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- #include <string.h>
- #include <avr/pgmspace.h>
- #include "xprintf.h"
- #include "math.h"
- #include "main.h"
- #include "gpx.h"
- #include "ff.h"
- #define KALMAN_Q 8.5e-6
- #define KALMAN_R 4e-5
- #define KALMAN_ERR_MAX 6e-4
- FIL gpx_file;
- static char buf[256];
- struct kalman_s {
- unsigned char initialized;
- float x_est_last;
- float P_last;
- float Q;
- float R;
- float K;
- };
- #define PREV_POINTS_LENGTH 4
- #define AVG_COUNT 3
- #define MIN_DIST_DELTA 2.0
- struct {
- struct location_s data[PREV_POINTS_LENGTH];
- unsigned char start;
- unsigned char count;
- } prev_points;
- struct location_s last_saved;
- static struct kalman_s kalman[2];
- static struct {
- float lat;
- float lon;
- time_t time;
- } avg_store;
- static unsigned char avg_count;
- float kalman_predict(struct kalman_s *k, float data);
- void kalman_init(struct kalman_s *k);
- float distance(struct location_s *pos1, struct location_s *pos2);
- void prev_points_append(struct location_s *new){
- prev_points.data[(prev_points.start + prev_points.count)%PREV_POINTS_LENGTH] = *new;
- if(++prev_points.count > PREV_POINTS_LENGTH){
- prev_points.count--;
- prev_points.start++;
- prev_points.start %= PREV_POINTS_LENGTH;
- }
- }
- struct location_s *prev_points_get(unsigned char index){
- unsigned char i, addr = prev_points.start;
- for(i=0; i<index; i++){
- addr++;
- addr %= PREV_POINTS_LENGTH;
- }
- return &prev_points.data[addr];
- }
- unsigned char gpx_init(FIL *file) {
- unsigned int bw;
-
- kalman_init(&kalman[0]);
- kalman_init(&kalman[1]);
- prev_points.count = 0;
- avg_count = 0;
- last_saved.lon = 0;
- last_saved.lat = 0;
- last_saved.time = 0;
-
- strcpy_P(buf, PSTR("<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n"
- "<gpx xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\" xmlns=\"http://www.topografix.com/GPX/1/1\" xsi:schemaLocation=\"http://www.topografix.com/GPX/1/1 http://www.topografix.com/GPX/1/1/gpx.xsd\" version=\"1.1\" creator=\"k4be\">\n"
- "\t<trk>\n"
- "\t\t<trkseg>\n"
- ));
- return f_write(file, buf, strlen(buf), &bw);
- }
- unsigned char gpx_write(struct location_s *loc, FIL *file) {
- unsigned int bw;
- const char *time;
-
- time = get_iso_time(loc->time);
- xsprintf(buf, PSTR("\t\t\t<trkpt lat=\"%.8f\" lon=\"%.8f\">\n\t\t\t\t<time>%s</time>\n"), loc->lat, loc->lon, time);
- /* alt */
- strcat_P(buf, PSTR("\t\t\t</trkpt>\n"));
- return f_write(file, buf, strlen(buf), &bw);
- }
- unsigned char gpx_close(FIL *file) {
- unsigned int bw;
- strcpy_P(buf, PSTR("\t\t</trkseg>\n\t</trk>\n</gpx>\n"));
- f_write(file, buf, strlen(buf), &bw);
- return f_close(file);
- }
- void gpx_process_point(struct location_s *loc, FIL *file){
- float lon_est, lon_err, lat_est, lat_err;
- struct location_s *ptr;
- struct location_s nloc;
-
- lat_est = kalman_predict(&kalman[0], loc->lat);
- lon_est = kalman_predict(&kalman[1], loc->lon);
-
- lat_err = fabs(loc->lat - lat_est);
- lon_err = fabs(loc->lon - lon_est);
- // xprintf(PSTR("lat_err: %e, lon_err: %e, limit: %e\r\n"), lat_err, lon_err, (float)KALMAN_ERR_MAX);
- if(lat_err > KALMAN_ERR_MAX || lon_err > KALMAN_ERR_MAX){
- xputs_P(PSTR("KALMAN REJECT\r\n"));
- return;
- }
- loc->lat = lat_est;
- loc->lon = lon_est;
-
- prev_points_append(loc);
- if(prev_points.count == PREV_POINTS_LENGTH){
- float dist12 = distance(prev_points_get(0), prev_points_get(1));
- float dist34 = distance(prev_points_get(2), prev_points_get(3));
- float dist32 = distance(prev_points_get(2), prev_points_get(1));
- xprintf(PSTR("New distance: %fm\r\n"), dist32);
- if(dist34 > dist12 && dist32 > dist12){
- xputs_P(PSTR("DISTANCE DIFF REJECT\r\n"));
- return;
- }
- ptr = prev_points_get(PREV_POINTS_LENGTH - 2);
- } else {
- if(prev_points.count >= PREV_POINTS_LENGTH-2){
- ptr = prev_points_get(prev_points.count - 2);
- xputs_P(PSTR("NEW\r\n"));
- } else {
- return;
- }
- }
- if(distance(&last_saved, ptr) < MIN_DIST_DELTA){
- xputs_P(PSTR("Too small position change REJECT\r\n"));
- return;
- }
- xputs_P(PSTR("ACCEPT\r\n"));
- avg_store.lat += ptr->lat;
- avg_store.lon += ptr->lon;
- if(avg_count == AVG_COUNT/2)
- avg_store.time = ptr->time;
-
- if(++avg_count == AVG_COUNT){
- nloc.lat = avg_store.lat / AVG_COUNT;
- nloc.lon = avg_store.lon / AVG_COUNT;
- nloc.time = avg_store.time;
- avg_count = 0;
- avg_store.lat = 0;
- avg_store.lon = 0;
- avg_store.time = 0;
- last_saved = nloc;
- gpx_write(&nloc, file);
- return;
- }
- }
- void kalman_init(struct kalman_s *k){
- k->initialized = 0;
- k->P_last = 0;
- //the noise in the system
- k->Q = KALMAN_Q; // process variance
- k->R = KALMAN_R; // measurement variance
- k->K = 0;
- }
- float kalman_predict(struct kalman_s *k, float data){
- if(!k->initialized){
- //initial values for the kalman filter
- k->x_est_last = data;
- k->initialized = 1;
- return data;
- }
- //do a prediction
- float x_temp_est = k->x_est_last;
- float P_temp = k->P_last + k->Q;
- //calculate the Kalman gain
- k->K = P_temp * (1.0/(P_temp + k->R));
- //correct
- float x_est = x_temp_est + k->K * (data - x_temp_est);
- k->P_last = (1 - k->K) * P_temp;
- k->x_est_last = x_est;
- return x_est;
- }
- float distance(struct location_s *pos1, struct location_s *pos2){
- float lon_delta = fabs(pos1->lon - pos2->lon) * 111139.0;
- float lat_delta = fabs(pos1->lat - pos2->lat) * 111139.0;
- // xprintf(PSTR("lat1=%f; lat2=%f; lon1=%f; lon2=%f; lat_delta=%f; lon_delta=%f\r\n"), pos1->lat, pos2->lat, pos1->lon, pos2->lon, lon_delta, lat_delta);
- return sqrtf(lon_delta * lon_delta + lat_delta * lat_delta);
- }
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