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bus-tracking

Fork from Luke Strange's repo for tracking UK buses from Bus Open Data Service data. See Open Innovations for original source.

Checklist

  • Collect a week's worth of GTFS-RT data for the whole of the UK.
  • Download the GTFS timetable for those days / that week.
  • Re-write the BODS2GTFS code in Python (was in C#.NET before).
  • Update the code to work with GTFS-RT rather the Siri-VM.
  • Publish the code and data on GitHub.
  • Complete QA on the new code.
  • Get MerseyRail GTFS-RT data for the trains?!
  • Analyse/Create charts for travel time isochrones of Liverpool buses/trains using OpenTripPlanner2
  • Create graphs of real journey times for individual bus/train routes throughout the week.

Environment

The python environment is managed using pipenv. You'll need a working version of pip installed and on the path. You should have this if you have python installed. Install pipenv using pip install pipenv.

Next, navigate to this repository in the terminal. Run pipenv sync to install all packages (specified in Pipfile.lock). You can then use pipenv shell to activate the virutal env and install packages with pipenv install <package_name>.

If you're using VScode, you can load the jupyter notebook and choose the kernel associated with the virtual environment you created. This should allow you to run the notebooks with the required packages.

Pipelines

demo.ipynb - Main script for matching realtime buses to the timetable. intersection.ipynb - Programme to calculate geojson intersections for equal time isochrones over multiple days' data. utils.py - General utility functions. gtfs-realtime-utils.py - GTFS specific utility functions.

Population calculator

A notebook to calculate populations inside isochrones for England. Functions in utils.py. Main script is calculator.ipynb

Report Site

A Lume static site for tracking progress and visualisisng results for the project with LCRCA. This site is private and updates are no longer tracked on GitHub.

Web

Realtime bus data for a tracking website (to be shared openly Dec 2024.) process.ipynb is the main script for producing the data. Data is organised by region (using NUTS codes).

Each data file is named by a unique ID, which is either scraped from bustimes.org, or failing that, the route_short_name-agency_noc.json e.g. X84-FLDS.json.

Data Schema

meta: metadata about the bus service

  • id: a unique id of the bus route.
  • name: human readable equivalent of ID.
  • agency_name: Name of the company operating the bus
  • agency_noc: national operator code
  • bustimesorg: boolean. Whether or not the meta info was matched with bustimes.org.

line: longitude/latitude coordinates specifying the route the bus takes

Keys are shape_id from the GTFS timetable.

Values an array of arrays containing long/lat pairs. E.g. [[lon_1, lat_1],...,[lon_n, lat_n]]

There can be more than one shape for each route.

stops: the stops on the route and information about them

Dictionary of stops on the route.

Keys are the stop_id of each stop on the route.

Values are:

  • name: human name of the stop
  • lon: longitude
  • lat: latitude
  • bearing: Direction of travel on an 8 point compass.

trips: the stop_id and arrival times of buses for stops on the route, according to the timetable, and the realtime data

trips is an array. Each item of the array is itself an array of stop times. Each stop time is an array of the form [stop_id, realtime, timetable]. stop_id is a unique identifier of the stop, realtime is a unixtimestamp of when the bus arrived at the stop and timetable is a timestamp of when the bus was timetabled to arrive at the stop.

R

DEPRACATED: Exploring use of R5R to create travel time isochrones.

GTFS/GTFS-RT Docs

Documentation on GTFS and GTFS-RT format can read https://gtfs.org/documentation/overview/. It takes a bit of time to get familiar with the GTFS format but the documentation is helpful and worth referring to.

You can verify GTFS timetables here https://gtfs-validator.mobilitydata.org/.

one_off_scripts

extract.py - Extract the gtfsrt.bin file from the gtfsrt.zip that comes from BODS for all the live location data we downloaded.

rename.py - rename a file endings to .zip