(a*a*a)) + eph.deltan;
mk = eph.m0 + mkdot*tk;
ek = mk;
ekold = ek + 1.0;
while(fabs(ek-ekold)>1.0E-14)
{
ekold = ek;
OneMinusecosE = 1.0-eph.ecc*cos(ekold);
ek = ek + (mk-ekold+eph.ecc*sin(ekold))/OneMinusecosE;
}
sek = sin(ek);
cek = cos(ek);
ekdot = mkdot/OneMinusecosE;
relativistic = -4.442807633E-10*eph.ecc*eph.sqrta*sek;
sqrtOneMinuse2 = sqrt(1.0 - eph.ecc*eph.ecc);
pk = atan2(sqrtOneMinuse2*sek,cek-eph.ecc) + eph.aop;
pkdot = sqrtOneMinuse2*ekdot/OneMinusecosE;
s2pk = sin(2.0*pk);
c2pk = cos(2.0*pk);
uk = pk + eph.cus*s2pk + eph.cuc*c2pk;
suk = sin(uk);
cuk = cos(uk);
ukdot = pkdot*(1.0 + 2.0*(eph.cus*c2pk - eph.cuc*s2pk));
rk = a*OneMinusecosE + eph.crc*c2pk + eph.crs*s2pk;
rkdot = a*eph.ecc*sek*ekdot + 2.0*pkdot*(eph.crs*c2pk - eph.crc*s2pk);
ik = eph.inc0 + eph.idot*tk + eph.cic*c2pk + eph.cis*s2pk;
sik = sin(ik);
cik = cos(ik);
ikdot = eph.idot + 2.0*pkdot*(eph.cis*c2pk - eph.cic*s2pk);
xpk = rk*cuk;
ypk = rk*suk;
xpkdot = rkdot*cuk - ypk*ukdot;
ypkdot = rkdot*suk + xpk*ukdot;
okdot = eph.omgdot - OMEGA_EARTH;
ok = eph.omg0 + tk*okdot - OMEGA_EARTH*eph.toe.sec;
sok = sin(ok);
cok = cos(ok);
pos[0] = xpk*cok - ypk*cik*sok;
pos[1] = xpk*sok + ypk*cik*cok;
pos[2] = ypk*sik;
tmp = ypkdot*cik - ypk*sik*ikdot;
vel[0] = -okdot*pos[1] + xpkdot*cok - tmp*sok;
vel[1] = okdot*pos[0] + xpkdot*sok + tmp*cok;
vel[2] = ypk*cik*ikdot + ypkdot*sik;
clk[0] = eph.af0 + tk*(eph.af1 + tk*eph.af2) + relativistic - eph.tgd;
clk[1] = eph.af1 + 2.0*tk*eph.af2;
return;
}
void eph2sbf(ephem_t eph, unsigned long sbf[5][10])
{
unsigned long wn;
unsigned long toe;
unsigned long toc;
unsigned long iode;
unsigned long iodc;
long deltan;
long cuc;
long cus;
long cic;
long cis;
long crc;
long crs;
unsigned long ecc;
unsigned long sqrta;
long m0;
long omg0;
long inc0;
long aop;
long omgdot;
long idot;
long af0;
long af1;
long af2;
long tgd;
unsigned long ura = 2UL;
unsigned long dataId = 1UL;
unsigned long sbf4_page25_svId = 63UL;
unsigned long sbf5_page25_svId = 51UL;
unsigned long wna;
unsigned long toa;
wn = (unsigned long)(eph.toe.week%1024);
toe = (unsigned long)(eph.toe.sec/16.0);
