/*
- * The telemetry data stream is a bit of a mess at present, with no consistent
- * formatting. In particular, the GPS data is formatted for viewing instead of parsing.
- * However, the key feature is that every telemetry line contains all of the information
- * necessary to describe the current rocket state, including the calibration values
+ * The packet format is a simple hex dump of the raw telemetry frame.
+ * It starts with 'TELEM', then contains hex digits with a checksum as the last
+ * byte on the line.
+ *
+ * Version 4 is a replacement with consistent syntax. Each telemetry line
+ * contains a sequence of space-separated names and values, the values are
+ * either integers or strings. The names are all unique. All values are
+ * optional
+ *
+ * VERSION 4 c KD7SQG n 236 f 18 r -25 s pad t 513 r_a 15756 r_b 26444 r_t 20944
+ * r_v 26640 r_d 512 r_m 208 c_a 15775 c_b 26439 c_p 15749 c_m 16281 a_a 15764
+ * a_s 0 a_b 26439 g_s u g_n 0 s_n 0
+ *
+ * VERSION 4 c KD7SQG n 19 f 0 r -23 s pad t 513 r_b 26372 r_t 21292 r_v 26788
+ * r_d 136 r_m 140 c_b 26370 k_h 0 k_s 0 k_a 0
+ *
+ * General header fields
+ *
+ * Name Value
+ *
+ * VERSION Telemetry version number (4 or more). Must be first.
+ * c Callsign (string, no spaces allowed)
+ * n Flight unit serial number (integer)
+ * f Flight number (integer)
+ * r Packet RSSI value (integer)
+ * s Flight computer state (string, no spaces allowed)
+ * t Flight computer clock (integer in centiseconds)
+ *
+ * Version 3 is Version 2 with fixed RSSI numbers -- the radio reports
+ * in 1/2dB increments while this protocol provides only integers. So,
+ * the syntax didn't change just the interpretation of the RSSI
+ * values.
+ *
+ * Version 2 of the telemetry data stream is a bit of a mess, with no
+ * consistent formatting. In particular, the GPS data is formatted for
+ * viewing instead of parsing. However, the key feature is that every
+ * telemetry line contains all of the information necessary to
+ * describe the current rocket state, including the calibration values
* for accelerometer and barometer.
*
* GPS unlocked:
* GPS 9 sat 2010-02-13 17:16:51 35°20.0803'N 106°45.2235'W 1790m \
* 0.00m/s(H) 0° 0.00m/s(V) 1.0(hdop) 0(herr) 0(verr) \
* SAT 10 29 30 24 28 5 25 21 20 15 33 1 23 30 24 18 26 10 29 2 26
+ *
*/
public class AltosTelemetry extends AltosRecord {
- public AltosTelemetry(String line) throws ParseException, AltosCRCException {
- String[] words = line.split("\\s+");
- int i = 0;
-
- if (words[i].equals("CRC") && words[i+1].equals("INVALID")) {
- i += 2;
- AltosParse.word(words[i++], "RSSI");
- rssi = AltosParse.parse_int(words[i++]);
- throw new AltosCRCException(rssi);
- }
- if (words[i].equals("CALL")) {
- version = 0;
- } else {
- AltosParse.word (words[i++], "VERSION");
- version = AltosParse.parse_int(words[i++]);
- }
-
- AltosParse.word (words[i++], "CALL");
- callsign = words[i++];
-
- AltosParse.word (words[i++], "SERIAL");
- serial = AltosParse.parse_int(words[i++]);
-
- if (version >= 2) {
- AltosParse.word (words[i++], "FLIGHT");
- flight = AltosParse.parse_int(words[i++]);
- } else
- flight = 0;
-
- AltosParse.word(words[i++], "RSSI");
- rssi = AltosParse.parse_int(words[i++]);
