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restructure, add BDS30

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Junzi Sun 7 years ago
parent fcd98d6bcc
commit 12506e7c7f
16 changed files with 1377 additions and 1189 deletions
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2
pyModeS/__init__.py
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@ -2,8 +2,10 @@ from __future__ import absolute_import, print_function, division
from .decoder.util import *
from .decoder import adsb
from .decoder import els
from .decoder import ehs
from .decoder import util
from .decoder import modes
from .decoder import bds
from .extra import aero
from .extra import beastclient

101
pyModeS/decoder/bds/__init__.py
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from __future__ import absolute_import, print_function, division
import numpy as np
from pyModeS.extra import aero
from pyModeS.decoder.modes import allzeros
from pyModeS.decoder.bds.bds10 import isBDS10
from pyModeS.decoder.bds.bds17 import isBDS17
from pyModeS.decoder.bds.bds20 import isBDS20
from pyModeS.decoder.bds.bds30 import isBDS30
from pyModeS.decoder.bds.bds40 import isBDS40
from pyModeS.decoder.bds.bds50 import isBDS50, trk50, gs50
from pyModeS.decoder.bds.bds60 import isBDS60, hdg60, mach60, ias60
def is50or60(msg, spd_ref, trk_ref, alt_ref):
"""Use reference ground speed and trk to determine BDS50 and DBS60
Args:
msg (String): 28 bytes hexadecimal message string
spd_ref (float): reference speed (ADS-B ground speed), kts
trk_ref (float): reference track (ADS-B track angle), deg
alt_ref (float): reference altitude (ADS-B altitude), ft
Returns:
String or None: BDS version, or possible versions, or None if nothing matches.
"""
def vxy(v, angle):
vx = v * np.sin(np.deg2rad(angle))
vy = v * np.cos(np.deg2rad(angle))
return vx, vy
if not (isBDS50(msg) and isBDS60(msg)):
return None
h50 = trk50(msg)
v50 = gs50(msg)
h50 = np.nan if h50 is None else h50
v50 = np.nan if v50 is None else v50
h60 = hdg60(msg)
m60 = mach60(msg)
i60 = ias60(msg)
h60 = np.nan if h60 is None else h60
m60 = np.nan if m60 is None else m60
i60 = np.nan if i60 is None else i60
XY5 = vxy(v50*aero.kts, h50)
XY6m = vxy(aero.mach2tas(m60, alt_ref*aero.ft), h60)
XY6i = vxy(aero.cas2tas(i60*aero.kts, alt_ref*aero.ft), h60)
allbds = ['BDS50', 'BDS60', 'BDS60']
X = np.array([XY5, XY6m, XY6i])
Mu = np.array(vxy(spd_ref*aero.kts, trk_ref*aero.kts))
# compute Mahalanobis distance matrix
# Cov = [[20**2, 0], [0, 20**2]]
# mmatrix = np.sqrt(np.dot(np.dot(X-Mu, np.linalg.inv(Cov)), (X-Mu).T))
# dist = np.diag(mmatrix)
# since the covariance matrix is identity matrix,
# M-dist is same as eculidian distance
dist = np.linalg.norm(X-Mu, axis=1)
BDS = allbds[np.nanargmin(dist)]
return BDS
def infer(msg):
"""Estimate the most likely BDS code of an message
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
String or None: BDS version, or possible versions, or None if nothing matches.
"""
if allzeros(msg):
return None
is10 = isBDS10(msg)
is17 = isBDS17(msg)
is20 = isBDS20(msg)
is30 = isBDS30(msg)
is40 = isBDS40(msg)
is50 = isBDS50(msg)
is60 = isBDS60(msg)
allbds = np.array([
"BDS10", "BDS17", "BDS20", "BDS30", "BDS40", "BDS50", "BDS60"
])
isBDS = [is10, is17, is20, is30, is40, is50, is60]
bds = ','.join(sorted(allbds[isBDS]))
if len(bds) == 0:
return None
else:
return bds

