예제 #1
0
async def log_kml(fn='/sd/log.kml', interval=10):
    yellow.on()  # Waiting for data
    uart = pyb.UART(4, 9600, read_buf_len=200)  # Data on X2
    sreader = asyncio.StreamReader(uart)
    gps = as_GPS.AS_GPS(sreader, fix_cb=toggle_led)
    await gps.data_received(True, True, True, True)
    yellow.off()
    with open(fn, 'w') as f:
        f.write(str_start)
        while not sw.value():
            f.write(gps.longitude_string(as_GPS.KML))
            f.write(',')
            f.write(gps.latitude_string(as_GPS.KML))
            f.write(',')
            f.write(str(gps.altitude))
            f.write('\r\n')
            blue.toggle()
            for _ in range(interval * 10):
                await asyncio.sleep_ms(100)
                if sw.value():
                    break

        f.write(str_end)
    red.off()
    green.on()
예제 #2
0
async def gps_test():
    print('Initialising')
    # Adapt for other MicroPython hardware
    uart = pyb.UART(4, 9600, read_buf_len=200)
    # read_buf_len is precautionary: code runs reliably without it.)
    sreader = asyncio.StreamReader(uart)
    timer = aswitch.Delay_ms(timeout)
    sentence_count = 0
    gps = as_GPS.AS_GPS(sreader, local_offset=1, fix_cb=callback, fix_cb_args=(timer,))
    loop = asyncio.get_event_loop()
    print('awaiting first fix')
    loop.create_task(sat_test(gps))
    loop.create_task(stats(gps))
    loop.create_task(navigation(gps))
    loop.create_task(course(gps))
    loop.create_task(date(gps))
예제 #3
0
async def run():
    sentence_count = 0

    test_RMC = ['$GPRMC,081836,A,3751.65,S,14507.36,E,000.0,360.0,130998,011.3,E*62\n',
                '$GPRMC,123519,A,4807.038,N,01131.000,E,022.4,084.4,230394,003.1,W*6A\n',
                '$GPRMC,225446,A,4916.45,N,12311.12,W,000.5,054.7,191194,020.3,E*68\n',
                '$GPRMC,180041.896,A,3749.1851,N,08338.7891,W,001.9,154.9,240911,,,A*7A\n',
                '$GPRMC,180049.896,A,3749.1808,N,08338.7869,W,001.8,156.3,240911,,,A*70\n',
                '$GPRMC,092751.000,A,5321.6802,N,00630.3371,W,0.06,31.66,280511,,,A*45\n']

    test_VTG = ['$GPVTG,232.9,T,,M,002.3,N,004.3,K,A*01\n']
    test_GGA = ['$GPGGA,180050.896,3749.1802,N,08338.7865,W,1,07,1.1,397.4,M,-32.5,M,,0000*6C\n']
    test_GSA = ['$GPGSA,A,3,07,11,28,24,26,08,17,,,,,,2.0,1.1,1.7*37\n',
                '$GPGSA,A,3,07,02,26,27,09,04,15,,,,,,1.8,1.0,1.5*33\n']
    test_GSV = ['$GPGSV,3,1,12,28,72,355,39,01,52,063,33,17,51,272,44,08,46,184,38*74\n',
                '$GPGSV,3,2,12,24,42,058,33,11,34,053,33,07,20,171,40,20,15,116,*71\n',
                '$GPGSV,3,3,12,04,12,204,34,27,11,324,35,32,11,089,,26,10,264,40*7B\n',
                '$GPGSV,3,1,11,03,03,111,00,04,15,270,00,06,01,010,00,13,06,292,00*74\n',
                '$GPGSV,3,2,11,14,25,170,00,16,57,208,39,18,67,296,40,19,40,246,00*74\n',
                '$GPGSV,3,3,11,22,42,067,42,24,14,311,43,27,05,244,00,,,,*4D\n',
                '$GPGSV,4,1,14,22,81,349,25,14,64,296,22,18,54,114,21,51,40,212,*7D\n',
                '$GPGSV,4,2,14,24,30,047,22,04,22,312,26,31,22,204,,12,19,088,23*72\n',
                '$GPGSV,4,3,14,25,17,127,18,21,16,175,,11,09,315,16,19,05,273,*72\n',
                '$GPGSV,4,4,14,32,05,303,,15,02,073,*7A\n']
    test_GLL = ['$GPGLL,3711.0942,N,08671.4472,W,000812.000,A,A*46\n',
                '$GPGLL,4916.45,N,12311.12,W,225444,A,*1D\n',
                '$GPGLL,4250.5589,S,14718.5084,E,092204.999,A*2D\n',
                '$GPGLL,0000.0000,N,00000.0000,E,235947.000,V*2D\n']