-
- /* Older telemetry data had mis-computed RSSI value */
- if (version <= 2)
- rssi = (rssi + 74) / 2 - 74;
-
- AltosParse.word(words[i++], "STATUS");
- status = AltosParse.parse_hex(words[i++]);
-
- AltosParse.word(words[i++], "STATE");
- state = Altos.state(words[i++]);
-
- tick = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "a:");
- accel = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "p:");
- pres = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "t:");
- temp = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "v:");
- batt = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "d:");
- drogue = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "m:");
- main = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "fa:");
- flight_accel = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "ga:");
- ground_accel = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "fv:");
- flight_vel = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "fp:");
- flight_pres = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "gp:");
- ground_pres = AltosParse.parse_int(words[i++]);
-
- if (version >= 1) {
- AltosParse.word(words[i++], "a+:");
- accel_plus_g = AltosParse.parse_int(words[i++]);
-
- AltosParse.word(words[i++], "a-:");
- accel_minus_g = AltosParse.parse_int(words[i++]);
- } else {
- accel_plus_g = ground_accel;
- accel_minus_g = ground_accel + 530;
- }
- gps = new AltosGPS(words, i, version);
+ /*
+ * General header fields
+ *
+ * Name Value
+ *
+ * VERSION Telemetry version number (4 or more). Must be first.
+ * c Callsign (string, no spaces allowed)
+ * n Flight unit serial number (integer)
+ * f Flight number (integer)
+ * r Packet RSSI value (integer)
+ * s Flight computer state (string, no spaces allowed)
+ * t Flight computer clock (integer in centiseconds)
+ */
+
+ final static String AO_TELEM_VERSION = "VERSION";
+ final static String AO_TELEM_CALL = "c";
+ final static String AO_TELEM_SERIAL = "n";
+ final static String AO_TELEM_FLIGHT = "f";
+ final static String AO_TELEM_RSSI = "r";
+ final static String AO_TELEM_STATE = "s";
+ final static String AO_TELEM_TICK = "t";
+
+ /*
+ * Raw sensor values
+ *
+ * Name Value
+ * r_a Accelerometer reading (integer)
+ * r_b Barometer reading (integer)
+ * r_t Thermometer reading (integer)
+ * r_v Battery reading (integer)
+ * r_d Drogue continuity (integer)
+ * r_m Main continuity (integer)
+ */
+
+ final static String AO_TELEM_RAW_ACCEL = "r_a";
+ final static String AO_TELEM_RAW_BARO = "r_b";
+ final static String AO_TELEM_RAW_THERMO = "r_t";
+ final static String AO_TELEM_RAW_BATT = "r_v";
+ final static String AO_TELEM_RAW_DROGUE = "r_d";
+ final static String AO_TELEM_RAW_MAIN = "r_m";
+
+ /*
+ * Sensor calibration values
+ *
+ * Name Value
+ * c_a Ground accelerometer reading (integer)
+ * c_b Ground barometer reading (integer)
+ * c_p Accelerometer reading for +1g
+ * c_m Accelerometer reading for -1g
+ */
+
+ final static String AO_TELEM_CAL_ACCEL_GROUND = "c_a";
+ final static String AO_TELEM_CAL_BARO_GROUND = "c_b";
+ final static String AO_TELEM_CAL_ACCEL_PLUS = "c_p";
+ final static String AO_TELEM_CAL_ACCEL_MINUS = "c_m";
+
+ /*
+ * Kalman state values
