216 lines
6.2 KiB
ReStructuredText
216 lines
6.2 KiB
ReStructuredText
The Python Mode-S Decoder (2.0-dev)
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==========================================
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Python library for Mode-S message decoding. Support Downlink Formats (DF) are:
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**Automatic Dependent Surveillance - Broadcast (ADS-B) (DF17)**
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- TC=1-4 / BDS 0,8: Aircraft identification and category
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- TC=5-8 / BDS 0,6: Surface position
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- TC=9-18 / BDS 0,5: Airborne position
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- TC=19 / BDS 0,9: Airborne velocity
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- TC=28 / BDS 6,1: Airborne status [to be implemented]
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- TC=29 / BDS 6,2: Target state and status information [to be implemented]
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- TC=31 / BDS 6,5: Aircraft operational status [to be implemented]
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**Mode-S Comm-B replies (DF 20 / 21)**
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- BDS 1,0: Data link capability report
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- BDS 1,7: Common usage GICB capability report
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- BDS 2,0: Aircraft identification
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- BDS 2,1: Aircraft and airline registration markings
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- BDS 3,0: ACAS active resolution advisory
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- BDS 4,0: Selected vertical intention
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- BDS 4,4: Meteorological routine air report
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- BDS 5,0: Track and turn report
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- BDS 5,3: Air-referenced state vector
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- BDS 6,0: Heading and speed report
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**DF4 / DF20: Altitude code**
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**DF4 / DF21: Identity code (squawk)**
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Detailed manual on Mode-S decoding is published by the author, at:
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https://mode-s.org/decode
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New features in v2.0
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---------------------
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- New structure of the libraries
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- ADS-B and Comm-B data streaming
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- Active aircraft viewing (terminal cursor)
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- Improved BDS identification
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- Optimizing decoding speed
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Source code
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-----------
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Checkout and contribute to this open source project at:
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https://github.com/junzis/pyModeS
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API documentation at:
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http://pymodes.readthedocs.io
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[To be updated]
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Install
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-------
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To install latest development version (dev-2.0) from the GitHub:
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::
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pip install git+https://github.com/junzis/pyModeS
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Use the library
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---------------
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.. code:: python
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import pyModeS as pms
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Common functions:
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*****************
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.. code:: python
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pms.df(msg) # Downlink Format
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pms.icao(msg) # Infer the ICAO address from the message
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pms.crc(msg, encode=False) # Perform CRC or generate parity bit
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pms.hex2bin(str) # Convert hexadecimal string to binary string
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pms.bin2int(str) # Convert binary string to integer
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pms.hex2int(str) # Convert hexadecimal string to integer
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pms.gray2int(str) # Convert grey code to interger
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Core functions for ADS-B decoding:
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**********************************
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.. code:: python
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pms.adsb.icao(msg)
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pms.adsb.typecode(msg)
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# typecode 1-4
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pms.adsb.callsign(msg)
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# typecode 5-8 (surface), 9-18 (airborne, barometric height), and 9-18 (airborne, GNSS height)
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pms.adsb.position(msg_even, msg_odd, t_even, t_odd, lat_ref=None, lon_ref=None)
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pms.adsb.airborne_position(msg_even, msg_odd, t_even, t_odd)
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pms.adsb.surface_position(msg_even, msg_odd, t_even, t_odd, lat_ref, lon_ref)
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pms.adsb.position_with_ref(msg, lat_ref, lon_ref)
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pms.adsb.airborne_position_with_ref(msg, lat_ref, lon_ref)
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pms.adsb.surface_position_with_ref(msg, lat_ref, lon_ref)
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pms.adsb.altitude(msg)
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# typecode: 19
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pms.adsb.velocity(msg) # handles both surface & airborne messages
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pms.adsb.speed_heading(msg) # handles both surface & airborne messages
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pms.adsb.surface_velocity(msg)
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pms.adsb.airborne_velocity(msg)
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Note: When you have a fix position of the aircraft, it is convenient to
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use `position_with_ref()` method to decode with only one position message
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(either odd or even). This works with both airborne and surface position
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messages. But the reference position shall be with in 180NM (airborne)
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or 45NM (surface) of the true position.
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Decode altitude replies in DF4 / DF20
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**************************************
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.. code:: python
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pms.common.altcode(msg) # Downlink format must be 4 or 20
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Decode identity replies in DF5 / DF21
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**************************************
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.. code:: python
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pms.common.idcode(msg) # Downlink format must be 5 or 21
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Common Mode-S functions
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************************
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.. code:: python
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pms.icao(msg) # Infer the ICAO address from the message
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pms.bds.infer(msg) # Infer the Modes-S BDS code
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pms.bds.is10(msg) # check if BDS is 1,0 explicitly
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pms.bds.is17(msg) # check if BDS is 1,7 explicitly
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pms.bds.is20(msg) # check if BDS is 2,0 explicitly
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pms.bds.is30(msg) # check if BDS is 3,0 explicitly
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pms.bds.is40(msg) # check if BDS is 4,0 explicitly
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pms.bds.is44(msg) # check if BDS is 4,4 explicitly
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pms.bds.is50(msg) # check if BDS is 5,0 explicitly
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pms.bds.is60(msg) # check if BDS is 6,0 explicitly
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# check if BDS is 5,0 or 6,0, give reference spd, trk, alt (from ADS-B)
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pms.bds.is50or60(msg, spd_ref, trk_ref, alt_ref)
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Mode-S elementary surveillance (ELS)
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*************************************
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.. code:: python
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pms.commb.ovc10(msg) # overlay capability, BDS 1,0
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pms.commb.cap17(msg) # GICB capability, BDS 1,7
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pms.commb.cs20(msg) # callsign, BDS 2,0
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Mode-S enhanced surveillance (EHS)
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***********************************
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.. code:: python
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# for BDS code 4,0
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pms.commb.alt40mcp(msg) # MCP/FCU selected altitude (ft)
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pms.commb.alt40fms(msg) # FMS selected altitude (ft)
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pms.commb.p40baro(msg) # Barometric pressure (mb)
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# for BDS code 5,0
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pms.commb.roll50(msg) # roll angle (deg)
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pms.commb.trk50(msg) # track angle (deg)
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pms.commb.gs50(msg) # ground speed (kt)
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pms.commb.rtrk50(msg) # track angle rate (deg/sec)
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pms.commb.tas50(msg) # true airspeed (kt)
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# for BDS code 6,0
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pms.commb.hdg60(msg) # heading (deg)
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pms.commb.ias60(msg) # indicated airspeed (kt)
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pms.commb.mach60(msg) # MACH number
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pms.commb.vr60baro(msg) # barometric altitude rate (ft/min)
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pms.commb.vr60ins(msg) # inertial vertical speed (ft/min)
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Meteorological routine air report (MRAR) [Experimental]
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*******************************************************
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.. code:: python
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# for BDS code 4,4
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pms.commb.wind44(msg, rev=False) # wind speed (kt) and heading (deg)
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pms.commb.temp44(msg, rev=False) # temperature (C)
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pms.commb.p44(msg, rev=False) # pressure (hPa)
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pms.commb.hum44(msg, rev=False) # humidity (%)
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Developement
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------------
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To perform unit tests. First install ``tox`` through pip, Then, run the following commands:
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.. code:: bash
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$ tox
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