67
pyModeS/decoder/bds/bds10.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros
# ------------------------------------------
# BDS 1,0
# Data link capability report
# ------------------------------------------
def isBDS10(msg):
"""Check if a message is likely to be BDS code 1,0
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
# first 8 bits must be 0x10
if d[0:8] != '00010000':
return False
# bit 10 to 14 are reserved
if bin2int(d[9:14]) != 0:
return False
# overlay capabilty conflict
if d[14] == '1' and bin2int(d[16:23]) < 5:
return False
if d[14] == '0' and bin2int(d[16:23]) > 4:
return False
return True
def ovc10(msg):
"""Return the overlay control capability
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
int: Whether the transponder is OVC capable
"""
d = hex2bin(data(msg))
return int(d[14])

70
pyModeS/decoder/bds/bds17.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros
# ------------------------------------------
# BDS 1,7
# Common usage GICB capability report
# ------------------------------------------
def isBDS17(msg):
"""Check if a message is likely to be BDS code 1,7
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
if bin2int(d[28:56]) != 0:
return False
caps = cap17(msg)
# basic BDS codes for ADS-B shall be supported
# assuming ADS-B out is installed (2017EU/2020US mandate)
if not set(['BDS05', 'BDS06', 'BDS09', 'BDS20']).issubset(caps):
return False
return True
def cap17(msg):
"""Extract capacities from BDS 1,7 message
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
list: list of suport BDS codes
"""
allbds = ['05', '06', '07', '08', '09', '0A', '20', '21', '40', '41',
'42', '43', '44', '45', '48', '50', '51', '52', '53', '54',
'55', '56', '5F', '60', 'NA', 'NA', 'E1', 'E2']
d = hex2bin(data(msg))
idx = [i for i, v in enumerate(d[:28]) if v=='1']
capacity = ['BDS'+allbds[i] for i in idx if allbds[i] is not 'NA']
return capacity

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pyModeS/decoder/bds/bds20.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros
# ------------------------------------------
# BDS 2,0
# Aircraft identification
# ------------------------------------------
def isBDS20(msg):
"""Check if a message is likely to be BDS code 2,0
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
# status bit 1, 14, and 27
if bin2int(d[0:4]) != 2 or bin2int(d[4:8]) != 0:
return False
cs = callsign(msg)
if '#' in cs:
return False
return True
def callsign(msg):
"""Aircraft callsign
Args:
msg (String): 28 bytes hexadecimal message (BDS40) string
Returns:
string: callsign, max. 8 chars
"""
chars = '#ABCDEFGHIJKLMNOPQRSTUVWXYZ#####_###############0123456789######'
d = hex2bin(data(msg))
cs = ''
cs += chars[bin2int(d[8:14])]
cs += chars[bin2int(d[14:20])]
cs += chars[bin2int(d[20:26])]
cs += chars[bin2int(d[26:32])]
cs += chars[bin2int(d[32:38])]
cs += chars[bin2int(d[38:44])]
cs += chars[bin2int(d[44:50])]
cs += chars[bin2int(d[50:56])]
return cs

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pyModeS/decoder/bds/bds30.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros
# ------------------------------------------
# BDS 3,0
# ACAS active resolution advisory
# ------------------------------------------
def isBDS30(msg):
"""Check if a message is likely to be BDS code 2,0
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
if d[0:8] != '00110000':
return False
# threat type 3 not assigned
if d[28:30] == '11':
return False
# reserved for ACAS III, in far future
if bin2int(d[15:22]) >= 48:
return False
return True

