Open Source Integrated Planner for Autonomous Navigation in Highly Dynamic Environments
-
Published:2017-08-20
Issue:4
Volume:29
Page:668-684
-
ISSN:1883-8049
-
Container-title:Journal of Robotics and Mechatronics
-
language:en
-
Short-container-title:J. Robot. Mechatron.
Author:
Darweesh Hatem,Takeuchi Eijiro,Takeda Kazuya,Ninomiya Yoshiki,Sujiwo Adi,Morales Luis Yoichi,Akai Naoki,Tomizawa Tetsuo,Kato Shinpei, , ,
Abstract
Planning is one of the cornerstones of autonomous robot navigation. In this paper we introduce an open source planner called “OpenPlanner” for mobile robot navigation, composed of a global path planner, a behavior state generator and a local planner. OpenPlanner requires a map and a goal position to compute a global path and execute it while avoiding obstacles. It can also trigger behaviors, such as stopping at traffic lights. The global planner generates smooth, global paths to be used as a reference, after considering traffic costs annotated in the map. The local planner generates smooth, obstacle-free local trajectories which are used by a trajectory tracker to achieve low level control. The behavior state generator handles situations such as path tracking, object following, obstacle avoidance, emergency stopping, stopping at stop signs and traffic light negotiation. OpenPlanner is evaluated in simulation and field experimentation using a non-holonomic Ackerman steering-based mobile robot. Results from simulation and field experimentation indicate that OpenPlanner can generate global and local paths dynamically, navigate smoothly through a highly dynamic environments and operate reliably in real time. OpenPlanner has been implemented in the Autoware open source autonomous driving framework’s Robot Operating System (ROS).
Publisher
Fuji Technology Press Ltd.
Subject
Electrical and Electronic Engineering,General Computer Science
Reference31 articles.
1. W. Burgard, A. Cremers, D. Fox, D. Hanel, G. Lakemeyer, D. Schulz, W. Steiner, and S. Thrun, “The interactive museum tourguide robot,” Proc. of the Fifteenth National Conf. on Artificial Intelligence (AAAI-98), 1998. 2. Y. Morales, E. Takeuchi, A. Carballo, A. Aburadani, and T. Tsubouchi, “Autonomous robot navigation in outdoor cluttered pedestrian walkways,” J. of Field Robotics, Vol.26, No.8, pp. 609-635, 2009. 3. R. Kümmerle, M. Ruhnke, B. Steder, C. Stachniss, and W. Burgard, “Autonomous robot navigation in highly populated pedestrian zones,” J. of Field Robotics, 2014. 4. S. Thrun, M. Montemerlo, H. Dahlkamp, D. Stavens, A. Aron, J. Diebel, P. Fong, J. Gale, M. Halpenny, G. Hoffmann, K. Lau, C. Oakley, M. Palatucci, V. Pratt, P. Stang, S. Strohband, C. Dupont, L.-E. Jendrossek, C. Koelen, C. Markey, C. Rummel, J. van Niekerk, E. Jensen, P. Alessandrini, G. Bradski, B. Davies, S. Ettinger, A. Kaehler, A. Nefian, and P. Mahoney, “Stanley: The robot that won the DARPA grand challenge,” J. of Field Robotics, Vol.23, No.1, pp. 661-692, June 2006. 5. C. Urmson, J. Anhalt, H. Bae, J. D. Bagnell, C. Baker, R. E. Bittner, T. Brown, M. N. Clark, M. Darms, D. Demitrish, J. Dolan, D. Duggins, D. Ferguson, T. Galatali, C. M. Geyer, M. Gittleman, S. Harbaugh, M. Hebert, T. Howard, S. Kolski, M. Likhachev, B. Litkouhi, A. Kelly, M. McNaughton, N. Miller, J. Nickolaou, K. Peterson, B. Pilnick, R. Rajkumar, P. Rybski, V. Sadekar, B. Salesky, Y.-W. Seo, S. Singh, J. M. Snider, J. C. Struble, A. T. Stentz, M. Taylor, W. R. L. Whittaker, Z. Wolkowicki, W. Zhang, and J. Ziglar, “Autonomous driving in urban environments: Boss and the urban challenge,” Special Issue on the 2007 DARPA Urban Challenge, Part I, J. of Field Robotics, Vol.25, No.1, pp. 425-466, June 2008.
Cited by
49 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|