toc = (unsigned long)(eph.toc.sec/16.0);
iode = (unsigned long)(eph.iode);
iodc = (unsigned long)(eph.iodc);
deltan = (long)(eph.deltan/POW2_M43/PI);
cuc = (long)(eph.cuc/POW2_M29);
cus = (long)(eph.cus/POW2_M29);
cic = (long)(eph.cic/POW2_M29);
cis = (long)(eph.cis/POW2_M29);
crc = (long)(eph.crc/POW2_M5);
crs = (long)(eph.crs/POW2_M5);
ecc = (unsigned long)(eph.ecc/POW2_M33);
sqrta = (unsigned long)(eph.sqrta/POW2_M19);
m0 = (long)(eph.m0/POW2_M31/PI);
omg0 = (long)(eph.omg0/POW2_M31/PI);
inc0 = (long)(eph.inc0/POW2_M31/PI);
aop = (long)(eph.aop/POW2_M31/PI);
omgdot = (long)(eph.omgdot/POW2_M43/PI);
idot = (long)(eph.idot/POW2_M43/PI);
af0 = (long)(eph.af0/POW2_M31);
af1 = (long)(eph.af1/POW2_M43);
af2 = (long)(eph.af2/POW2_M55);
tgd = (long)(eph.tgd/POW2_M31);
wna = (unsigned long)(eph.toe.week%256);
toa = (unsigned long)(eph.toe.sec/4096.0);
// Subframe 1
sbf[0][0] = 0x8B0000UL<<6;
sbf[0][1] = 0x1UL<<8;
sbf[0][2] = ((wn&0x3FFUL)<<20) | (ura<<14) | (((iodc>>8)&0x3UL)<<6);
sbf[0][3] = 0UL;
sbf[0][4] = 0UL;
sbf[0][5] = 0UL;
sbf[0][6] = (tgd&0xFFUL)<<6;
sbf[0][7] = ((iodc&0xFFUL)<<22) | ((toc&0xFFFFUL)<<6);
sbf[0][8] = ((af2&0xFFUL)<<22) | ((af1&0xFFFFUL)<<6);
sbf[0][9] = (af0&0x3FFFFFUL)<<8;
// Subframe 2
sbf[1][0] = 0x8B0000UL<<6;
sbf[1][1] = 0x2UL<<8;
sbf[1][2] = ((iode&0xFFUL)<<22) | ((crs&0xFFFFUL)<<6);
sbf[1][3] = ((deltan&0xFFFFUL)<<14) | (((m0>>24)&0xFFUL)<<6);
sbf[1][4] = (m0&0xFFFFFFUL)<<6;
sbf[1][5] = ((cuc&0xFFFFUL)<<14) | (((ecc>>24)&0xFFUL)<<6);
sbf[1][6] = (ecc&0xFFFFFFUL)<<6;
sbf[1][7] = ((cus&0xFFFFUL)<<14) | (((sqrta>>24)&0xFFUL)<<6);
sbf[1][8] = (sqrta&0xFFFFFFUL)<<6;
sbf[1][9] = (toe&0xFFFFUL)<<14;
// Subframe 3
sbf[2][0] = 0x8B0000UL<<6;
sbf[2][1] = 0x3UL<<8;
sbf[2][2] = ((cic&0xFFFFUL)<<14) | (((omg0>>24)&0xFFUL)<<6);
sbf[2][3] = (omg0&0xFFFFFFUL)<<6;
sbf[2][4] = ((cis&0xFFFFUL)<<14) | (((inc0>>24)&0xFFUL)<<6);
sbf[2][5] = (inc0&0xFFFFFFUL)<<6;
sbf[2][6] = ((crc&0xFFFFUL)<<14) | (((aop>>24)&0xFFUL)<<6);
sbf[2][7] = (aop&0xFFFFFFUL)<<6;
sbf[2][8] = (omgdot&0xFFFFFFUL)<<6;
sbf[2][9] = ((iode&0xFFUL)<<22) | ((idot&0x3FFFUL)<<8);
