陈细军, 叶涛, 李磊, 侯增广, 谭民. 移动机器人非视觉传感器及其信号处理方法[J]. 机器人, 2003, 25(4): 313-317..
CHEN Xi-jun, YE Tao, LI Lei, HOU Zeng-guang, TAN Min . NONVISUAL SENSOR AND ITS SIGNAL PROCESSING METHOD FOR A MOBILE ROBOT. ROBOT, 2003, 25(4): 313-317..
Abstract:Nonvisual sensors are essential and important for mobile robots. To recognize and understand the environment out of the robots themselves. The basic nonvisual sensors for wheeled mobile robots include sonar sensor, infrared sensor and tactile sensor. All these sensors are used in groups and their signal processing will occupy much CPU time. In this paper, we propose a multi-DSP-based system to control the sensors and process the corresponding feedback signals, thus the robot controller can be mainly used for its deliberative purpose, such as path planning and navigation. This paper presents the operation theory of signal processing for the above sensors respectively. Parallel processing methods are employed to accelerate the processing speed of the system. Experimental results show the effectiveness of the proposed method.
[1] Gregory Dudek, Michael Jenkin. Computational principles of mobile robotics[D]. Cambridge University:Press 2000. [2] Bobyr S. Lumelsky V. Control of dynamics and sensor based motion planning for a differential drive robot[A]. Proceedings of the 1999 IEEE International Conference on Robotics & Automation[C]. Detroit:Michigan * May 1999. [3] Teruko YATA, Akihisa OHYA, Shin'ichi YUTA. A fast and accurate sonar-ringfor a mobile robot[A]. Proceedings of the 1999 IEEE International Conference on Robotics & Automation[C]. Detroit:Michigan * May 1999. [4] Technical Specifications for Ultrasonic Ranging Kits. Polaroid Corporation. [5] TMS320LF/LC240x DSP Controllers System and Peripherals Reference Guide (literature number SPRU357). Texas Instruments, 2000. [6] 曹志强, 张斌, 谭民. 多移动机器人系统个体控制体系结构[J]. 机器人, 2001,23(5):450-454