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pyModeS/decoder/bds/bds40.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros, wrongstatus
# ------------------------------------------
# BDS 4,0
# Selected vertical intention
# ------------------------------------------
def isBDS40(msg):
"""Check if a message is likely to be BDS code 4,0
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
# status bit 1, 14, and 27
if wrongstatus(d, 1, 2, 13):
return False
if wrongstatus(d, 14, 15, 26):
return False
if wrongstatus(d, 27, 28, 39):
return False
# bits 40-47 and 52-53 shall all be zero
if bin2int(d[39:47]) != 0:
return False
if bin2int(d[51:53]) != 0:
return False
return True
def alt40mcp(msg):
"""Selected altitude, MCP/FCU
Args:
msg (String): 28 bytes hexadecimal message (BDS40) string
Returns:
int: altitude in feet
"""
d = hex2bin(data(msg))
if d[0] == '0':
return None
alt = bin2int(d[1:13]) * 16 # ft
return alt
def alt40fms(msg):
"""Selected altitude, FMS
Args:
msg (String): 28 bytes hexadecimal message (BDS40) string
Returns:
int: altitude in feet
"""
d = hex2bin(data(msg))
if d[13] == '0':
return None
alt = bin2int(d[14:26]) * 16 # ft
return alt
def p40baro(msg):
"""Barometric pressure setting
Args:
msg (String): 28 bytes hexadecimal message (BDS40) string
Returns:
float: pressure in millibar
"""
d = hex2bin(data(msg))
if d[26] == '0':
return None
p = bin2int(d[27:39]) * 0.1 + 800 # millibar
return p

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pyModeS/decoder/bds/bds44.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros, wrongstatus
# ------------------------------------------
# BDS 4,4
# Meteorological routine air report
# ------------------------------------------
def isBDS44(msg, rev=False):
"""Check if a message is likely to be BDS code 4,4
Meteorological routine air report
Args:
msg (String): 28 bytes hexadecimal message string
rev (bool): using revised version
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
if not rev:
# status bit 5, 35, 47, 50
if wrongstatus(d, 5, 6, 23):
return False
if wrongstatus(d, 35, 36, 46):
return False
if wrongstatus(d, 47, 48, 49):
return False
if wrongstatus(d, 50, 51, 56):
return False
# Bits 1-4 indicate source, values > 4 reserved and should not occur
if bin2int(d[0:4]) > 4:
return False
else:
# status bit 5, 15, 24, 36, 49
if wrongstatus(d, 5, 6, 14):
return False
if wrongstatus(d, 15, 16, 23):
return False
if wrongstatus(d, 24, 25, 35):
return False
if wrongstatus(d, 36, 37, 47):
return False
if wrongstatus(d, 49, 50, 56):
return False
# Bits 1-4 are reserved and should be zero
if bin2int(d[0:4]) != 0:
return False
vw = wind44(msg, rev=rev)
if vw is not None and vw[0] > 250:
return False
if temp44(msg):
if temp44(msg) > 60 or temp44(msg) < -80:
return False
elif temp44(msg) == 0:
return False
return True
def wind44(msg, rev=False):
"""reported wind speed and direction
Args:
msg (String): 28 bytes hexadecimal message (BDS44) string
rev (bool): using revised version
Returns:
(int, float): speed (kt), direction (degree)
"""
d = hex2bin(data(msg))
if not rev:
status = int(d[4])
if not status:
return None
speed = bin2int(d[5:14]) # knots
direction = bin2int(d[14:23]) * 180.0 / 256.0 # degree
else:
spd_status = int(d[4])
dir_status = int(d[14])
if (not spd_status) or (not dir_status):
return None
speed = bin2int(d[5:14]) # knots
direction = bin2int(d[15:23]) * 180.0 / 128.0 # degree
return round(speed, 0), round(direction, 1)
def temp44(msg, rev=False):
"""reported air temperature
Args:
msg (String): 28 bytes hexadecimal message (BDS44) string
rev (bool): using revised version
Returns:
float: tmeperature in Celsius degree
"""
d = hex2bin(data(msg))
if not rev:
# if d[22] == '0':
# return None
sign = int(d[23])
value = bin2int(d[24:34])
if sign:
value = value - 1024
temp = value * 0.125 # celsius
temp = round(temp, 1)
else:
# if d[23] == '0':
# return None
sign = int(d[24])
value = bin2int(d[25:35])
if sign:
value = value - 1024
temp = value * 0.125 # celsius
temp = round(temp, 1)
return -1*temp if sign else temp
def p44(msg, rev=False):
"""reported average static pressure
Args:
msg (String): 28 bytes hexadecimal message (BDS44) string
rev (bool): using revised version
Returns:
int: static pressure in hPa
"""
d = hex2bin(data(msg))
if not rev:
if d[34] == '0':
return None
p = bin2int(d[35:46]) # hPa
else:
if d[35] == '0':
return None
p = bin2int(d[36:47]) # hPa
return p
def hum44(msg, rev=False):
"""reported humidity
Args:
msg (String): 28 bytes hexadecimal message (BDS44) string
rev (bool): using revised version
Returns:
float: percentage of humidity, [0 - 100] %
"""
d = hex2bin(data(msg))
if not rev:
if d[49] == '0':
return None
hm = bin2int(d[50:56]) * 100.0 / 64 # %
else:
if d[48] == '0':
return None
hm = bin2int(d[49:56]) # %
return round(hm, 1)