    my_gps = as_GPS.AS_GPS(None)
    sentence = ''
    for sentence in test_RMC:
        my_gps._valid = 0
        sentence_count += 1
        sentence = await my_gps._update(sentence)
        if sentence is None:
            print('RMC sentence is invalid.')
        else:
            print('Parsed a', sentence, 'Sentence')
            print('Longitude:', my_gps.longitude())
            print('Latitude', my_gps.latitude())
            print('UTC Timestamp:', my_gps.utc)
            print('Speed:', my_gps.speed())
            print('Date Stamp:', my_gps.date)
            print('Course', my_gps.course)
            print('Data is Valid:', bool(my_gps._valid & 1))
            print('Compass Direction:', my_gps.compass_direction())
        print('')

    for sentence in test_GLL:
        my_gps._valid = 0
        sentence_count += 1
        sentence = await my_gps._update(sentence)
        if sentence is None:
            print('GLL sentence is invalid.')
        else:
            print('Parsed a', sentence, 'Sentence')
            print('Longitude:', my_gps.longitude())
            print('Latitude', my_gps.latitude())
            print('UTC Timestamp:', my_gps.utc)
            print('Data is Valid:', bool(my_gps._valid & 2))
        print('')

    for sentence in test_VTG:
        my_gps._valid = 0
        sentence_count += 1
        sentence = await my_gps._update(sentence)
        if sentence is None:
            print('VTG sentence is invalid.')
        else:
            print('Parsed a', sentence, 'Sentence')
            print('Speed:', my_gps.speed())
            print('Course', my_gps.course)
            print('Compass Direction:', my_gps.compass_direction())
            print('Data is Valid:', bool(my_gps._valid & 4))
        print('')

    for sentence in test_GGA:
        my_gps._valid = 0
        sentence_count += 1
        sentence = await my_gps._update(sentence)
        if sentence is None:
            print('GGA sentence is invalid.')
        else:
            print('Parsed a', sentence, 'Sentence')
            print('Longitude', my_gps.longitude())
            print('Latitude', my_gps.latitude())
            print('UTC Timestamp:', my_gps.utc)
            print('Altitude:', my_gps.altitude)
            print('Height Above Geoid:', my_gps.geoid_height)
            print('Horizontal Dilution of Precision:', my_gps.hdop)
            print('Satellites in Use by Receiver:', my_gps.satellites_in_use)
            print('Data is Valid:', bool(my_gps._valid & 8))
        print('')

    for sentence in test_GSA:
        my_gps._valid = 0
        sentence_count += 1
        sentence = await my_gps._update(sentence)
        if sentence is None:
            print('GSA sentence is invalid.')
        else:
            print('Parsed a', sentence, 'Sentence')
            print('Satellites Used', my_gps.satellites_used)
            print('Horizontal Dilution of Precision:', my_gps.hdop)
            print('Vertical Dilution of Precision:', my_gps.vdop)
            print('Position Dilution of Precision:', my_gps.pdop)
            print('Data is Valid:', bool(my_gps._valid & 16))
        print('')

    for sentence in test_GSV:
        my_gps._valid = 0
        sentence_count += 1
        sentence = await my_gps._update(sentence)
        if sentence is None:
            print('GSV sentence is invalid.')
        else:
            print('Parsed a', sentence, 'Sentence')
            print('SV Sentences Parsed', my_gps._last_sv_sentence)
            print('SV Sentences in Total', my_gps._total_sv_sentences)
            print('# of Satellites in View:', my_gps.satellites_in_view)
            print('Data is Valid:', bool(my_gps._valid & 32))
            data_valid = my_gps._total_sv_sentences > 0 and my_gps._total_sv_sentences == my_gps._last_sv_sentence
            print('Is Satellite Data Valid?:', data_valid)
            if data_valid:
                print('Satellite Data:', my_gps._satellite_data)
                print('Satellites Visible:', list(my_gps._satellite_data.keys()))
        print('')

