Preliminary Exploration of Skid Steering of a Novel Wheeled Manned Lunar Rover

Abstract

Abstract:

The steering system of manned lunar rover has a direct impact on its smoothness, path tracking and emergency obstacle avoidance capability. Herein, the skid-steer technology and manned lunar rover were integrated effectively. A new skid steer system of manned lunar rover was proposed, and the dynamics and kinematics modeling method were conducted. Based on the analyses of longitudinal driving characteristics, directional stability and steering characteristics of skid steering, an yaw angular velocity PID control method was proposed to achieve autonomous vehicle yaw rate tracking control. Simulation results show that the skid steer of manned lunar rover has a good pivot turn capability. In the steering process, it takes the steering agility into account at low speeds, and improves the vehicle's steering stability at high speeds effectively.

Key words: manned lunar , rover;skid steering;modeling;control

摘要：

载人月球车转向系统设计的好坏直接影响月球车的平稳性、路径跟踪及紧急避障能力。将滑移转向技术与载人月球车有效结合,提出了一种新型载人月球车滑移转向系统，研究其动力学与运动学建模方法。在分析载人月球车滑移转向的纵向行驶特性、方向稳定性及原地转向特性的基础上，设计了载人月球车滑移转向系统横摆角速度PID闭环控制控制器，实现了车辆自主横摆角速度的跟踪控制。仿真结果表明，载人月球车滑移转向系统具有较好的原地转向能力，在转向过程中不仅兼顾了滑移转向车辆低速时的转向轻便性，而且有效地改善了车辆的操纵性能和跟踪性能。

关键词: 载人月球车, 滑移转向, 建模, 控制

CLC Number:

Wang Chunyan, Duan Tingting, Zhao Wanzhong, Yu Leiyan, Lü Zewei. Preliminary Exploration of Skid Steering of a Novel Wheeled Manned Lunar Rover[J]. China Mechanical Engineering, 2014, 25(22): 3012-3017.

王春燕, 段婷婷, 赵万忠, 于蕾艳, 吕泽炜. 新型轮式载人月球车滑移转向初探[J]. 中国机械工程, 2014, 25(22): 3012-3017.

References

[1]丁亮，高海波,邓宗全,等.基于应力分布的月球车轮地相互作用地面力学模型[J].机械工程学报,2009,45(7)：49-55.
Ding Liang,Gao Haibo,Deng Zongquan,et al.Terramechanics Model for Wheel-terrain Interaction of Lunar Rover Based on Stress Distribution[J].Journal of Mechanical Engineering,2009,45(7):49-55.
[2]王立,刘景林,吴喜桥.月球车驱动轮爬坡牵引性能预测[J].测控技术,2012,31(2):119-125.
Wang Li,Liu Jinglin,Wu Xiqiao.Prediction of Traction Performance of Lunar Rover’s Driving Wheel on Slope Terrain[J]. Measurement & Control Technology, 2012, 31(2):119-125.
[3]Iagemma K,Kang S,Shibly H,et al.Online Terrain Parameter Estimation for Wheeled Mobile Robots with Application to Planetary Rovers[J].IEEE Transactions on Robotics,2004,20(5):921-927.
[4]邓宗全,高海波,王少纯,等.行星轮式月球车的越障能力分析[J].北京航空航天大学学报,2004,30(3):197-201.
Deng Zongquan,Gao Haibo,Wang Shaochun,et al.Analysis of Climbing Obstacle Capability of Lunar Rover with Planctary Wheel[J]. Journal of Beijing University of Aeronautics and Astronautics,2004,30(3):197-201.
[5]蔡则苏,洪炳镕,吕德生.HIT-1型月球车的运动学分析[J].哈尔滨工业大学学报,2003,35(9):1098-1011.
Cai Zesu,Hong Bingrong,Lü Desheng.Kinematic Analysis of HIT-1 Lunar Rover[J].Journal of Harbin Institute of Technology, 2003,35(9):1098-1011.
[6]刘方湖,马培荪,陈建平.管道形轮腿式月球机器人[J]. 机械工程学报,2002,38(11):42-48.
Liu Fanghu,Ma Peisun,Chen Jianping.Pipeline-shaped Wheel-legged Lunar Exploration Robot[J].Chinese Journal of Mechanical Engineering,2002,38(11):42-48.
[7]刘方湖.管道形轮腿式月球机器人及其运动特性的研究[D].上海:上海交通大学,2002.
[8]查云飞.类菱形车转向系统研究与分析[D].长沙：湖南大学,2010.
[9]Bruce M.A Skid Steering Model Using the Magic Formula[J].Journal of Terramechanics,2011,48(4):247-263.
[10]Wong J Y,Reece A R.Prediction of Rigid Wheel Performance Based on Analysis of Soil-wheel Stresses, Part Ⅰ: Performance of Driven Rigid Wheels[J].Journal of Terramechanics,1967,4(1):81-98.
[11]Lhomme D D,Grand C,Amar F B,et al.Dopper-Based Ground Speed Sensor Fusion and Slip Control for a Wheeled Rover[J]. IEEE/ASME Transaction on Mechatronics(S1083-4435),2009,14(4):484-492.
[12]赵万忠,李怿骏,赵婷,等.融合助力转向功能的新型主动转向系统LQG控制策略[J].中国机械工程,2014,25(3):417-421.
Zhao Wangzhong,Li Yijun,Zhao Ting,et al.LQG Control for Novel Active Steering System Integrated Electric Power Steering[J].China Mechanical Engineering,2014,25(3):417-421.
[13]赵万忠,王春燕,张宗强,等.轮毂电机独立驱动电动汽车差速转向路感控制研究[J].中国机械工程,2014,25(1):87-91.
Zhao Wangzhong,Wang Chunyan,Zhang Zongqiang,et al.Study on Road Feel Control of Differential Steering for In-wheel Electric Vehicle[J].China Mechanical Engineering,2014,25(1):87-91.
[14]王春燕,赵万忠,赵婷,等.电动轮汽车差速助力转向系统路感优化[J].中国机械工程,2012,23(1):122-125.
Wang Chunyan,Zhao Wangzhong,Zhao Ting,et al.Road Feel Optimization of Electric Vehicle with Motorized Wheels[J]. China Mechanical Engineering,2014,25(1):87-91.