// Subframe 4, page 25
sbf[3][0] = 0x8B0000UL<<6;
sbf[3][1] = 0x4UL<<8;
sbf[3][2] = (dataId<<28) | (sbf4_page25_svId<<22);
sbf[3][3] = 0UL;
sbf[3][4] = 0UL;
sbf[3][5] = 0UL;
sbf[3][6] = 0UL;
sbf[3][7] = 0UL;
sbf[3][8] = 0UL;
sbf[3][9] = 0UL;
// Subframe 5, page 25
sbf[4][0] = 0x8B0000UL<<6;
sbf[4][1] = 0x5UL<<8;
sbf[4][2] = (dataId<<28) | (sbf5_page25_svId<<22) | ((toa&0xFFUL)<<14) | ((wna&0xFFUL)<<6);
sbf[4][3] = 0UL;
sbf[4][4] = 0UL;
sbf[4][5] = 0UL;
sbf[4][6] = 0UL;
sbf[4][7] = 0UL;
sbf[4][8] = 0UL;
sbf[4][9] = 0UL;
return;
}
unsigned long countBits(unsigned long v)
{
unsigned long c;
const int S[] = {1, 2, 4, 8, 16};
const unsigned long B[] = {
0x55555555, 0x33333333, 0x0F0F0F0F, 0x00FF00FF, 0x0000FFFF};
c = v;
c = ((c >> S[0]) & B[0]) + (c & B[0]);
c = ((c >> S[1]) & B[1]) + (c & B[1]);
c = ((c >> S[2]) & B[2]) + (c & B[2]);
c = ((c >> S[3]) & B[3]) + (c & B[3]);
c = ((c >> S[4]) & B[4]) + (c & B[4]);
return(c);
}
unsigned long computeChecksum(unsigned long source, int nib)
{
/*
Bits 31 to 30 = 2 LSBs of the previous transmitted word, D29* and D30*
Bits 29 to 6 = Source data bits, d1, d2, ..., d24
Bits 5 to 0 = Empty parity bits
*/
/*
Bits 31 to 30 = 2 LSBs of the previous transmitted word, D29* and D30*
Bits 29 to 6 = Data bits transmitted by the SV, D1, D2, ..., D24
Bits 5 to 0 = Computed parity bits, D25, D26, ..., D30
*/
/*
1 2 3
bit 12 3456 7890 1234 5678 9012 3456 7890
--- -------------------------------------
D25 11 1011 0001 1111 0011 0100 1000 0000
D26 01 1101 1000 1111 1001 1010 0100 0000
D27 10 1110 1100 0111 1100 1101 0000 0000
D28 01 0111 0110 0011 1110 0110 1000 0000
D29 10 1011 1011 0001 1111 0011 0100 0000
D30 00 1011 0111 1010 1000 1001 1100 0000
*/
unsigned long bmask[6] = {
0x3B1F3480UL, 0x1D8F9A40UL, 0x2EC7CD00UL,
0x1763E680UL, 0x2BB1F340UL, 0x0B7A89C0UL };
unsigned long D;
unsigned long d = source & 0x3FFFFFC0UL;
unsigned long D29 = (source>>31)&0x1UL;
unsigned long D30 = (source>>30)&0x1UL;
if (nib) // Non-information bearing bits for word 2 and 10
{
/*
Solve bits 23 and 24 to presearve parity check
with zeros in bits 29 and 30.