    print("Pretty Print Examples:")
    print('Latitude (degs):', my_gps.latitude_string(as_GPS.DD))
    print('Longitude (degs):', my_gps.longitude_string(as_GPS.DD))
    print('Latitude (dms):', my_gps.latitude_string(as_GPS.DMS))
    print('Longitude (dms):', my_gps.longitude_string(as_GPS.DMS))
    print('Latitude (kml):', my_gps.latitude_string(as_GPS.KML))
    print('Longitude (kml):', my_gps.longitude_string(as_GPS.KML))
    print('Latitude (degs, mins):', my_gps.latitude_string())
    print('Longitude (degs, mins):', my_gps.longitude_string())
    print('Speed:', my_gps.speed_string(as_GPS.KPH), 'or',
          my_gps.speed_string(as_GPS.MPH), 'or',
          my_gps.speed_string(as_GPS.KNOT))
    print('Date (Long Format):', my_gps.date_string(as_GPS.LONG))
    print('Date (Short D/M/Y Format):', my_gps.date_string(as_GPS.DMY))
    print('Date (Short M/D/Y Format):', my_gps.date_string(as_GPS.MDY))
    print('Time:', my_gps.time_string())
    print()

    print('### Final Results ###')
    print('Sentences Attempted:', sentence_count)
    print('Sentences Found:', my_gps.clean_sentences)
    print('Sentences Parsed:', my_gps.parsed_sentences)
    print('Unsupported sentences:', my_gps.unsupported_sentences)
    print('CRC_Fails:', my_gps.crc_fails)
예제 #4
0
async def run_tests():
    uart = UART(4, 9600, read_buf_len=200)
    swriter = asyncio.StreamWriter(uart, {})
    sreader = asyncio.StreamReader(uart)
    sentence_count = 0

    test_RMC = [
        '$GPRMC,180041.896,A,3749.1851,N,08338.7891,W,001.9,154.9,240911,,,A*7A\n',
        '$GPRMC,180049.896,A,3749.1808,N,08338.7869,W,001.8,156.3,240911,,,A*70\n',
        '$GPRMC,092751.000,A,5321.6802,N,00630.3371,W,0.06,31.66,280511,,,A*45\n'
    ]

    test_VTG = ['$GPVTG,232.9,T,,M,002.3,N,004.3,K,A*01\n']
    test_GGA = [
        '$GPGGA,180050.896,3749.1802,N,08338.7865,W,1,07,1.1,397.4,M,-32.5,M,,0000*6C\n'
    ]
    test_GSA = [
        '$GPGSA,A,3,07,11,28,24,26,08,17,,,,,,2.0,1.1,1.7*37\n',
        '$GPGSA,A,3,07,02,26,27,09,04,15,,,,,,1.8,1.0,1.5*33\n'
    ]
    test_GSV = [
        '$GPGSV,3,1,12,28,72,355,39,01,52,063,33,17,51,272,44,08,46,184,38*74\n',
        '$GPGSV,3,2,12,24,42,058,33,11,34,053,33,07,20,171,40,20,15,116,*71\n',
        '$GPGSV,3,3,12,04,12,204,34,27,11,324,35,32,11,089,,26,10,264,40*7B\n',
        '$GPGSV,3,1,11,03,03,111,00,04,15,270,00,06,01,010,00,13,06,292,00*74\n',
        '$GPGSV,3,2,11,14,25,170,00,16,57,208,39,18,67,296,40,19,40,246,00*74\n',
        '$GPGSV,3,3,11,22,42,067,42,24,14,311,43,27,05,244,00,,,,*4D\n',
        '$GPGSV,4,1,14,22,81,349,25,14,64,296,22,18,54,114,21,51,40,212,*7D\n',
        '$GPGSV,4,2,14,24,30,047,22,04,22,312,26,31,22,204,,12,19,088,23*72\n',
        '$GPGSV,4,3,14,25,17,127,18,21,16,175,,11,09,315,16,19,05,273,*72\n',
        '$GPGSV,4,4,14,32,05,303,,15,02,073,*7A\n'
    ]
    test_GLL = [
        '$GPGLL,3711.0942,N,08671.4472,W,000812.000,A,A*46\n',
        '$GPGLL,4916.45,N,12311.12,W,225444,A,*1D\n',
        '$GPGLL,4250.5589,S,14718.5084,E,092204.999,A*2D\n',
        '$GPGLL,4250.5589,S,14718.5084,E,092204.999,A*2D\n',
    ]

