多障碍环境中移动机器人的光滑轨迹规划

Smooth trajectory planning for mobile robot in multi-obstacle environment

下载PDF

导出

摘要根据轮式移动机器人参数化轨迹生成模型,结合多障碍物结构化环境中障碍物的建模,把其和参数化轨迹规划模型融合,得到了具有一般性的多障碍物环境中轮式移动机器人光滑轨迹规划模型;并利用最优化控制原理,建立了任意性能指标下,多障碍物环境中最优参数化轨迹生成模型。结合数值求解方法,推导了多障碍物环境中参数化轨迹规划非线性求解模型的求解方法。最后通过仿真验证了参数化轨迹规划求解模型的正确性。 According to the model of parameterized trajectory generation of wheeled mobile robot,integrating obstacle model in multi-obstacle environment,putting obstacle model into model of parameterized trajectory generation,the common smooth parameterized trajectory planning method of wheeled mobile robot in multi-obstacle environment was obtained.Using methods of optimal control,parameterized optimal trajectory generation model for wheeled mobile robot in arbitrary performance index was constructed in multi-obstacle environment.By means of numerical method,solving method for model of the nonlinear trajectory generation was introduced in detail.At last,the simulation results verify that model of parameterized trajectory planning for wheeled mobile robot in multi-obstacle and its solving method are valid.

作者禹鑫燚

机构地区哈尔滨工业大学机电工程学院佛山企业博士后工作站

出处《计算机应用》 CSCD 北大核心 2011年第11期3112-3115,3125,共5页 journal of Computer Applications

基金高等学校学科创新引智计划项目(B07018) 黑龙江省自然科学基金重点项目(ZJG0709)

关键词轨迹规划轮式移动机器人最优控制数值求解 trajectory planning wheeled mobile robot optimal control method numerical solving

分类号 TP273 [自动化与计算机技术—检测技术与自动化装置]

引文网络
相关文献

参考文献14

1TOUNSI M, CORRE J F L. Trajectory generation for mobile robots [ J]. Journal Mathematics and Computers in Simulation--Special is- sue: Robotics, 1996, 41 (3/4) : 367 - 376.
2KANAYAMA Y, HARTMAN B I. Smooth local path planning for autonomous vehicles[ C]//Proceedings of the International Confer- ence on Robotics and Automation. Scottsdale: IEEE, 1989:1265 - 1270.
3SHIN D H, SINGH S. Path generation for robot vehicles using com- posite clothoid segments, CMU-RI-TR-90-31[ R]. Pittsburgh: Car- negie Mellon University, The Robotics Institute, 1990.
4BETTS J T. Survey of numerical methods for trajectory optimization [ J]. Journal of Guidance, Control and Dynamics, 1998, 21(2) : 193 - 207.
5REUTER J. Mobile robot trajectories with continuously differentiable curvature: An optimal control approach[ C]// Proceedings of the IEEE/RSI Conference on Intelligent Robots and Systems. Victoria: IEEE, 1998:38 -43.
6FAIZ N, AGRAWAL S, MURRAY R. Differentially flat systems with inequality constraints: An approach to real-time feasible trajectory generation[J]. Journal of Guidance, Control and Dynamics, 2001, 24(2) : 219 -227.
7KELLY A, NAGY B. Reactive nonholonomic trajectory generation .via parametric optimal control [ J]. International Journal of Robotics Research, 2003, 22(7/8):583-601.
8NAGY B, KELLY A. Trajectory generation for car-like robots using cubic curvature polynomials[ C]//FSR'01 : Proceedings of Interna- tional Conference on Field and Service Robotics. Helsinki: [ s. n. ], 2001.
9GE S S, CUI Y J. New potential functions for mobile robot path planning[ J]. IEEE Transactions on Robotics and Automation, 2000,16(5) : 615 - 620.
10AHMAD A M. Solving the narrow corridor problemin potential field- guided autonomous robots[ C] //Proceedings of the International Conference on Robotics and Automation. Sarcelona: IEEE, 2005: 2909 - 2914.

