A Novel Potential Field Controller for Use on Aerial Robots

Alexander C. Woods; Hung M. La

首页> 外文期刊>IEEE Transactions on Systems, Man, and Cybernetics >A Novel Potential Field Controller for Use on Aerial Robots

【24h】

A Novel Potential Field Controller for Use on Aerial Robots

机译：用于航空机器人的新型势场控制器

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

团队文献服务 >>

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

Unmanned aerial vehicles, commonly known as drones, have many potential uses in real-world applications. Drones require advanced planning and navigation algorithms to enable them to safely move through and interact with the world around them. This paper presents an extended potential field controller (ePFC) which enables an aerial robot, or drone, to safely track a dynamic target location while simultaneously avoiding any obstacles in its path. The ePFC outperforms a traditional potential field controller with smoother tracking paths and shorter settling times. The proposed ePFC's stability is evaluated by Lyapunov approach, and its performance is simulated in a MATLAB environment. Finally, the controller is implemented on an experimental platform in a laboratory environment which demonstrates the effectiveness of the controller.

机译：无人驾驶飞行器，通常称为无人机，在现实应用中有许多潜在用途。无人机需要先进的规划和导航算法，以使其能够安全地穿越周围的世界并与之互动。本文提出了一种扩展的电位场控制器（ePFC），它使空中机器人或无人驾驶飞机能够安全地跟踪动态目标位置，同时避免其路径上出现任何障碍。 ePFC的跟踪路径更平滑，建立时间更短，优于传统的电位场控制器。提出的ePFC的稳定性通过Lyapunov方法进行了评估，并且其性能在MATLAB环境中进行了仿真。最后，该控制器在实验室环境中的实验平台上实现，从而证明了该控制器的有效性。

著录项

来源
《IEEE Transactions on Systems, Man, and Cybernetics》 |2019年第4期|665-676|共12页
作者
Alexander C. Woods; Hung M. La;
展开▼
作者单位

Department of Computer Science and Engineering Advanced Robotics and Automation Laboratory University of Nevada at Reno Reno NV USA;

Department of Computer Science and Engineering Advanced Robotics and Automation Laboratory University of Nevada at R;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Mathematical model; Drones; Robot sensing systems; Earth; Laser radar;

机译：数学模型;无人机;机器人感应系统地球;激光雷达;

相似文献

外文文献
中文文献
专利

1. Army Studying Potential Universal Robotic Controller, Details Plans For Fielding Ground Robots [J] . Matthew Beinart Defense Daily . 2020,第Nova6期

机译：陆军学习潜在的普通机器人控制器，详细介绍了场地地面机器人的计划
2. Decentralized controllers for perimeter surveillance with teams of aerial robots [J] . Luciano C. A. Pimenta, Guilherme A. S. Pereira, Mateus M. Goncalves, Advanced Robotics: The International Journal of the Robotics Society of Japan . 2013,第9a10期

机译：用于空中机器人团队进行周边监视的分散式控制器
3. Artificial potential field neuro-fuzzy controller for autonomous navigation of mobile robots [J] . Imrane Mahamat Loutfi, Melingui Achille, Ahanda Joseph Jean Baptiste Mvogo, Journal of Systems and Control Engineering . 2021,第7期

机译：用于移动机器人的自主导航的人工潜在领域神经模糊控制器
4. Collision Avoidance of SDRE Controller using Artificial Potential Field Method: Application to Aerial Robotics* [C] . S. R. Nekoo, J. Á. Acosta, A. Ollero International Conference on Unmanned Aircraft Systems . 2020

机译：使用人工势场方法避免SDRE控制器的碰撞：在空中机器人中的应用*
5. An Extended Potential Field Controller for use on Aerial Robots. [D] . Woods, Alexander C. 2016

机译：用于航空机器人的扩展电位场控制器。
6. ED-BioRob: A Neuromorphic Robotic Arm With FPGA-Based Infrastructure for Bio-Inspired Spiking Motor Controllers [O] . Alejandro Linares-Barranco, Fernando Perez-Peña, Angel Jimenez-Fernandez, 2020

机译：Ed-Biorob：具有基于FPGA的基础设施的神经形状机器人用于生物启发尖刺电机控制器
7. A Novel Potential Field Controller for Use on Aerial Robots [O] . Woods, Alexander C., La, Hung M. 2017

机译：一种用于空中机器人的新型势场控制器
8. Artificial Potential Field Controllers for Robust Communications in a Network of Swarm Robots. [R] . Dunbar, T. W. 2005

机译：人工势场控制器在群体机器人网络中的鲁棒通信。

A Novel Potential Field Controller for Use on Aerial Robots

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