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pyModeS/decoder/bds/bds50.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros, wrongstatus
# ------------------------------------------
# BDS 5,0
# Track and turn report
# ------------------------------------------
def isBDS50(msg):
"""Check if a message is likely to be BDS code 5,0
(Track and turn report)
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
# status bit 1, 12, 24, 35, 46
if wrongstatus(d, 1, 3, 11):
return False
if wrongstatus(d, 12, 13, 23):
return False
if wrongstatus(d, 24, 25, 34):
return False
if wrongstatus(d, 35, 36, 45):
return False
if wrongstatus(d, 46, 47, 56):
return False
if d[2:11] != "000000000":
roll = abs(roll50(msg))
if roll and roll > 60:
return False
gs = gs50(msg)
if gs is not None and gs > 600:
return False
tas = tas50(msg)
if tas is not None and tas > 500:
return False
if (gs is not None) and (tas is not None) and (abs(tas - gs) > 200):
return False
return True
def roll50(msg):
"""Roll angle, BDS 5,0 message
Args:
msg (String): 28 bytes hexadecimal message (BDS50) string
Returns:
float: angle in degrees,
negative->left wing down, positive->right wing down
"""
d = hex2bin(data(msg))
if d[0] == '0':
return None
sign = int(d[1]) # 1 -> left wing down
value = bin2int(d[2:11])
if sign:
value = value - 512
angle = value * 45.0 / 256.0 # degree
return round(angle, 1)
def trk50(msg):
"""True track angle, BDS 5,0 message
Args:
msg (String): 28 bytes hexadecimal message (BDS50) string
Returns:
float: angle in degrees to true north (from 0 to 360)
"""
d = hex2bin(data(msg))
if d[11] == '0':
return None
sign = int(d[12]) # 1 -> west
value = bin2int(d[13:23])
if sign:
value = value - 1024
trk = value * 90.0 / 512.0
# convert from [-180, 180] to [0, 360]
if trk < 0:
trk = 360 + trk
return round(trk, 3)
def gs50(msg):
"""Ground speed, BDS 5,0 message
Args:
msg (String): 28 bytes hexadecimal message (BDS50) string
Returns:
int: ground speed in knots
"""
d = hex2bin(data(msg))
if d[23] == '0':
return None
spd = bin2int(d[24:34]) * 2 # kts
return spd
def rtrk50(msg):
"""Track angle rate, BDS 5,0 message
Args:
msg (String): 28 bytes hexadecimal message (BDS50) string
Returns:
float: angle rate in degrees/second
"""
d = hex2bin(data(msg))
if d[34] == '0':
return None
if d[36:45] == "111111111":
return None
sign = int(d[35]) # 1 -> negative value, two's complement
value = bin2int(d[36:45])
if sign:
value = value - 512
angle = value * 8.0 / 256.0 # degree / sec
return round(angle, 3)
def tas50(msg):
"""Aircraft true airspeed, BDS 5,0 message
Args:
msg (String): 28 bytes hexadecimal message (BDS50) string
Returns:
int: true airspeed in knots
"""
d = hex2bin(data(msg))
if d[45] == '0':
return None
tas = bin2int(d[46:56]) * 2 # kts
return tas

