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VK1ET : Implement Relative CPR decoding

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Modifications entirely base on code supplied by John VK1ET.

Implements relative CPR Lat/Long decoding for --interactive display
This commit is contained in:
Malcolm Robb 2013-04-24 20:24:46 +01:00
parent b78b60677c
commit a04e399d7e
1 changed files with 94 additions and 25 deletions
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115
dump1090.c
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@ -56,7 +56,7 @@
// MinorVer changes when additional features are added, but not for bug fixes (range 00-99) // MinorVer changes when additional features are added, but not for bug fixes (range 00-99)
// DayDate & Year changes for all changes, including for bug fixes. It represent the release date of the update // DayDate & Year changes for all changes, including for bug fixes. It represent the release date of the update
// //
#define MODES_DUMP1090_VERSION "1.02.2304.13" #define MODES_DUMP1090_VERSION "1.02.2404.13"
#define MODES_DEFAULT_RATE 2000000 #define MODES_DEFAULT_RATE 2000000
#define MODES_DEFAULT_FREQ 1090000000 #define MODES_DEFAULT_FREQ 1090000000
@ -2321,29 +2321,28 @@ int cprNFunction(double lat, int isodd) {
return nl; return nl;
} }
double cprDlonFunction(double lat, int isodd) { double cprDlonFunction(double lat, int isodd, int surface) {
return 360.0 / cprNFunction(lat, isodd); return (surface ? 90.0 : 360.0) / cprNFunction(lat, isodd);
} }
/* This algorithm comes from: /* This algorithm comes from:
* http://www.lll.lu/~edward/edward/adsb/DecodingADSBposition.html. * http://www.lll.lu/~edward/edward/adsb/DecodingADSBposition.html.
* *
*
* A few remarks: * A few remarks:
* 1) 131072 is 2^17 since CPR latitude and longitude are encoded in 17 bits. * 1) 131072 is 2^17 since CPR latitude and longitude are encoded in 17 bits.
* 2) We assume that we always received the odd packet as last packet for * 2) We assume that we always received the odd packet as last packet for
* simplicity. This may provide a position that is less fresh of a few * simplicity. This may provide a position that is less fresh of a few
* seconds. * seconds.
*/ */
void decodeCPR(struct aircraft *a) { void decodeCPR(struct aircraft *a, int fflag, int surface) {
const double AirDlat0 = 360.0 / 60; double AirDlat0 = (surface ? 90.0 : 360.0) / 60.0;
const double AirDlat1 = 360.0 / 59; double AirDlat1 = (surface ? 90.0 : 360.0) / 59.0;
double lat0 = a->even_cprlat; double lat0 = a->even_cprlat;
double lat1 = a->odd_cprlat; double lat1 = a->odd_cprlat;
double lon0 = a->even_cprlon; double lon0 = a->even_cprlon;
double lon1 = a->odd_cprlon; double lon1 = a->odd_cprlon;
/* Compute the Latitude Index "j" */ // Compute the Latitude Index "j"
int j = (int) floor(((59*lat0 - 60*lat1) / 131072) + 0.5); int j = (int) floor(((59*lat0 - 60*lat1) / 131072) + 0.5);
double rlat0 = AirDlat0 * (cprModFunction(j,60) + lat0 / 131072); double rlat0 = AirDlat0 * (cprModFunction(j,60) + lat0 / 131072);
double rlat1 = AirDlat1 * (cprModFunction(j,59) + lat1 / 131072); double rlat1 = AirDlat1 * (cprModFunction(j,59) + lat1 / 131072);
@ -2351,29 +2350,96 @@ void decodeCPR(struct aircraft *a) {
if (rlat0 >= 270) rlat0 -= 360; if (rlat0 >= 270) rlat0 -= 360;
if (rlat1 >= 270) rlat1 -= 360; if (rlat1 >= 270) rlat1 -= 360;
/* Check that both are in the same latitude zone, or abort. */ // Check that both are in the same latitude zone, or abort.
if (cprNLFunction(rlat0) != cprNLFunction(rlat1)) return; if (cprNLFunction(rlat0) != cprNLFunction(rlat1)) return;
/* Compute ni and the longitude index m */ // Compute ni and the Longitude Index "m"
if (a->even_cprtime > a->odd_cprtime) { if (fflag) { // Use odd packet.
