FUZZY controller with a correcting factor is utilized to control a ship based radar stabilizing plant servo system consisting of a MCS 51 family single chip computer and ac servo units.
以MCS -51系列单片机和交流伺服装置组成的舰载雷达稳定平台伺服系统为对象,采用带修正因子的FUZZY控制器对其进行控制。
Finally, using nonsingular terminal sliding mode technology, a feedback stabilizing controller which can make the closed loop system converge to equilibrium in finite time is given.
最后,利用非奇异终端滑模控制技术,得到了一种使闭环系统有限时间收敛到平衡点的反馈镇定控制器。
A FUZZY controller with a correcting factor is utilized to control a ship based radar stabilizing plant servo system consisting of a MCS 51 family single chip computer and ac servo units.
以MCS -51系列单片机和交流伺服装置组成的舰载雷达稳定平台伺服系统为对象,采用带修正因子的FUZZY控制器对其进行控制。
The main objective of control theory has long focused on the stability analysis of system equilibrium and stabilizing controller synthesis. But these can not meet the practical need anymore.
控制理论长期以来将控制目的主要集中于系统平衡位置稳定性和设计控制器以保证对系统进行镇定上,已不能符合控制系统当今的实际要求。
Finally, experiment results for a triple-flume control system prove the effectiveness of the non-fragile PID stabilizing controller.
最后利用三阶水槽液位控制实验装置,验证了非脆弱pid控制器稳定化设计方法的有效性。
The stabilizing and Control system for Mine Hunting Sonar Arrays (MHSA) and its digital controller are discussed in this paper.
本文研究了猎雷声纳基阵稳定平台系统中的数字控制器。
This paper consider the problem of designing a robust stabilizing and output feedback controller for uncertain time-delay discrete-time singular system.
本文研究一类参数不确定的离散广义时不变时滞系统的鲁棒镇定和输出反馈控制器的设计问题。
In this paper, we present an Adaptive Network-based fuzzy Inference system (ANFIS), based on a neuro-fuzzy controller, as a possible control mechanism for a ship stabilizing fin system.
提出基于自适应网络模糊推理系统(ANFIS)的神经模糊控制器作为船舶减摇鳍系统的控制装置。
In this paper, we present an Adaptive Network-based fuzzy Inference system (ANFIS), based on a neuro-fuzzy controller, as a possible control mechanism for a ship stabilizing fin system.
提出基于自适应网络模糊推理系统(ANFIS)的神经模糊控制器作为船舶减摇鳍系统的控制装置。
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