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pyModeS/decoder/bds/bds53.py
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# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros, wrongstatus
# ------------------------------------------
# BDS 5,3
# Air-referenced state vector
# ------------------------------------------
def isBDS53(msg):
"""Check if a message is likely to be BDS code 5,3
(Air-referenced state vector)
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
# status bit 1, 13, 24, 34, 47
if wrongstatus(d, 1, 3, 12):
return False
if wrongstatus(d, 13, 14, 23):
return False
if wrongstatus(d, 24, 25, 33):
return False
if wrongstatus(d, 34, 35, 46):
return False
if wrongstatus(d, 47, 49, 56):
return False
ias = ias53(msg)
if ias is not None and ias > 500:
return False
mach = mach53(msg)
if mach is not None and mach > 1:
return False
tas = tas53(msg)
if tas is not None and tas > 500:
return False
vr = vr53(msg)
if vr is not None and abs(vr) > 8000:
return False
return True
def hdg53(msg):
"""Magnetic heading, BDS 5,3 message
Args:
msg (String): 28 bytes hexadecimal message (BDS53) string
Returns:
float: angle in degrees to true north (from 0 to 360)
"""
d = hex2bin(data(msg))
if d[0] == '0':
return None
sign = int(d[1]) # 1 -> west
value = bin2int(d[2:12])
if sign:
value = value - 1024
hdg = value * 90.0 / 512.0 # degree
# convert from [-180, 180] to [0, 360]
if hdg < 0:
hdg = 360 + hdg
return round(hdg, 3)
def ias53(msg):
"""Indicated airspeed, DBS 5,3 message
Args:
msg (String): 28 bytes hexadecimal message
Returns:
int: indicated arispeed in knots
"""
d = hex2bin(data(msg))
if d[12] == '0':
return None
ias = bin2int(d[13:23]) # knots
return ias
def mach53(msg):
"""MACH number, DBS 5,3 message
Args:
msg (String): 28 bytes hexadecimal message
Returns:
float: MACH number
"""
d = hex2bin(data(msg))
if d[23] == '0':
return None
mach = bin2int(d[24:33]) * 0.008
return round(mach, 3)
def tas53(msg):
"""Aircraft true airspeed, BDS 5,3 message
Args:
msg (String): 28 bytes hexadecimal message
Returns:
float: true airspeed in knots
"""
d = hex2bin(data(msg))
if d[33] == '0':
return None
tas = bin2int(d[34:46]) * 0.5 # kts
return round(tas, 1)
def vr53(msg):
"""Vertical rate
Args:
msg (String): 28 bytes hexadecimal message (BDS60) string
Returns:
int: vertical rate in feet/minutes
"""
d = hex2bin(data(msg))
if d[46] == '0':
return None
sign = int(d[47]) # 1 -> negative value, two's complement
value = bin2int(d[48:56])
if value == 0 or value == 255: # all zeros or all ones
return 0
value = value - 256 if sign else value
roc = value * 64 # feet/min
return roc

