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dgps_exterrs.py
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dgps_exterrs.py
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#!/usr/bin/env python
'''
two receiver DGPS test code
'''
import ublox, sys, time, struct
import ephemeris, util
import RTCMv2
from optparse import OptionParser
parser = OptionParser("dgps_test.py [options]")
parser.add_option("--port1", help="serial port 1", default='/dev/ttyACM0')
parser.add_option("--port2", help="serial port 2", default='/dev/ttyACM1')
parser.add_option("--port3", help="serial port 3", default=None)
parser.add_option("--baudrate", type='int',
help="serial baud rate", default=115200)
parser.add_option("--log1", help="log file1", default=None)
parser.add_option("--log2", help="log file2", default=None)
parser.add_option("--log3", help="log file3", default=None)
parser.add_option("--reopen", action='store_true', default=False, help='re-open on failure')
parser.add_option("--nortcm", action='store_true', default=False, help="don't send RTCM to receiver2")
parser.add_option("--usePPP", type='int', default=1, help="usePPP on recv1")
parser.add_option("--dynmodel1", type='int', default=ublox.DYNAMIC_MODEL_STATIONARY, help="dynamic model for recv1")
parser.add_option("--dynmodel2", type='int', default=ublox.DYNAMIC_MODEL_AIRBORNE4G, help="dynamic model for recv2")
parser.add_option("--dynmodel3", type='int', default=ublox.DYNAMIC_MODEL_AIRBORNE4G, help="dynamic model for recv3")
parser.add_option("--module-reset", action='store_true', help="cold start all the modules")
(opts, args) = parser.parse_args()
def setup_port(port, log, append=False):
dev = ublox.UBlox(port, baudrate=opts.baudrate, timeout=0.01)
dev.set_logfile(log, append=append)
dev.set_binary()
dev.configure_poll_port()
dev.configure_poll(ublox.CLASS_CFG, ublox.MSG_CFG_USB)
dev.configure_poll(ublox.CLASS_CFG, ublox.MSG_CFG_NAVX5)
dev.configure_poll(ublox.CLASS_MON, ublox.MSG_MON_HW)
dev.configure_poll(ublox.CLASS_NAV, ublox.MSG_NAV_DGPS)
dev.configure_poll(ublox.CLASS_MON, ublox.MSG_MON_VER)
dev.configure_port(port=ublox.PORT_SERIAL1, inMask=0x7, outMask=1)
dev.configure_port(port=ublox.PORT_USB, inMask=0x7, outMask=1)
dev.configure_port(port=ublox.PORT_SERIAL2, inMask=0x7, outMask=1)
dev.configure_poll_port()
dev.configure_poll_port(ublox.PORT_SERIAL1)
dev.configure_poll_port(ublox.PORT_SERIAL2)
dev.configure_poll_port(ublox.PORT_USB)
return dev
dev1 = setup_port(opts.port1, opts.log1)
dev2 = setup_port(opts.port2, opts.log2)
if opts.port3 is not None:
dev3 = setup_port(opts.port3, opts.log3)
else:
dev3 = None
if opts.module_reset:
dev1.module_reset(ublox.RESET_COLD, ublox.RESET_HW)
dev2.module_reset(ublox.RESET_COLD, ublox.RESET_HW)
if dev3 is not None:
dev3.module_reset(ublox.RESET_COLD, ublox.RESET_HW)
time.sleep(1)
dev1.close()
dev2.close()
if dev3 is not None:
dev3.close()
time.sleep(1)
dev1 = setup_port(opts.port1, opts.log1)
dev2 = setup_port(opts.port2, opts.log2)
if opts.port3 is not None:
dev3 = setup_port(opts.port3, opts.log3)
else:
dev3 = None
dev1.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_SVINFO, 1)
dev1.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_SOL, 1)
dev1.configure_solution_rate(rate_ms=1000)
dev2.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_POSLLH, 1)
dev2.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_POSECEF, 1)
dev2.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_DGPS, 1)
dev2.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_SVINFO, 0)
dev2.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_VELECEF, 0)
dev2.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_VELNED, 0)
dev2.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_SOL, 1)
dev2.configure_message_rate(ublox.CLASS_RXM, ublox.MSG_RXM_SVSI, 0)
dev2.configure_solution_rate(rate_ms=1000)
if dev3 is not None:
dev3.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_POSLLH, 1)
dev3.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_POSECEF, 1)
dev3.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_SVINFO, 0)
dev3.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_VELECEF, 0)
dev3.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_VELNED, 0)
dev3.configure_message_rate(ublox.CLASS_NAV, ublox.MSG_NAV_SOL, 1)
dev3.configure_message_rate(ublox.CLASS_RXM, ublox.MSG_RXM_SVSI, 0)
dev3.configure_solution_rate(rate_ms=1000)
# we want the ground station to use a stationary model, and the roving
# GPS to use a highly dynamic model
dev1.set_preferred_dynamic_model(opts.dynmodel1)
dev2.set_preferred_dynamic_model(opts.dynmodel2)
if dev3 is not None:
dev3.set_preferred_dynamic_model(opts.dynmodel3)
dev2.set_preferred_dgps_timeout(60)
# enable PPP on the ground side if we can
dev1.set_preferred_usePPP(opts.usePPP)
dev2.set_preferred_usePPP(False)
if dev3 is not None:
dev3.set_preferred_usePPP(False)
rtcmfile = open('rtcm2.dat', mode='wb')
rtcm_gen = RTCMv2.RTCMBits()
itow = 0
week = 0
rx1_pos = util.PosVector(0,0,0)
rx2_pos = util.PosVector(0,0,0)
rx3_pos = util.PosVector(0,0,0)
svid_seen = {}
svid_iode = {}
def svinfo_to_rtcm(svinfo):
resid = {}
for i in range(msg.numCh):
sv = msg.recs[i].svid
tnow = time.time()
if not sv in svid_seen or tnow > svid_seen[sv]+30:
dev1.configure_poll(ublox.CLASS_AID, ublox.MSG_AID_EPH, struct.pack('<B', sv))
svid_seen[sv] = tnow
for rec in svinfo.recs:
resid[rec.svid] = -rec.prRes / 100.
