本文介绍一种参加首届全国大学生机器人电视大赛的履带式行走机器人仿人智能控制系统。
In this paper a HSIC (Human Simulating Intelligent Control) system of the caterpillar track robot used in the First China University Robotcon is presented.
通过分析塑料瓦楞板同步剪切的工艺过程,并结合工艺要求,提出了仿人智能控制系统的设计方法。
By analyzing technological process and combining technological requirements of synchronism shearing, the designing method of the intellect controlling system imitating human was put forward.
本文讨论了一种仿人智能控制方法,并将其具体应用于二输入、二输出的液位控制系统。
The paper discusses an artificial intelligent control means which is particularly used in the liquid level control system with double input and double output.
并利用计算机具体实现仿人智能自动控制系统。
And intelligent control system simulating human behavior can be realized by computer.
描述了仿人智能用于光电跟踪控制系统的设计思想和方法。
The design ideas and method of the intelligent control used for photoelectric tracking and control are described in the paper.
将仿人智能控制理论(HSIC)应用于中小型燃煤锅炉燃烧控制系统,并给出了仿人智能控制器的设计。
The HSIC is applied to the combustion system of middle and small boiler, its design is given.
在控制策略上可采用融合仿人智能控制和专家控制技术的智能控制系统策略。
It can adopt the intelligent control system strategy syncretized human simulated intelligent control with expert control technique in control strategy.
然后把实验室的水槽水位控制系统作为控制对象,将仿人智能PID算法简化成单片机应用程序,自行设计了智能PID控制器。
The simulation object is boiler's water-level system. Then through simplifying the intelligent PID algorithm into a program run in single-chip, the author designed an intelligent PID controller.
然后把实验室的水槽水位控制系统作为控制对象,将仿人智能PID算法简化成单片机应用程序,自行设计了智能PID控制器。
The simulation object is boiler's water-level system. Then through simplifying the intelligent PID algorithm into a program run in single-chip, the author designed an intelligent PID controller.
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