190
pyModeS/decoder/bds/bds60.py
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@ -0,0 +1,190 @@
# Copyright (C) 2018 Junzi Sun (TU Delft)
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import absolute_import, print_function, division
from pyModeS.decoder.util import hex2bin, bin2int
from pyModeS.decoder.modes import data, allzeros, wrongstatus
# ------------------------------------------
# BDS 6,0
# Heading and speed report
# ------------------------------------------
def isBDS60(msg):
"""Check if a message is likely to be BDS code 6,0
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
if allzeros(msg):
return False
d = hex2bin(data(msg))
# status bit 1, 13, 24, 35, 46
if wrongstatus(d, 1, 2, 12):
return False
if wrongstatus(d, 13, 14, 23):
return False
if wrongstatus(d, 24, 25, 34):
return False
if wrongstatus(d, 35, 36, 45):
return False
if wrongstatus(d, 46, 47, 56):
return False
ias = ias60(msg)
if ias is not None and ias > 500:
return False
mach = mach60(msg)
if mach is not None and mach > 1:
return False
vr_baro = vr60baro(msg)
if vr_baro is not None and abs(vr_baro) > 6000:
return False
vr_ins = vr60ins(msg)
if vr_ins is not None and abs(vr_ins) > 6000:
return False
return True
def hdg60(msg):
"""Megnetic heading of aircraft
Args:
msg (String): 28 bytes hexadecimal message (BDS60) string
Returns:
float: heading in degrees to megnetic north (from 0 to 360)
"""
d = hex2bin(data(msg))
if d[0] == '0':
return None
sign = int(d[1]) # 1 -> west
value = bin2int(d[2:12])
if sign:
value = value - 1024
hdg = value * 90 / 512.0 # degree
# convert from [-180, 180] to [0, 360]
if hdg < 0:
hdg = 360 + hdg
return round(hdg, 3)
def ias60(msg):
"""Indicated airspeed
Args:
msg (String): 28 bytes hexadecimal message (BDS60) string
Returns:
int: indicated airspeed in knots
"""
d = hex2bin(data(msg))
if d[12] == '0':
return None
ias = bin2int(d[13:23]) # kts
return ias
def mach60(msg):
"""Aircraft MACH number
Args:
msg (String): 28 bytes hexadecimal message (BDS60) string
Returns:
float: MACH number
"""
d = hex2bin(data(msg))
if d[23] == '0':
return None
mach = bin2int(d[24:34]) * 2.048 / 512.0
return round(mach, 3)
def vr60baro(msg):
"""Vertical rate from barometric measurement, this value may be very noisy.
Args:
msg (String): 28 bytes hexadecimal message (BDS60) string
Returns:
int: vertical rate in feet/minutes
"""
d = hex2bin(data(msg))
if d[34] == '0':
return None
sign = int(d[35]) # 1 -> negative value, two's complement
value = bin2int(d[36:45])
if value == 0 or value == 511: # all zeros or all ones
return 0
value = value - 512 if sign else value
roc = value * 32 # feet/min
return roc
def vr60ins(msg):
"""Vertical rate messured by onbard equiments (IRS, AHRS)
Args:
msg (String): 28 bytes hexadecimal message (BDS60) string
Returns:
int: vertical rate in feet/minutes
"""
d = hex2bin(data(msg))
if d[45] == '0':
return None
sign = int(d[46]) # 1 -> negative value, two's complement
value = bin2int(d[47:56])
if value == 0 or value == 511: # all zeros or all ones
return 0
value = value - 512 if sign else value
roc = value * 32 # feet/min
return roc

1125
pyModeS/decoder/ehs.py
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6
pyModeS/decoder/els.py
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from __future__ import absolute_import, print_function, division
from pyModeS.decoder.bds.bds10 import *
from pyModeS.decoder.bds.bds17 import *
from pyModeS.decoder.bds.bds20 import *
from pyModeS.decoder.bds.bds30 import *

38
pyModeS/decoder/modes.py
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@ -140,3 +140,41 @@ def gray2int(graystr):
num ^= (num >> 2)
num ^= (num >> 1)
return num
def data(msg):
"""Return the data frame in the message, bytes 9 to 22"""
return msg[8:-6]
def allzeros(msg):
"""check if the data bits are all zeros
Args:
msg (String): 28 bytes hexadecimal message string
Returns:
bool: True or False
"""
d = util.hex2bin(data(msg))
if util.bin2int(d) > 0:
return False
else:
return True
def wrongstatus(data, sb, msb, lsb):
"""Check if the status bit and field bits are consistency. This Function
is used for checking BDS code versions.
"""
# status bit, most significant bit, least significant bit
status = int(data[sb-1])
value = util.bin2int(data[msb-1:lsb])
if not status:
if value != 0:
return True
return False

