[1]HUANG Yan-wen,CAO Qin-xin.Path planning for robot soccer in the RoboCup environment[J].CAAI Transactions on Intelligent Systems,2007,2(4):52-57.
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Path planning for robot soccer in the RoboCup environment

CAAI Transactions on Intelligent Systems[ISSN 1673-4785/CN 23-1538/TP] Volume: 2 Number of periods: 2007 4 Page number: 52-57 Column: 学术论文—智能系统 Public date: 2007-08-25
Title:
Path planning for robot soccer in the RoboCup environment
Author(s):
HUANG Yan-wen CAO Qin-xin
Research Institute of Robotics, Shanghai Jiaotong University, Shan ghai 200240, China
Keywords:
artificial potential field fuzzy logic method path planning multitask multirole situation robot soccer
CLC:
TP2426
DOI:
-
Abstract:
The RoboCup middle size robot soccer game is full of intense competit ion and has a strong realtime property. During a match, a robot must change i t s roles and tasks, in realtime, according to the game situation. In this situa t ion we cannot get satisfactory results using a traditional or even an improved artificial potential field. This paper proposes a new improved potential field m ethod based on fuzzy logic to deal with the multitask/multirole situation. I t can effectively analyze the effects of relative location and velocity on the rob ots, the obstacles, and the goals. Computer simulations demonstrate the effecti veness of path planning using the new potential field method.
References:
[1]贾建强,陈卫东,席裕庚.全自主足球机器人系统关键技术综述[J].上海交通大学学报, 2003,37(增刊): 45-49.
JIA Jianqiang, CHEN Weidong, XI Yugeng. An overview of the key techniques in au tonomous robot soccer[J]. Jounal of Shanghai Jiaotong University, 2003,37(Supl ) :45-49.
[2]LATOMBE J C. Robot motion planning[M].Boston:Kluwer Academic Publ ishers,1991.
[3]VADAKKEPAT P, KAY C, WANG Mingliang. Evolutionary artificial potenti al fields and their application in rea l time robot path planning[A]. Proceedings of the IEEE Congress on Evolutionar y Computation[C].Piscataway,2000.
[4]NAM Y S, LEE B H, KO N. An analytic approach to movi ng obstacle avoiding using an artificial potential field[A]. IEEE Internationa l Conference on Intelligent Robots and Systems[C]. Pittsburgh,USA,1995.
[5]ZHANG B T, KIM S H.An evolutionary method for active learning of mobile robot path planning[A]. Proceedings of IEEE International Sympo sium on Computational Intelligence in Robotics and Automation, CIRA[C].Monter ey,USA,1997.
[6]DOZIER G, MCCULLOUGH S, HOMAIFAR A, et al. Multiobjective evolutiona ry path planning via fuzzy tournament selection[A]. Proceedings of the IEEE Co nference on Evolutionary Computation, ICEC[C]. Anchorage,USA, 1998.
[7]张 祺,杨宜民.基于改进人工势场法的足球机器人避碰控制[J] .机器人,2002, 24 (1):12-15.
 ZHANG Qi, YANG Yiming. Soccer robot collsion avoidance contrel based on evolutio nary artificial potential field[J]. Robot, 2002, 24 (1):12-15.
[8]KO N Y, LEE B H. Avoidability measure in moving obstacle avoidance problem and its use for robot motion planning [J]. Proceedings of the IEEE/ RSJ International Conference on Intelligent Robots and Systems[C]. Osaka, Japa n,1996.
[9]CHEN Gong, GU Jason, BAI Tao,et al. A new efficient control algori thm using potential field: extention to robot path tracking[A].Proc eedings of Canadian Conference on Electrical and Computer Engineering[C]. Niag ara Falls, Ontario, Canada,2004
[10]GE S S, CUI Y J. Dynamic motion planning for mobile robots using potential field method[J]. Autonomous Robots,2002, 13(3):207-222.
[11]FRAICHARD T H, LAUGIER C. On line reactive p lanning for a nonholonom ic mobile in a dynamic work[A].IEEE International Confe rence on Robotics and Automation[C].[S.l.],1991
【12]CAO Qixin, HUANG Yanwen, ZHOU Jingliang. An evolutionary arti ficial potential field algorithm for dynamic path planning of mobile robot[A].Procee dings of the 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems[C].Beijing, China,2006.
[13】KHATIB O. Real time obstacle avoidance for manipulators and mobile robots[J]. J Robotics Res,1986,5(1): 90-98.
[14]PIAGGIO M, SGORBISSA A. AICART: an algorithm to incr ementally calculate artificial potential fields in realtime[A]. 1999 IEEE In terna tional Symposium on Computational Intelligence in Robotics and Automation, CIRA ’99[C].[S.l.],1999.
[15]DRIANKOV D,SAFFIOTTI A.Fuzzy logic techniques for autonomous vehicle navigation[M]. New York: PhysicaVerlag, 2001.
[16]YANG X, PATEL R V, MOALLEM M. A fuzzyBraitenberg navi gation strategy for differential drive mobile robots[A].Proc 3rd IFAC Symp. Mechatronic Systems[C]. Sydney, Australia,2004
[17]SAFFIOTTI A. The uses of fuzzy logic in autonomous robot na vigation[J]. Soft Comput,1997(1):180-197.
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