Metadata-Version: 2.1
Name: commonroad-drivability-checker
Version: 2021.4
Summary: Drivability checker for CommonRoad scenarios.
Home-page: https://commonroad.in.tum.de/drivability-checker
Author: Technical University of Munich
Author-email: commonroad@lists.lrz.de
License: GNU General Public License v3.0
Project-URL: Documentation, https://commonroad.in.tum.de/docs/commonroad-drivability-checker/sphinx/
Project-URL: Forum, https://commonroad.in.tum.de/forum/c/commonroad-drivability-checker/
Project-URL: Source, https://gitlab.lrz.de/tum-cps/commonroad-drivability-checker
Description: CommonRoad Drivability Checker
        ------------------------------
        
        Collision avoidance, kinematic feasibility, and road-compliance must be
        validated to ensure the drivability of planned motions for autonomous
        vehicles. The CommonRoad Drivability Checker toolbox unifies these checks
        in order to simplify the development and validation of motion planning
        algorithms. It is compatible with the CommonRoad benchmark suite, which
        additionally facilitates and drastically reduces the effort of the development
        of motion planning algorithms.
        
        Please post questions, bug reports, etc. related to our tools or website in our [forum](https://commonroad.in.tum.de/forum/).
        
        Installation
        ------------
        To install the Python package of the drivability checker, please run:
        ```
        pip install commonroad-drivability-checker
        ```
        
        Documentation
        -------------
        A full documentation as well as tutorials to get started with the tool can be found on our [toolpage](https://commonroad.in.tum.de/drivability-checker).
        
        
        Publication
        -----------
        #### CommonRoad Drivability Checker: Simplifying the Development and Validation of Motion Planning Algorithms
        Christian Pek, Vitaliy Rusinov, Stefanie Manzinger, Murat Can Üste, and Matthias Althoff
        
        Abstract— Collision avoidance, kinematic feasibility, and road-compliance must be validated to ensure the drivability
        of planned motions for autonomous vehicles. Although these tasks are highly repetitive, computationally efficient
        toolboxes are still unavailable. The CommonRoad Drivability Checker—an open-source toolbox—unifies these mentioned
        checks. It is compatible with the CommonRoad benchmark suite, which additionally facilitates the development of motion
        planners. Our toolbox drastically reduces the effort of developing and validating motion planning algorithms. Numerical
        experiments show that our toolbox is real-time capable and can be used in real test vehicles.
        
        Fulltext is available on [mediaTUM](https://mediatum.ub.tum.de/doc/1546126/).
        
        ##### Bibtex:
        ```
        @inproceedings{ PekIV20.pdf,
        	author = "Christian Pek, Vitaliy Rusinov, Stefanie Manzinger, Murat Can Üste, and Matthias Althoff",
        	title = "CommonRoad Drivability Checker: Simplifying the Development and Validation of Motion Planning Algorithms",
        	pages = "1-8",
        	booktitle = "Proc. of the IEEE Intelligent Vehicles Symposium",
        	year = "2020",
        	abstract = "Collision avoidance, kinematic feasibility, and road-compliance must be validated to ensure the drivability of planned motions for autonomous vehicles. Although these tasks are highly repetitive, computationally efficient toolboxes are still unavailable. The CommonRoad Drivability Checker— an open-source toolbox—unifies these mentioned checks. It is compatible with the CommonRoad benchmark suite, which additionally facilitates the development of motion planners. Our toolbox drastically reduces the effort of developing and validating motion planning algorithms. Numerical experiments show that our toolbox is real-time capable and can be used in real test vehicles."
        }
        ```
        
        
        Licensing note
        --------------
        Please note, that the drivability checker contains a dependency to the third party library [Triangle](https://www.cs.cmu.edu/~quake/triangle.html)
        which states:
        ```
        Please note that although Triangle is freely available, it is copyrighted by the author and may 
        not be sold or included in commercial products without a license.
        ```
        Please be aware of that when using the drivability checker in your projects. See the original [licensing conditions](https://github.com/wo80/Triangle/blob/master/src/Triangle/README) 
        of the Triangle library as well as the [Triangle website](https://www.cs.cmu.edu/~quake/triangle.html) for details.
Platform: UNKNOWN
Classifier: Programming Language :: C++
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.7
Classifier: License :: OSI Approved :: GNU General Public License v3 (GPLv3)
Classifier: Operating System :: POSIX :: Linux
Classifier: Operating System :: MacOS
Requires-Python: >=3.6
Description-Content-Type: text/markdown