    #                '$GPGLL,0000.0000,N,00000.0000,E,235947.000,V*2D\n',  # Will ignore this one

    my_gps = as_GPS.AS_GPS(sreader, fix_cb=callback, fix_cb_args=(42, ))
    sentence = ''
    for sentence in test_RMC:
        sentence_count += 1
        await swriter.awrite(sentence)
        await my_gps.data_received(date=True)
        print('Longitude:', my_gps.longitude())
        print('Latitude', my_gps.latitude())
        print('UTC Time:', my_gps.utc)
        print('Speed:', my_gps.speed())
        print('Date Stamp:', my_gps.date)
        print('Course', my_gps.course)
        print('Data is Valid:', my_gps._valid)
        print('Compass Direction:', my_gps.compass_direction())
        print('')

    for sentence in test_GLL:
        sentence_count += 1
        await swriter.awrite(sentence)
        await my_gps.data_received(position=True)
        print('Longitude:', my_gps.longitude())
        print('Latitude', my_gps.latitude())
        print('UTC Time:', my_gps.utc)
        print('Data is Valid:', my_gps._valid)
        print('')

    for sentence in test_VTG:
        print('Test VTG', sentence)
        sentence_count += 1
        await swriter.awrite(sentence)
        await asyncio.sleep_ms(
            200)  # Can't wait for course because of position check
        print('Speed:', my_gps.speed())
        print('Course', my_gps.course)
        print('Compass Direction:', my_gps.compass_direction())
        print('')

    for sentence in test_GGA:
        sentence_count += 1
        await swriter.awrite(sentence)
        await my_gps.data_received(position=True)
        print('Longitude', my_gps.longitude())
        print('Latitude', my_gps.latitude())
        print('UTC Time:', my_gps.utc)
        #        print('Fix Status:', my_gps.fix_stat)
        print('Altitude:', my_gps.altitude)
        print('Height Above Geoid:', my_gps.geoid_height)
        print('Horizontal Dilution of Precision:', my_gps.hdop)
        print('Satellites in Use by Receiver:', my_gps.satellites_in_use)
        print('')

    for sentence in test_GSA:
        sentence_count += 1
        await swriter.awrite(sentence)
        await asyncio.sleep_ms(200)
        print('Satellites Used', my_gps.satellites_used)
        print('Horizontal Dilution of Precision:', my_gps.hdop)
        print('Vertical Dilution of Precision:', my_gps.vdop)
        print('Position Dilution of Precision:', my_gps.pdop)
        print('')

    for sentence in test_GSV:
        sentence_count += 1
        await swriter.awrite(sentence)
        await asyncio.sleep_ms(200)
        print('SV Sentences Parsed', my_gps._last_sv_sentence)
        print('SV Sentences in Total', my_gps._total_sv_sentences)
        print('# of Satellites in View:', my_gps.satellites_in_view)
        data_valid = my_gps._total_sv_sentences > 0 and my_gps._total_sv_sentences == my_gps._last_sv_sentence
        print('Is Satellite Data Valid?:', data_valid)
        if data_valid:
            print('Satellite Data:', my_gps._satellite_data)
            print('Satellites Visible:', list(my_gps._satellite_data.keys()))
        print('')

