🔔 CHECK OUT THE NEWER VERSION path_optimizer_2
This ROS package generates feasible paths for non-holonomic vehicles.
- ROS kinetic on Ubuntu 16.04
- OpenCV 3
mkdir -p workspace/src && cd workspace/src
git clone git@github.com:LiJiangnanBit/path_optimizer.git
sudo bash path_optimizer/scripts/install_deps.sh
cd ..
catkin build path_optimizer
source devel/setup.bash
install_deps.sh will install other dependencies (Those already installed will be skipped). These dependencies include:
- ipopt 3.12.4
- cppad 20180000.0
- google benchmark
- glog
- gflags
- osqp-eigen
- grid_map
- ros_viz_tools
- tinyspline_ros.
A png image is loaded as the grid map. You can click to specify the global reference path and the start/goal state of the vehicle.
roslaunch path_optimizer demo.launch
- Pick at least six points.
- There are no hard and fast rules about the spacing of the points.
- If you want to abandon the chosen points, just double click anywhere when using the "Publish Point" tool.
- You can replace
gridmap.png
with other black and white images. Note that the resolution indemo.cpp
is set to 0.2m, whick means that the length of one pixel is 0.2m on the map. - In application, the reference path is given by a global path or by a search algorithm like A*.
- Currently, it's not strictly required to reach the goal state. But this can be changed.
- The start state must be ahead of the first reference point.
This is a computation time test.
rosrun path_optimizer path_optimizer_benchmark
Refer to demo.cpp
The parameters that you can change can be found in planning_flags.cpp
.
Refer here.
- Take inputs (red dots):
- (Optional) Use B spline curve fitting to make the path continuous and then search around it for a more reasonable reference path (yellow dots).
This step can be skipped by changing settings.
- Smooth the reference path using IPOPT (yellow curve).
- Represent the path planning problem as a QP and solve it using OSQP.