二级参考文献22

1李晓丽,谢敬,傅卫平,杨静.一种改进势场法在多移动机器人避碰规划中的应用[J].计算机工程与应用,2005,41(17):56-58. 被引量：13
2陶建国,邓宗全,高海波,胡明.六圆柱-圆锥轮式月球车的设计[J].哈尔滨工业大学学报,2006,38(1):4-7. 被引量：12
3Randel A, Brain D, Ary M, et aI. Mars exploration rover mobility development: mechanical mobility hardware design, development, and testing[J].IEEE Robotics and Automation Magazine, 2006, 13(2): 19-26.
4Volpe R,Balaram J, Ohm T,et al. The Rocky 7 Mars rover prototype[C]//Proceedings of the 1996 IEEE/RSJ International Conference on Intelligent Robots and Systems. 1996, 3:1558-1564.
5Yen J. ALgorithm computes kinematics of a rover on rocky terrain[R]. NASA Tech Briets-NPO 20997, 2006.
6Yen J, Jain A, Balaram J. ROAMS: rover analysis, modeling and simulation[C]// Proceedings of the 1999 Interna tional Symposium on Ant Intelligence, Robotics and Auto mation for Space. 1999:249-254.
7付京逊,R.C.冈萨雷斯.机器人学:控制,传感技术,视觉,智能[M].李静宇,译.北京:中国科学技术出版社,1989:26-27.
8Tarokh M, McDermott G J. Kinematics modeling and analyses of articulated rovers[J]. IEEE Transactions on Robo tics, 2005, 21(4):539-553.
9Yang Y, Cao W W, Chung T, et al. Applied numerical methods using MATLAB[M]. Hoboken, New Jersey: John Wiley and Sons, 2005:186-192.
10Koren Y,Borenstein J.Potential field methods and their inherent limitations for mobile robot navigation[C]//Proceedings of the 1991 IEEE International Conference on Robotics and Automation.Sacrament,California:IEEE,1991:1398-1404.

共引文献57

1文勇,张怀相,曾虹.新型势场法的移动机器人避障研究[J].杭州电子科技大学学报（自然科学版）,2009,29(1):50-53. 被引量：6
2曹荣,柳在鑫,伍龙军,朱维兵.基于自主势场法的足球机器人路径规划研究[J].机械科学与技术,2009,28(2):230-233. 被引量：1
3洪晔,房建成.基于HMDP的无人机三维路径规划[J].北京航空航天大学学报,2009,35(1):100-103. 被引量：8
4雷艳敏,冯志彬.改进的势场栅格法在机器人路径规划中的应用[J].长春大学学报,2009,19(2):38-42. 被引量：19
5鲍庆勇,李舜酩,沈峘,门秀花.自主移动机器人局部路径规划综述[J].传感器与微系统,2009,28(9):1-4. 被引量：54
6陈卫东,李宝霞,朱奇光.模糊控制在移动机器人路径规划中的应用[J].计算机工程与应用,2009,45(31):221-223. 被引量：14
7刘玉晓,陈帝伊,马孝义.智能移动机器人局部避碰算法研究[J].微计算机信息,2010,26(26):145-146.
8黄岩,吴军,刘春明,李兆斌.自主车辆发展概况及关键技术[J].兵工自动化,2010,29(11):8-13. 被引量：12
9唐小勇,于飞,潘洪悦.改进粒子群算法的潜器导航规划[J].智能系统学报,2010,5(5):443-448. 被引量：4
10郭晋炜,曾建潮.基于目标搜索任务的群机器人路径规划[J].系统仿真学报,2010,22(12):2842-2846. 被引量：7

1张进华,王永园.基于等效并联结构的大部件姿态调整平台设计与轨迹规划[J].机床与液压,2011,39(7):1-5. 被引量：1
2孙永锋,刘旭敏.型值点参数设定方法的研究[J].计算机工程与设计,2008,29(15):4043-4044.
3厉玉蓉,胡芳刚.平面二次代数曲线的最优参数化[J].图学学报,2012,33(2):49-52. 被引量：5
4侯倩.空间二次代数曲面的最优有理参数化[J].科技创新与应用,2016,6(6):23-24.
5郭凤华,杨兴强.Bézier曲线的一种重新参数化新方法[J].工程图学学报,2006,27(2):108-111. 被引量：5
6胡昭华,樊鑫,梁德群,宋耀良.基于双向非线性学习的轨迹跟踪和识别[J].计算机学报,2007,30(8):1389-1397. 被引量：5
7居鹤华,袁也.一种基于离散化位姿的月球车运动规划方法[J].控制工程,2010,17(2):185-189.
8厉玉蓉,李丹.有理参数曲线的最优参数化[J].计算机辅助设计与图形学学报,2015,27(10):1988-1992. 被引量：3
9黄伟贤,王国瑾.一次复有理Bézier曲线的最优参数化[J].计算机辅助设计与图形学学报,2010,22(11):1972-1977. 被引量：3
10厉玉蓉,姜丽.基于二次代数曲线端点几何信息的最优有理参数化[J].图学学报,2014,35(1):21-25. 被引量：1

计算机应用

2011年第11期

浏览历史

内容加载中请稍等...

多障碍环境中移动机器人的光滑轨迹规划

参考文献14

二级参考文献22

共引文献57

相关作者

相关机构

相关主题

浏览历史