*/
if ((D30 + countBits(bmask[4] & d)) % 2)
d ^= (0x1UL<<6);
if ((D29 + countBits(bmask[5] & d)) % 2)
d ^= (0x1UL<<7);
}
D = d;
if (D30)
D ^= 0x3FFFFFC0UL;
D |= ((D29 + countBits(bmask[0] & d)) % 2) << 5;
D |= ((D30 + countBits(bmask[1] & d)) % 2) << 4;
D |= ((D29 + countBits(bmask[2] & d)) % 2) << 3;
D |= ((D30 + countBits(bmask[3] & d)) % 2) << 2;
D |= ((D30 + countBits(bmask[4] & d)) % 2) << 1;
D |= ((D29 + countBits(bmask[5] & d)) % 2);
D &= 0x3FFFFFFFUL;
//D |= (source & 0xC0000000UL); // Add D29* and D30* from source data bits
return(D);
}
int checkExpDesignator(char *str, int len)
{
int i,n=0;
for (i=0; i<len; i++)
{
if (str[i]=='D')
{
n++;
str[i] = 'E';
}
}
return(n);
}
int readRinexNav(ephem_t eph[], char *fname)
{
FILE *fp;
int nsat;
int sv;
char str[MAX_CHAR];
char tmp[20];
datetime_t t;
gpstime_t g;
gpstime_t g0;
double dt;
if (NULL==(fp=fopen(fname, "rt")))
return(-1);
for (sv=0; sv<MAX_SAT; sv++)
eph[sv].vflg = 0; // Clear valid flag
while (1)
{
if (NULL==fgets(str, MAX_CHAR, fp))
break;
if (0==strncmp(str+60, "END OF HEADER", 13))
break;
}
nsat = 0;
g0.week = -1;
while (1)
{
// PRN / EPOCH / SV CLK
if (NULL==fgets(str, MAX_CHAR, fp))
break;
strncpy(tmp, str+3, 2);
tmp[2] = 0;
t.y = atoi(tmp) + 2000;
strncpy(tmp, str+6, 2);
tmp[2] = 0;
t.m = atoi(tmp);
strncpy(tmp, str+9, 2);
tmp[2] = 0;
t.d = atoi(tmp);
strncpy(tmp, str+12, 2);
tmp[2] = 0;
t.hh = atoi(tmp);
strncpy(tmp, str+15, 2);
tmp[2] = 0;
t.mm = atoi(tmp);
strncpy(tmp, str+18, 4);
tmp[2] = 0;
t.sec = atof(tmp);
date2gps(&t, &g);
if (g0.week==-1)
g0 = g;
dt = g.sec - g0.sec;
if ((g.week==g0.week) && (dt>-SECONDS_IN_HOUR) && (dt<=SECONDS_IN_HOUR))
{
strncpy(tmp, str, 2);
tmp[2] = 0;
sv = atoi(tmp)-1;
if (eph[sv].vflg==0)
{
eph[sv].toc = g;
strncpy(tmp, str+22, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19); // tmp[15]='E';
eph[sv].af0 = atof(tmp);
strncpy(tmp, str+41, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].af1 = atof(tmp);
strncpy(tmp, str+60, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].af2 = atof(tmp);
// BROADCAST ORBIT - 1
if (NULL==fgets(str, MAX_CHAR, fp))
break;
strncpy(tmp, str+3, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].iode = (int)atof(tmp);
strncpy(tmp, str+22, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].crs = atof(tmp);
strncpy(tmp, str+41, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].deltan = atof(tmp);
strncpy(tmp, str+60, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].m0 = atof(tmp);
// BROADCAST ORBIT - 2
if (NULL==fgets(str, MAX_CHAR, fp))
break;
strncpy(tmp, str+3, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].cuc = atof(tmp);
strncpy(tmp, str+22, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].ecc = atof(tmp);
strncpy(tmp, str+41, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].cus = atof(tmp);
strncpy(tmp, str+60, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].sqrta = atof(tmp);
// BROADCAST ORBIT - 3
if (NULL==fgets(str, MAX_CHAR, fp))
break;
strncpy(tmp, str+3, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].toe.sec = atof(tmp);
strncpy(tmp, str+22, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].cic = atof(tmp);
strncpy(tmp, str+41, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].omg0 = atof(tmp);
strncpy(tmp, str+60, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].cis = atof(tmp);
// BROADCAST ORBIT - 4
if (NULL==fgets(str, MAX_CHAR, fp))
break;
strncpy(tmp, str+3, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].inc0 = atof(tmp);
strncpy(tmp, str+22, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].crc = atof(tmp);
strncpy(tmp, str+41, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].aop = atof(tmp);
strncpy(tmp, str+60, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].omgdot = atof(tmp);
// BROADCAST ORBIT - 5
if (NULL==fgets(str, MAX_CHAR, fp))
break;
strncpy(tmp, str+3, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].idot = atof(tmp);
strncpy(tmp, str+41, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].toe.week = (int)atof(tmp);
// BROADCAST ORBIT - 6
if (NULL==fgets(str, MAX_CHAR, fp))
break;
strncpy(tmp, str+41, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].tgd = atof(tmp);
strncpy(tmp, str+60, 19);
tmp[19] = 0;
checkExpDesignator(tmp, 19);
eph[sv].iodc = (int)atof(tmp);
// BROADCAST ORBIT - 7
if (NULL==fgets(str, MAX_CHAR, fp))
break;
eph[sv].vflg = 1;
nsat++;
}
}
else
break;
}
fclose(fp);
return(nsat);
}
void subVect(double *y, double *x1, double *x2)
{
y[0] = x1[0]-x2[0];
y[1] = x1[1]-x2[1];
y[2] = x1[2]-x2[2];
return;
}
double normVect(double *x)
{
return(sqrt(x[0]*x[0]+x[1]*x[1]+x[2]*x[2]));
}
double dotProd(double *x1, double *x2)
{
return(x1[0]*x2[0]+x1[1]*x2[1]+x1[2]*x2[2]);
}
void computeRange(range_t *rho, ephem_t eph, gpstime_t g, double xyz[])
{
double pos[3],vel[3],clk[2];
double los[3];
double tau;
double range,rate;
// SV position at time of the pseudorange observation.