69
tests/test_ehs.py
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@ -1,69 +0,0 @@
from pyModeS import ehs
from pyModeS import modes
def test_ehs_icao():
assert ehs.icao("A0001839CA3800315800007448D9") == '400940'
assert ehs.icao("A000139381951536E024D4CCF6B5") == '3C4DD2'
assert ehs.icao("A000029CFFBAA11E2004727281F1") == '4243D0'
def test_modes_altcode():
assert ehs.modes.altcode("A02014B400000000000000F9D514") == 32300
def test_modes_idcode():
assert ehs.modes.idcode("A800292DFFBBA9383FFCEB903D01") == '1346'
def test_ehs_BDS():
assert ehs.BDS("A0001838201584F23468207CDFA5") == 'BDS20'
assert ehs.BDS("A0001839CA3800315800007448D9") == 'BDS40'
assert ehs.BDS("A000139381951536E024D4CCF6B5") == 'BDS50'
assert ehs.BDS("A00004128F39F91A7E27C46ADC21") == 'BDS60'
def test_ehs_isBDS50or60():
assert ehs.isBDS50or60("A0001838201584F23468207CDFA5", 0, 0, 0) == None
assert ehs.isBDS50or60("A0000000FFDA9517000464000000", 182, 237, 1250) == 'BDS50'
assert ehs.isBDS50or60("A0000000919A5927E23444000000", 413, 54, 18700) == 'BDS60'
def test_ehs_BDS20_callsign():
assert ehs.callsign("A000083E202CC371C31DE0AA1CCF") == 'KLM1017_'
assert ehs.callsign("A0001993202422F2E37CE038738E") == 'IBK2873_'
def test_ehs_BDS40_functions():
assert ehs.alt40mcp("A000029C85E42F313000007047D3") == 3008
assert ehs.alt40fms("A000029C85E42F313000007047D3") == 3008
assert ehs.p40baro("A000029C85E42F313000007047D3") == 1020.0
def test_ehs_BDS50_functions():
assert ehs.roll50("A000139381951536E024D4CCF6B5") == 2.1
assert ehs.trk50("A000139381951536E024D4CCF6B5") == 114.3
assert ehs.gs50("A000139381951536E024D4CCF6B5") == 438
assert ehs.rtrk50("A000139381951536E024D4CCF6B5") == 0.125
assert ehs.tas50("A000139381951536E024D4CCF6B5") == 424
# signed values
assert ehs.roll50("A0001691FFD263377FFCE02B2BF9") == -0.4
def test_ehs_BDS60_functions():
assert ehs.hdg60("A00004128F39F91A7E27C46ADC21") == 42.7
assert ehs.ias60("A00004128F39F91A7E27C46ADC21") == 252
assert ehs.mach60("A00004128F39F91A7E27C46ADC21") == 0.42
assert ehs.vr60baro("A00004128F39F91A7E27C46ADC21") == -1920
assert ehs.vr60ins("A00004128F39F91A7E27C46ADC21") == -1920
def test_graycode_to_altitude():
assert modes.gray2alt('00000000010') == -1000
assert modes.gray2alt('00000001010') == -500
assert modes.gray2alt('00000011011') == -100
assert modes.gray2alt('00000011010') == 0
assert modes.gray2alt('00000011110') == 100
assert modes.gray2alt('00000010011') == 600
assert modes.gray2alt('00000110010') == 1000
assert modes.gray2alt('00001001001') == 5800
assert modes.gray2alt('00011100100') == 10300
assert modes.gray2alt('01100011010') == 32000
assert modes.gray2alt('01110000100') == 46300
assert modes.gray2alt('01010101100') == 50200
assert modes.gray2alt('11011110100') == 73200
assert modes.gray2alt('10000000011') == 126600
assert modes.gray2alt('10000000001') == 126700