/* Use even packet. */
int ni = cprNFunction(rlat0,0);
int m = (int) floor((((lon0 * (cprNLFunction(rlat0)-1)) -
(lon1 * cprNLFunction(rlat0))) / 131072) + 0.5);
a->lon = cprDlonFunction(rlat0,0) * (cprModFunction(m,ni)+lon0/131072);
a->lat = rlat0;
} else {
/* Use odd packet. */
int ni = cprNFunction(rlat1,1); int ni = cprNFunction(rlat1,1);
int m = (int) floor((((lon0 * (cprNLFunction(rlat1)-1)) - int m = (int) floor((((lon0 * (cprNLFunction(rlat1)-1)) -
(lon1 * cprNLFunction(rlat1))) / 131072.0) + 0.5); (lon1 * cprNLFunction(rlat1))) / 131072.0) + 0.5);
a->lon = cprDlonFunction(rlat1,1) * (cprModFunction(m,ni)+lon1/131072); a->lon = cprDlonFunction(rlat1,1,surface) * (cprModFunction(m,ni)+lon1/131072);
a->lat = rlat1; a->lat = rlat1;
} else { // Use even packet.
int ni = cprNFunction(rlat0,0);
int m = (int) floor((((lon0 * (cprNLFunction(rlat0)-1)) -
(lon1 * cprNLFunction(rlat0))) / 131072) + 0.5);
a->lon = cprDlonFunction(rlat0, 0, surface) * (cprModFunction(m, ni)+lon0/131072);
a->lat = rlat0;
} }
if (a->lon > 180) a->lon -= 360; if (a->lon > 180) a->lon -= 360;
a->sbsflags |= MODES_SBS_LAT_LONG_FRESH; a->sbsflags |= MODES_SBS_LAT_LONG_FRESH;
} }
/* This algorithm comes from:
* 1090-WP29-07-Draft_CPR101 (which also defines decodeCPR() )
*
* There is an error in this document related to CPR relative decode.
* Should use trunc() rather than the floor() function in Eq 38 and related for deltaZI.
* floor() returns integer less than argument
* trunc() returns integer closer to zero than argument.
* Note: text of document describes trunc() functionality for deltaZI calculation
* but the formulae use floor().
*/
int decodeCPRrelative(struct aircraft *a, int fflag, int surface, double latr, double lonr) {
double AirDlat;
double AirDlon;
double lat;
double lon;
double rlon, rlat;
int j,m;
// If not passed a lat/long, we must be using aircraft relative
if ( (latr == 0) && (lonr == 0) ) {
latr = a->lat;
lonr = a->lon;
}
if ( (latr == 0) && (lonr == 0) )
return (-1); // Exit with error - can't do relative if we don't have ref.
if (fflag) { // odd
AirDlat = (surface ? 90.0 : 360.0) / 59.0;
lat = a->odd_cprlat;
lon = a->odd_cprlon;
} else { // even
AirDlat = (surface ? 90.0 : 360.0) / 60.0;
lat = a->even_cprlat;
lon = a->even_cprlon;
}
// Compute the Latitude Index "j"
j = (int) (floor(latr/AirDlat) +
trunc(0.5 + cprModFunction((int)latr, (int)AirDlat)/AirDlat - lat/131072));
rlat = AirDlat * (j + lat/131072);
if (rlat >= 270) rlat -= 360;
// Check to see that answer is reasonable - ie no more than 1/2 cell away
if (fabs(rlat - a->lat) > (AirDlat/2)) {
a->lat = a->lon = 0; // This will cause a quick exit next time if no global has been done
return (-1); // Time to give up - Latitude error
}
// Compute the Longitude Index "m"
AirDlon = cprDlonFunction(rlat, fflag, 0);
m = (int) (floor(lonr/AirDlon) +
trunc(0.5 + cprModFunction((int)lonr, (int)AirDlon)/AirDlon - lon/131072));
rlon = AirDlon * (m + lon/131072);
if (rlon > 180) rlon -= 360;
// Check to see that answer is reasonable - ie no more than 1/2 cell away
if (fabs(rlon - a->lon) > (AirDlon/2)) {
a->lat = a->lon = 0; // This will cause a quick exit next time if no global has been done
return (-1); // Time to give up - Longitude error
}
a->lat = rlat;
a->lon = rlon;
a->sbsflags |= MODES_SBS_LAT_LONG_FRESH;
return (0);
}
/* Receive new messages and populate the interactive mode with more info. */ /* Receive new messages and populate the interactive mode with more info. */
struct aircraft *interactiveReceiveData(struct modesMessage *mm) { struct aircraft *interactiveReceiveData(struct modesMessage *mm) {
uint32_t addr; uint32_t addr;
@ -2443,10 +2509,13 @@ struct aircraft *interactiveReceiveData(struct modesMessage *mm) {
a->even_cprlon = mm->raw_longitude; a->even_cprlon = mm->raw_longitude;
a->even_cprtime = mstime(); a->even_cprtime = mstime();
} }
/* If the two data is less than 10 seconds apart, compute // Try relative CPR first
* the position. */ if (decodeCPRrelative(a, mm->fflag, 0, 0, 0)) {
// If it fails then try global if the two data are less than 10 seconds apart, compute
// the position.
if (abs((int)(a->even_cprtime - a->odd_cprtime)) <= 10000) { if (abs((int)(a->even_cprtime - a->odd_cprtime)) <= 10000) {
decodeCPR(a); decodeCPR(a, mm->fflag, 0);
}
} }
} else if (mm->metype == 19) { } else if (mm->metype == 19) {
if (mm->mesub == 1 || mm->mesub == 2) { if (mm->mesub == 1 || mm->mesub == 2) {