satpos(eph, g, pos, vel, clk);
// Receiver to satellite vector and light-time.
subVect(los, pos, xyz);
tau = normVect(los)/SPEED_OF_LIGHT;
// Extrapolate the satellite position backwards to the transmission time.
pos[0] -= vel[0]*tau;
pos[1] -= vel[1]*tau;
pos[2] -= vel[2]*tau;
// Earth rotation correction. The change in velocity can be neglected.
pos[0] += pos[1]*OMEGA_EARTH*tau;
pos[1] -= pos[0]*OMEGA_EARTH*tau;
// New observer to satellite vector and satellite range.
subVect(los, pos, xyz);
range = normVect(los);
// Pseudorange.
rho->range = range - SPEED_OF_LIGHT*clk[0];
// Relative velocity of SV and receiver.
rate = dotProd(vel, los)/range;
// Pseudorange rate.
rho->rate = rate; // - SPEED_OF_LIGHT*clk[1];
// Time of application
rho->g = g;
return;
}
void computeCodePhase(channel_t *chan, range_t rho0, range_t rho1, double dt)
{
double ms;
int ims;
double rhorate;
// Pseudorange rate.
rhorate = (rho1.range - rho0.range)/dt;
// Carrier and code frequency.
chan->f_carr = -rhorate/LAMBDA_L1;
chan->f_code = CODE_FREQ + chan->f_carr*CARR_TO_CODE;
// Initial code phase and data bit counters.
ms = (((rho0.g.sec-chan->g0.sec)+6.0) - rho0.range/SPEED_OF_LIGHT)*1000.0;
ims = (int)ms;
chan->code_phase = (ms-(double)ims)*1023.0; // in chip
chan->iword = ims/600; // 1 word = 30 bits = 600 ms
ims -= chan->iword*600;
chan->ibit = ims/20; // 1 bit = 20 code = 20 ms
ims -= chan->ibit*20;
chan->icode = ims; // 1 code = 1 ms
chan->codeCA = chan->ca[(int)chan->code_phase]*2-1;
chan->dataBit = (int)((chan->dwrd[chan->iword]>>(29-chan->ibit)) & 0x1UL)*2-1;
return;
}
int readUserMotion(double xyz[USER_MOTION_SIZE][3], char *filename)
{
FILE *fp;
int numd;
double t,x,y,z;
if (NULL==(fp=fopen(filename,"rt")))
return(-1);
for (numd=0; numd<USER_MOTION_SIZE; numd++)
{
if (EOF==fscanf(fp, "%lf,%lf,%lf,%lf", &t, &x, &y, &z)) // Read CSV file
break;
xyz[numd][0] = x;
xyz[numd][1] = y;
xyz[numd][2] = z;
}
fclose(fp);
return (numd);
}
int main(int argc, char *argv[])
{
clock_t tstart,tend;
FILE *fp;
int sv;
int neph;
ephem_t eph[MAX_SAT];
gpstime_t g0;
double llh[3],xyz[3];
double pos[3],vel[3],clk[2];