    print("Pretty Print Examples:")
    print('Latitude (degs):', my_gps.latitude_string(as_GPS.DD))
    print('Longitude (degs):', my_gps.longitude_string(as_GPS.DD))
    print('Latitude (dms):', my_gps.latitude_string(as_GPS.DMS))
    print('Longitude (dms):', my_gps.longitude_string(as_GPS.DMS))
    print('Latitude (kml):', my_gps.latitude_string(as_GPS.KML))
    print('Longitude (kml):', my_gps.longitude_string(as_GPS.KML))
    print('Latitude (degs, mins):', my_gps.latitude_string())
    print('Longitude (degs, mins):', my_gps.longitude_string())
    print('Speed:', my_gps.speed_string(as_GPS.KPH), 'or',
          my_gps.speed_string(as_GPS.MPH), 'or',
          my_gps.speed_string(as_GPS.KNOT))
    print('Date (Long Format):', my_gps.date_string(as_GPS.LONG))
    print('Date (Short D/M/Y Format):', my_gps.date_string(as_GPS.DMY))
    print('Date (Short M/D/Y Format):', my_gps.date_string(as_GPS.MDY))
    print('Time:', my_gps.time_string())
    print()

    print('### Final Results ###')
    print('Sentences Attempted:', sentence_count)
    print('Sentences Found:', my_gps.clean_sentences)
    print('Sentences Parsed:', my_gps.parsed_sentences)
    print('Unsupported sentences:', my_gps.unsupported_sentences)
    print('CRC_Fails:', my_gps.crc_fails)
예제 #5
0
파일: main.py 프로젝트: o-gent/aero_one
    print("connection lost - moved to fallback loop")


# set colour
pycom.heartbeat(False)
pycom.rgbled(0xf200ea)

try:
    gps_uart = UART(2, baudrate=9600, pins=('P9', 'P11'))
except:
    print("no gps")

if GPS:
    #set up GPS
    sreader = asyncio.StreamReader(gps_uart)  # Create a StreamReader
    gps = as_GPS.AS_GPS(sreader)  # Instantiate GPS

if f[3]:
    # set up serial connection to arduino using custom pins
    conn = UART(1, baudrate=57600, pins=('P4', 'P10'))
    # initialise variables for clarity
    rc_write = [0, 0, 0, 0, 0, 0]  #6 channels
    rc_read = [0, 0, 0, 0, 0, 0]  # ""

if f[0]:
    # set up link to ground station
    with datalink_setup() as link:
        link.file = normal_file

        pycom.heartbeat(False)
        pycom.rgbled(0x007f00)  # green
예제 #6
0
from machine import UART


def callback(gps, *_):  # Runs for each valid fix
    print("GPS latitude: {}, GPS longitude: {}, altitude: {:f}".format(
        gps.latitude_string(), gps.longitude_string(), gps.altitude))
    print("Date and time: ", gps.date_string(formatting=as_GPS.LONG), " ",
          gps.time_string(), " CET")
    print("Speed: ", gps.speed_string())
    print("no of satellites in view: {:d}".format(gps.satellites_in_view))


uart = UART(2, baudrate=115200, rx=21, tx=22, timeout=10000)
sreader = asyncio.StreamReader(uart)  # Create a StreamReader
gps = as_GPS.AS_GPS(sreader,
                    fix_cb=callback,
                    cb_mask=as_GPS.GLL | as_GPS.VTG | as_GPS.RMC,
                    local_offset=2)  # Instantiate GPS


async def test():
    print('waiting for GPS data')
    await gps.data_received(position=True, date=True, altitude=True)
    await asyncio.sleep(60)  # Run for one minute

    print("Error statistics:")
    print("crc errors: {:d}".format(gps.crc_fails))
    print("no of clean sentences: {:d}".format(gps.clean_sentences))
    print("no of parsed sentences: {:d}".format(gps.parsed_sentences))
    print("no of unsupported sentences: {:d}".format(
        gps.unsupported_sentences))
예제 #7
0
import uasyncio as asyncio
import as_GPS
from machine import UART


def callback(gps, *_):  # Runs for each valid fix
    print(gps.latitude(), gps.longitude(), gps.altitude)


uart = UART(2, baudrate=9600, rx=16, tx=17, timeout=10)
sreader = asyncio.StreamReader(uart)  # Create a StreamReader
gps = as_GPS.AS_GPS(sreader, fix_cb=callback)  # Instantiate GPS


async def test():
    print('waiting for GPS data')
    await gps.data_received(position=True, altitude=True)
    await asyncio.sleep(60)  # Run for one minute


loop = asyncio.get_event_loop()
loop.run_until_complete(test())