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README.md
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# Astar-JPS-Algorithm-ROS
An cpp implementation of 3D A* and JPS algorithm demo for ROS,more details can be found at
+ https://mesywang.github.io/2020/01/23/Dijkstra-and-Astar/
+ https://mesywang.github.io/2020/01/26/Jump-Point-Search/
## 1. Prerequisites
+ Ubuntu 64-bit 16.04. [ROS Kinetic](http://wiki.ros.org/kinetic/Installation/Ubuntu).
+ Eigen
## 2.Build on ROS
+ Clone this repository to your catkin workspace and catkin_make.
```
cd ${YOUR_WORKSPACE_PATH}/src
git clone https://github.com/Mesywang/Astar-JPS-Algorithm-ROS.git
cd ../
catkin_make
```
## 3. Run the Demo
+ Run the rviz with specified configuration.
the path of configuration file:~/catkin_ws/src/grid_path_searcher/launch/rviz_config/demo.rviz
+ Launch the package.
```
roslaunch grid_path_searcher demo.launch
```
Normally, you will find a complex randomly generated map in Rviz. The sparsity of obstacles in this map can be tuned in demo.launch. At this time, you can select a goal for the A* or JPS algorithm by using the 3D Nav Goal tool.
+ The result
You will find two paths. The path formed by black cubes is calculated by the A * algorithm,and another path formed by white cubes is calculated by the JPS. They are different,but they're both optimal.
<div align=center> A* and JPS </div>
<div align=center>
<img src="./img/AstarAndJPS.png" width = "600" height = "500" >
</div>