66
tests/test_modes.py
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from pyModeS import bds, modes
def test_ehs_icao():
assert modes.icao("A0001839CA3800315800007448D9") == '400940'
assert modes.icao("A000139381951536E024D4CCF6B5") == '3C4DD2'
assert modes.icao("A000029CFFBAA11E2004727281F1") == '4243D0'
def test_modes_altcode():
assert modes.altcode("A02014B400000000000000F9D514") == 32300
def test_modes_idcode():
assert modes.idcode("A800292DFFBBA9383FFCEB903D01") == '1346'
def test_bds_infer():
assert bds.infer("A0001838201584F23468207CDFA5") == 'BDS20'
assert bds.infer("A0001839CA3800315800007448D9") == 'BDS40'
assert bds.infer("A000139381951536E024D4CCF6B5") == 'BDS50'
assert bds.infer("A00004128F39F91A7E27C46ADC21") == 'BDS60'
def test_bds_is50or60():
assert bds.is50or60("A0001838201584F23468207CDFA5", 0, 0, 0) == None
assert bds.is50or60("A0000000FFDA9517000464000000", 182, 237, 1250) == 'BDS50'
assert bds.is50or60("A0000000919A5927E23444000000", 413, 54, 18700) == 'BDS60'
def test_els_BDS20_callsign():
assert bds.bds20.callsign("A000083E202CC371C31DE0AA1CCF") == 'KLM1017_'
assert bds.bds20.callsign("A0001993202422F2E37CE038738E") == 'IBK2873_'
def test_ehs_BDS40_functions():
assert bds.bds40.alt40mcp("A000029C85E42F313000007047D3") == 3008
assert bds.bds40.alt40fms("A000029C85E42F313000007047D3") == 3008
assert bds.bds40.p40baro("A000029C85E42F313000007047D3") == 1020.0
def test_ehs_BDS50_functions():
assert bds.bds50.roll50("A000139381951536E024D4CCF6B5") == 2.1
assert bds.bds50.roll50("A0001691FFD263377FFCE02B2BF9") == -0.4 # signed value
assert bds.bds50.trk50("A000139381951536E024D4CCF6B5") == 114.258
assert bds.bds50.gs50("A000139381951536E024D4CCF6B5") == 438
assert bds.bds50.rtrk50("A000139381951536E024D4CCF6B5") == 0.125
assert bds.bds50.tas50("A000139381951536E024D4CCF6B5") == 424
def test_ehs_BDS60_functions():
assert bds.bds60.hdg60("A00004128F39F91A7E27C46ADC21") == 42.715
assert bds.bds60.ias60("A00004128F39F91A7E27C46ADC21") == 252
assert bds.bds60.mach60("A00004128F39F91A7E27C46ADC21") == 0.42
assert bds.bds60.vr60baro("A00004128F39F91A7E27C46ADC21") == -1920
assert bds.bds60.vr60ins("A00004128F39F91A7E27C46ADC21") == -1920
def test_graycode_to_altitude():
assert modes.gray2alt('00000000010') == -1000
assert modes.gray2alt('00000001010') == -500
assert modes.gray2alt('00000011011') == -100
assert modes.gray2alt('00000011010') == 0
assert modes.gray2alt('00000011110') == 100
assert modes.gray2alt('00000010011') == 600
assert modes.gray2alt('00000110010') == 1000
assert modes.gray2alt('00001001001') == 5800
assert modes.gray2alt('00011100100') == 10300
assert modes.gray2alt('01100011010') == 32000
assert modes.gray2alt('01110000100') == 46300
assert modes.gray2alt('01010101100') == 50200
assert modes.gray2alt('11011110100') == 73200
assert modes.gray2alt('10000000011') == 126600
assert modes.gray2alt('10000000001') == 126700
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