1) evolutionary control
进化控制
1.
Aimed at the drawbacks, the two typical methods in autonomous mobile robot control architecture, an evolutionary control architecture is proposed in this paper which has the virtues of both AI based and behavior based methods.
本文针对自主式移动机器人控制体系结构中两类典型方法的不足 ,提出了一种进化控制体系结构 ,实现了基于 AI模型的方法与基于行为的方法的优势互补 。
2.
Integrated evolutionary control and Agent technology, adopted the virtues of many classic architecture, an evolutionary control architecture for mobile robot navigation based on Agent technology is proposed.
将进化控制与多Agent技术相结合 ,兼顾几种经典体系结构的优点 ,提出了一种基于多Agent的移动机器人导航进化控制的体系结构 。
2) bathmic force
进化控制力
3) evolutionary linear control
进化线性控制
1.
A multistage inverted pendulum system features complex non-linearity, strong duality and quick time variance, and the evolutionary linear control strategy is presented to control this system according to these features.
随后针对具有复杂非线性、强耦合、快时变特征的多级倒立摆系统,提出了一种基于进化线性控制的满意控制方案。
4) optimizing control/inlet port
优化控制/进气道
5) evolutionary cybernetic epistemology
进化控制认识论
1.
This paper abstracts evolutionary cybernetic epistemology from Turchin s literatures about metasystem transition,then discusses the new effect of this epistemology including it s modeling theory on solving the mechanism of the evolution of complex systems.
从图琴有关元系统跃迁理论的著作中提炼出了其进化控制认识论,并探讨了这种认识论,特别是其中的模型论在解决复杂系统进化机理上的新突破。
6) advanced optimization control
先进优化控制
补充资料:反馈控制(见控制系统)
反馈控制(见控制系统)
feedback control
于。。伙。]伙ongZ片}反馈控制(几edbaekcontrol)见拉制系统。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条