.. image:: doc/_static/image/banner.png :width: 100% .. _start-info: ###################################################################### |co2mpas|: Vehicle simulator predicting NEDC |CO2| emissions from WLTP ###################################################################### :release: 4.3.2 :rel_date: 2022-02-07 10:25:00 :home: http://co2mpas.readthedocs.io/ :repository: https://github.com/JRCSTU/CO2MPAS-TA :pypi-repo: https://pypi.org/project/co2mpas/ :keywords: |CO2|, fuel-consumption, WLTP, NEDC, vehicle, automotive, EU, JRC, IET, STU, correlation, back-translation, policy, monitoring, M1, N1, simulator, engineering, scientific :mail box: |CO2MPAS| Team: <JRC-CO2MPAS@ec.europa.eu> :team: .. include:: AUTHORS.rst ©️ 2015-2022 European Commission (`JRC <https://ec.europa.eu/jrc/>`_) :license: `EUPL 1.1+ <https://joinup.ec.europa.eu/software/page/eupl>`_ .. _end-info: .. _start-intro: What is |co2mpas|? ================== |co2mpas| is backward-looking longitudinal-dynamics |CO2| and fuel-consumption simulator for light-duty M1 & N1 vehicles (cars and vans), specially crafted to *estimate the CO2 emissions of vehicles undergoing NEDC* testing based on the emissions produced *WLTP testing* during :term:`type-approval`, according to the :term:`EU legislation`\s *1152/EUR/2017 and 1153/EUR/2017* (see `History`_ section, below). It is an open-source project (`EUPL 1.1+ <https://joinup.ec.europa.eu/software/page/eupl>`_) developed for Python-3.6+. It runs either as a *console command* or as a *desktop GUI application*, and it uses Excel-files or pure python structures (dictionary and lists) for its input & output data. History ------- The *European Commission* has introduced the *WLTP* as the test procedure for the type I test of the European type-approval of Light-duty vehicles as of September 2017. Its introduction has required the adaptation of |CO2| certification and monitoring procedures set by European regulations (443/2009, 510/2011, 1152/EUR/2017 and 1153/EUR/2017). European Commission’s *Joint Research Centre* (JRC) has been assigned the development of this vehicle simulator to facilitate this adaptation. The European Regulation setting the conditions for using |co2mpas| can be found in `the Comitology Register <http://ec.europa.eu/transparency/regcomitology/index.cfm?do=search.documentdetail&dos_id=0&ds_id=45835&version=2>`_ after its adoption by the *Climate Change Committee* which took place on June 23, 2016, and its 2nd vote for modifications, in April 27, 2017. .. _end-intro: .. _start-install: Installation ============ .. _start-install-dev: To install |co2mpas| use (with root privileges): .. code-block:: console $ pip install co2mpas Or download the latest git version and use (with root privileges): .. code-block:: console $ python setup.py install Install extras ^^^^^^^^^^^^^^ Some additional functionality is enabled installing the following extras: - ``cli``: enables the command line interface. - ``sync``: enables the time series synchronization tool (i.e., `syncing <https://github.com/vinci1it2000/syncing>`_ previously named ``datasync``). - ``gui``: enables the graphical user interface. - ``plot``: enables to plot the |co2mpas| model and the workflow of each run. - ``io``: enables to read/write excel files. - ``driver``: enables the driver model (currently is not available). To install co2mpas and all extras, do: .. code-block:: console $ pip install 'co2mpas[all]' .. _end-install-dev: .. _end-install: .. _start-quick: Quick Start =========== The following steps are basic commands to get familiar with |co2mpas| procedural workflow using the command line interface: - `Run`_ - `Input file`_ - `Data synchronization`_ Run --- To run |co2mpas| with some sample data, you have to: 1. Generate some demo files inside the ``./input`` folder, to get familiar with the input data (for more info check the `link <_build/co2mpas/co2mpas.cli.html#co2mpas-demo>`__):: ## Generate the demo files and open a demo file. $ co2mpas demo ./input $ start ./input/co2mpas_conventional.xlsx 2. Run |co2mpas| and inspect the results in the ``./output`` folder. The workflow is plotted on the browser (for more info check the `link <_build/co2mpas/co2mpas.cli.html#co2mpas-run>`__):: ## Run co2mpas and open the output folder. $ co2mpas run ./input/co2mpas_conventional.xlsx -O ./output -PL $ start ./output .. image:: _static/image/output_workflow.png :width: 100% :alt: Output workflow :align: center Input file ---------- To create an input file with your data, you have to: 1. Generate an empty input template file (i.e., ``vehicle.xlsx``) inside the ``./input`` folder:: ## Generate template file. $ co2mpas template ./input/vehicle.xlsx -TT input 2. Follow the instructions provided in the excel file to fill the required inputs:: ## Open the input template. $ start ./input/vehicle.xlsx .. image:: _static/image/input_template.png :width: 100% :alt: Input template :align: center Data synchronization -------------------- To synchronize the `dyno` and `OBD` data with the theoretical cycle, you have to: 1. Generate a `synchronization template` file ``wltp.xlsx``:: ## Generate template file. $ co2mpas syncing template ./to_sync/wltp.xlsx -CT wltp -WC class3b -GB automatic .. note:: With the command above, the file contains the theoretical ``WLTP`` velocity profile for an ``automatic`` vehicle of ``class3b``. For more info type ``co2mpas syncing template -h`` or click the `link <_build/co2mpas/co2mpas.cli.html#co2mpas-syncing-template>`__ 2. Fill the ``dyno`` and ``obd`` sheets with the relative data collected in the laboratory:: ## Open the input template. $ start ./to_sync/wltp.xlsx 3. Synchronize the data with the theoretical velocity profile:: $ co2mpas syncing sync ./to_sync/wltp.xlsx ./sync/wltp.sync.xlsx 4. Copy/Paste the synchronized data (``wltp.sync.xlsx``) contained in the ``synced`` sheet into the relative sheet of the input template:: ## Open the synchronized data. $ start ./sync/wltp.sync.xlsx .. _end-quick: .. _start-sub: .. |co2mpas| replace:: CO\ :sub:`2`\ MPAS .. |CO2| replace:: CO\ :sub:`2` .. _end-sub:
pfung-maker/CO2MPAS-TA
EU's Type-Approving vehicle simulator predicting NEDC CO2 emissions from WLTP
PythonEUPL-1.1