Metadata-Version: 2.1
Name: trajectory-planning-helpers
Version: 0.65
Summary: Useful functions used for path and trajectory planning at TUM/FTM
Home-page: https://github.com/TUMFTM/trajectory_planning_helpers
Author: Alexander Heilmeier, Tim Stahl, Fabian Christ
Author-email: alexander.heilmeier@tum.de, stahl@ftm.mw.tum.de
License: UNKNOWN
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: License :: OSI Approved :: GNU Lesser General Public License v3 (LGPLv3)
Classifier: Operating System :: OS Independent
Description-Content-Type: text/markdown
Requires-Dist: numpy (==1.18.1)
Requires-Dist: scipy (>=1.3.3)
Requires-Dist: quadprog (==0.1.7)
Requires-Dist: matplotlib (>=3.0.3)

# Description
This repository provides some helper functions we frequently use in our trajectory planning software stack at FTM/TUM.
Many of the functions are based on third order splines because we use them as a basis for our path planning.
Please keep in mind that some of the functions are designed to work on a closed (race-) track and might therefore
not work properly on a common street network.

# List of components
* `angle3pt`: Calculates angle by turning from a to c around b.
* `calc_ax_profile`: Calculate the longitudinal acceleration profile for a given velocity profile.
* `calc_head_curv_an`: Analytical curvature calculation on the basis of third order splines.
* `calc_head_curv_num`: Numerical curvature calculation.
* `calc_normal_vectors`: Calculate normalized normal vectors on the basis of headings psi (psi - pi/2).
* `calc_normal_vectors_ahead`: Calculate normalized normal vectors on the basis of headings psi (psi + pi/2).
* `calc_spline_lengths`: Calculate spline lengths.
* `calc_splines`: Calculate splines for a (closable) path.
* `calc_t_profile`: Calculate the temporal duration profile for a given velocity profile.
* `calc_tangent_vectors`: Calculate normalized tangent vectors on the basis of headings psi.
* `calc_vel_profile`: Calculate velocity profile on the basis of a forward/backward solver.
* `calc_vel_profile_brake`: Calculate velocity profile on the basis of a pure forward solver.
* `check_normals_crossing`: Check if normal vectors of a given track have at least one crossing.
* `conv_filt`: Filter a given signal using a 1D convolution (moving average) filter.
* `create_raceline`: Function to create a raceline on the basis of the reference line and an optimization result.
* `get_rel_path_part`: Get relevant part of a given path on the basis of a s position and a specified range.
* `import_veh_dyn_info`: Imports the required vehicle dynamics information from several files: ggv and ax_max_machines.
* `import_veh_dyn_info_2`: Imports local gg diagrams, required for local friction consideration.
* `interp_splines`: Interpolate splines to get points with a desired stepsize.
* `interp_track_widths`: Interpolation function for track widths.
* `iqp_handler`: Handler function to iteratively call the minimum curvature optimization.
* `normalize_psi`: Normalize heading psi such that the interval [-pi, pi[ holds.
* `opt_min_curv`: Minimum curvature optimization.
* `opt_shortest_path`: Shortest path optimization.
* `path_matching_global`: Match own vehicle position to a global (i.e. closed) path.
* `path_matching_local`: Match own vehicle position to a local (i.e. unclosed) path.
* `progressbar`: Commandline progressbar (to be called in a for loop).
* `side_of_line`: Function determines if a point is on the left or right side of a line.
* `spline_approximation`: Function used to obtain a smoothed track on the basis of a spline approximation.

# Example files
The folder `example_files` contains an exemplary track file (`berlin_2018.csv`), ggv (`ggv.csv`) and ax_ax_machines file
(`ax_max_machines.csv`). The two latter files can be easily imported (with checks) using `import_veh_dyn_info`. The
files are taken from our global trajectory planner repository which can be found on
https://github.com/TUMFTM/global_racetrajectory_optimization.

# Solutions for possible installation problems
1) (Ubuntu) `matplotlib` requires `tkinter` -> can be solved by `sudo apt install python3-tk` 
2) (Ubuntu) `Python.h` required for `quadprog` -> can be solved by `sudo apt install python3-dev` 

Contact persons: [Alexander Heilmeier](mailto:alexander.heilmeier@tum.de), [Tim Stahl](mailto:stahl@ftm.mw.tum.de).