+ *
+ * Name Value
+ * k_h Height above pad (integer, meters)
+ * k_s Vertical speeed (integer, m/s * 16)
+ * k_a Vertical acceleration (integer, m/s² * 16)
+ */
+
+ final static String AO_TELEM_KALMAN_HEIGHT = "k_h";
+ final static String AO_TELEM_KALMAN_SPEED = "k_s";
+ final static String AO_TELEM_KALMAN_ACCEL = "k_a";
+
+ /*
+ * Ad-hoc flight values
+ *
+ * Name Value
+ * a_a Acceleration (integer, sensor units)
+ * a_s Speed (integer, integrated acceleration value)
+ * a_b Barometer reading (integer, sensor units)
+ */
+
+ final static String AO_TELEM_ADHOC_ACCEL = "a_a";
+ final static String AO_TELEM_ADHOC_SPEED = "a_s";
+ final static String AO_TELEM_ADHOC_BARO = "a_b";
+
+ /*
+ * GPS values
+ *
+ * Name Value
+ * g_s GPS state (string):
+ * l locked
+ * u unlocked
+ * e error (missing or broken)
+ * g_n Number of sats used in solution
+ * g_ns Latitude (degrees * 10e7)
+ * g_ew Longitude (degrees * 10e7)
+ * g_a Altitude (integer meters)
+ * g_Y GPS year (integer)
+ * g_M GPS month (integer - 1-12)
+ * g_D GPS day (integer - 1-31)
+ * g_h GPS hour (integer - 0-23)
+ * g_m GPS minute (integer - 0-59)
+ * g_s GPS second (integer - 0-59)
+ * g_v GPS vertical speed (integer, cm/sec)
+ * g_s GPS horizontal speed (integer, cm/sec)
+ * g_c GPS course (integer, 0-359)
+ * g_hd GPS hdop (integer * 10)
+ * g_vd GPS vdop (integer * 10)
+ * g_he GPS h error (integer)
+ * g_ve GPS v error (integer)
+ */
+
+ final static String AO_TELEM_GPS_STATE = "g";
+ final static String AO_TELEM_GPS_STATE_LOCKED = "l";
+ final static String AO_TELEM_GPS_STATE_UNLOCKED = "u";
+ final static String AO_TELEM_GPS_STATE_ERROR = "e";
+ final static String AO_TELEM_GPS_NUM_SAT = "g_n";
+ final static String AO_TELEM_GPS_LATITUDE = "g_ns";
+ final static String AO_TELEM_GPS_LONGITUDE = "g_ew";
+ final static String AO_TELEM_GPS_ALTITUDE = "g_a";
+ final static String AO_TELEM_GPS_YEAR = "g_Y";
+ final static String AO_TELEM_GPS_MONTH = "g_M";
+ final static String AO_TELEM_GPS_DAY = "g_D";
+ final static String AO_TELEM_GPS_HOUR = "g_h";
+ final static String AO_TELEM_GPS_MINUTE = "g_m";
+ final static String AO_TELEM_GPS_SECOND = "g_s";
+ final static String AO_TELEM_GPS_VERTICAL_SPEED = "g_v";
+ final static String AO_TELEM_GPS_HORIZONTAL_SPEED = "g_g";
+ final static String AO_TELEM_GPS_COURSE = "g_c";
+ final static String AO_TELEM_GPS_HDOP = "g_hd";
+ final static String AO_TELEM_GPS_VDOP = "g_vd";
+ final static String AO_TELEM_GPS_HERROR = "g_he";
+ final static String AO_TELEM_GPS_VERROR = "g_ve";
+
+ /*
+ * GPS satellite values
+ *
+ * Name Value
+ * s_n Number of satellites reported (integer)
+ * s_v0 Space vehicle ID (integer) for report 0
+ * s_c0 C/N0 number (integer) for report 0
+ * s_v1 Space vehicle ID (integer) for report 1
+ * s_c1 C/N0 number (integer) for report 1
+ * ...
+ */
+
+ final static String AO_TELEM_SAT_NUM = "s_n";
+ final static String AO_TELEM_SAT_SVID = "s_v";
+ final static String AO_TELEM_SAT_C_N_0 = "s_c";
+
+ static public AltosRecord parse(String line, AltosRecord previous) throws ParseException, AltosCRCException {
+ AltosTelemetryRecord r = AltosTelemetryRecordGeneral.parse(line);
+
+ return r.update_state(previous);
}
}