micros_hopfield package from micros_hopfield repomicros_hopfield |
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Package Summary
Tags | No category tags. |
Version | 0.0.3 |
License | TODO |
Build type | CATKIN |
Use | RECOMMENDED |
Repository Summary
Checkout URI | https://github.com/micros-uav/micros_hopfield.git |
VCS Type | git |
VCS Version | master |
Last Updated | 2016-10-19 |
Dev Status | DEVELOPED |
CI status | Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Package Description
Additional Links
Maintainers
- Tianjiang Hu
Authors
- Xiaojia Xiang
Introduction
We are pleased to announce a new package for path planning, an implementation of a specified Hopfield neural network based approach. Its source code is available now.
The package aims to give an optimal path for an agent to get its destination in an obstacle environment. The agent starts from a random position except the barrier area in the map, and then generates a feasible path to its destination while avoiding all the obstacles. Furthermore, it can support multiple agents to plan in the map.
There are two cpp files in this package:
``` and
```Plan_server.cpp
```.
# System Requirements
------------------------
- Ubuntu 14.04
- ROS indigo
# Installation
------------------------
## with catkin
cd catkin_ws/src git clone http://github.com/491734045/micros_hopfield cd .. catkin_make
# Quick Start
------------------------
- Setup `rviz`
roscore & rosrun rviz rviz
Set the config parameter in rviz : File-open
```config-user.rviz
-Open a new consol for sever. Set up environment variables
source devel/setup.bash
Note: Run this command under ~/catkin_ws
directory.
- Run Server Node
rosrun micros_hopfield plan_server
Note: Run this command under ~/catkin_ws
directory, due to loading the terrain map.
-Open a new consol for client. Set up environment variables
source devel/setup.bash
Note: Run this command under ~/catkin_ws
directory.
- Run Client Node
rosrun micros_hopfield plan_client i
where i is the client ID, i = 1,2,3…
Note: Run different clients in independent terminal
-
Demo
- The green texture presents a terrain with different altitude.
- The blue cylinder is an obstacle.
- The red and blue lines are the pathes generated for two different agents.
Note: The package is inspired by and adapted from [1]. Related details about neural network based path planning may also be found in [2], [3] and [4].
- [1] Chonghong Fan, Youzhang Lu, Hong Liu, Shangteng Huang. Path planning for mobile robot based on neural networks. Computer Engineering and Application, 2004, 8: 86-89. (in Chinese)
- [2] Roy Glasius, Andrzej Komoda, Stan C.A.M. Gielen. Neural network dynamics for path planning and obstacle avoidance. Neural Networks, 1995, 8(1):125-133.
- [3] Simon X. Yang, Max Meng. An efficient neural network approach to dynamic robot motion planning. Neural Networks, 2000, 13(2):143-148.
- [4] Simon X. Yang, Max Meng. Neural network approaches to dynamic collision-free trajectory generation. IEEE SMC Part B, 2001, 31(3): 302-318.
Changelog for package micros_hopfield
0.0.3 (2016-10-19)
- 0.0.1
- Contributors: 491734045