A moving-target tracking and obstacle avoidance control system for unicycle mobile robots is proposed in this paper.
设计了双回路的双轮移动机器人运动目标追踪与避障控制方案。
Principle of fuzzy obstacle avoidance is analyzed and obstacle avoidance method is established based on fuzzy logic control according to the experience of peoples driving.
在此基础上分析了移动机器人的模糊避障原理,并建立了一种基于人的驾驶经验的模糊逻辑控制的路障躲避方法。
This article presents the decision of obstacle avoidance behavior, robot moving control based on neural network during obstacle avoidance process.
介绍了避障行为的决策、基于神经网络的机器人在避障过程中的运动控制等。
The obstacle avoidance is detailed based on ultrasonic sensors rule of fuzzy control and courses of defuzzification, and the experimental result is produced.
介绍了超声避障系统的模糊控制规则和非模糊化,并给出了实验结果。
Security issue is an important aspect of the formation control, which includes collision avoidance and obstacle avoidance.
安全问题是编队控制问题的一个重要内容,包括避碰和避障两方面。
Mobile robot can run smoothly, sensor and image information can display properly in the PC side and remote control client side, the robot's automatic obstacle avoidance function performed well.
移动机器人能够运动自如,传感器信息和图像信息在上位机端和远程控制端都能正常显示,机器人自动避障功能表现良好。
The robot has used the fuzzy logic control algorithm to static obstacle avoidance, and through experimental verification this algorithm feasibility.
对机器人静态避障采用了基于模糊逻辑的控制算法,并通过实验验证了该算法的可行性。
According to the information of obstacles from the sensor system, the obstacle avoidance system is built by the fuzzy control method to make the cleaning robot avoid the obstacles autonomously.
利用传感器系统获取障碍物信息,应用模糊控制方法建立机器人模糊避障系统,使清洁机器人能够自主地避开障碍物。
The effectiveness of this method is proved by simulation results for an anti interference optimal control problem of airborne obstacle avoidance system.
考虑到最优反馈控制在部分执行器(传感器)失效时仍能使系统稳定运行的条件,给出了求解该问题的算法,并用实例作了说明。
The effectiveness of this method is proved by simulation results for an anti interference optimal control problem of airborne obstacle avoidance system.
考虑到最优反馈控制在部分执行器(传感器)失效时仍能使系统稳定运行的条件,给出了求解该问题的算法,并用实例作了说明。
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