if week == 0:
return
rtcm = rtcm_gen.RTCMType1_ext(resid, itow, week, svid_iode)
if len(rtcm) != 0:
print("generated type 1")
rtcmfile.write(rtcm)
if not opts.nortcm:
dev2.write(rtcm)
rtcm = rtcm_gen.RTCMType3_ext(itow, week, rx1_pos)
if len(rtcm) != 0:
print("generated type 3")
rtcmfile.write(rtcm)
if not opts.nortcm:
dev2.write(rtcm)
last_msg1_time = time.time()
last_msg2_time = time.time()
last_msg3_time = time.time()
def handle_device1(msg):
'''handle message from reference GPS'''
global messages, satinfo, itow, week, rx1_pos, svid_seen
if msg.name() in ['NAV_SVINFO', 'NAV_SOL', 'AID_EPH']:
try:
msg.unpack()
except ublox.UBloxError as e:
print(e)
if msg.name() == 'NAV_SVINFO':
svinfo_to_rtcm(msg)
elif msg.name() == 'NAV_SOL':
itow = msg.iTOW * 0.001
week = msg.week
rx1_pos = util.PosVector(msg.ecefX / 100., msg.ecefY / 100., msg.ecefZ / 100.)
elif msg.name() == 'AID_EPH':
eph = ephemeris.EphemerisData(msg)
if eph.valid:
svid_iode[eph.svid] = eph.iode
errlog = open('errlog.txt', mode='w')
errlog.write("normal DGPS normal-XY DGPS-XY\n")
def display_diff(name, pos1, pos2):
print("%13s err: %6.2f errXY: %6.2f pos=%s" % (name, pos1.distance(pos2), pos1.distanceXY(pos2), pos1.ToLLH()))
def handle_device2(msg):
'''handle message from rover GPS'''
if msg.name() == 'NAV_DGPS':
msg.unpack()
print("DGPS: age=%u numCh=%u" % (msg.age, msg.numCh))
if msg.name() == "NAV_POSECEF":
msg.unpack()
rx2_pos = util.PosVector(msg.ecefX*0.01, msg.ecefY*0.01, msg.ecefZ*0.01)
print("-----------------")
display_diff("RECV1<->RECV2", rx1_pos, rx2_pos)
if dev3 is not None:
display_diff("RECV1<->RECV3", rx1_pos, rx3_pos)
errlog.write("%f %f %f %f\n" % (
rx1_pos.distance(rx3_pos),
rx1_pos.distance(rx2_pos),
rx1_pos.distanceXY(rx3_pos),
rx1_pos.distanceXY(rx2_pos)))
errlog.flush()
def handle_device3(msg):
global rx3_pos
'''handle message from uncorrected rover GPS'''
if msg.name() == "NAV_POSECEF":
msg.unpack()
pos = util.PosVector(msg.ecefX*0.01, msg.ecefY*0.01, msg.ecefZ*0.01)
rx3_pos = pos
while True:
# get a message from the reference GPS
msg = dev1.receive_message_noerror()
if msg is not None:
handle_device1(msg)
last_msg1_time = time.time()
msg = dev2.receive_message_noerror()
if msg is not None:
handle_device2(msg)
last_msg2_time = time.time()
if dev3 is not None:
msg = dev3.receive_message_noerror()
if msg is not None:
handle_device3(msg)
last_msg3_time = time.time()
if opts.reopen and time.time() > last_msg1_time + 5:
dev1.close()
dev1 = setup_port(opts.port1, opts.log1, append=True)
last_msg1_time = time.time()
sys.stdout.write('R1')
if opts.reopen and time.time() > last_msg2_time + 5:
dev2.close()
dev2 = setup_port(opts.port2, opts.log2, append=True)
last_msg2_time = time.time()
sys.stdout.write('R2')
if dev3 is not None and opts.reopen and time.time() > last_msg3_time + 5:
dev3.close()
dev3 = setup_port(opts.port3, opts.log3, append=True)
last_msg3_time = time.time()
sys.stdout.write('R3')
sys.stdout.flush()