本论文提出了一种控制规则自调整模糊控制器的设计方案。
This paper adopts a fuzzy rule self-adjust control method to the need of industrial constant temperature control.
根据水下焊接的特殊情况,设计了一种带修正函数的规则自调整模糊控制器。
In view of the special circumstances of the flux-cored underwater welding, a rule self-tuning fuzzy controller with modification function is designed here.
采用自定中心、非线性量化、控制规则自调整等方法实现了模糊控制算法的自适应。
The self-adaptive fuzzy control algorithm was achieved by using auto-center, non-linear quantification, and self-adjust rules and so on.
采用规则自调整模糊控制器进行焊缝纠偏控制,以克服常规模糊控制器的不足,使其具有良好性能。
Use rule auto-adjusting fuzzy controller for the correction of welding path deviation to conquer the shortage of general fuzzy controller and make the system having perfect capability.
全论域规则自调整模糊控制是目前最常用的规则自调整模糊控制算法,但是该方法在调整时并没有考虑误差变化的影响。
The rule self-adaptive fuzzy control in full region is the most customary algorithm at present, but it doesn't consider the effect of the rate of error change(EC) when the coefficient is adjusted.
首先使用动态逆方法求得系统的逆,使系统反馈线性化,然后,用具有在线规则自调整的模糊控制方法来确保系统的最终特性。
First, the aircraft dynamics is inverted to linearize the system dynamics. System performance is guaranteed by using fuzzy control method of. on -line self-tuning rules.
在模糊控制器中又通过自调整修正因子模糊数模型的在线插值方法提高了控制器规则的自调整功能。
And in the fuzzy controller on-line interpolation of the self-tuning gene fuzzy model is employed to improve the self-adjusting abilities of the control rules.
而实际要求的控制规则应是可以自调整的。
提出了性能反馈的智能控制方法和基于规则的控制器参数自调整机制等智能控制策略。并简化了智能模糊控制算法的设计。
The intelligent method based on performance feedback and parameter self-tuning controller based on rules have been proposed, which simplify the design of intelligent fuzzy control algorithm.
详细讨论了在参数自调整模糊控制器中使用的模糊控制规则和模糊调整规则表的设计步骤。
The design rules of the fuzzy control table and fuzzy adjustable scheme are also discussed for the use of the fuzzy control with selfadjustment parameters.
结合智能控制理论,提出了基于模糊规则的适应式参数自调整PID控制策略。
Finally, referring the intelligent control theory, the self-adjusting parameter PID control strategy based on the fuzzy logic rules is introduced.
为了有效地控制直线冰箱压缩机的活塞位移,提出了一种以活塞上死点位移为控制目标的可自调整规则的模糊控制系统。
In order to effectively control the piston displacement of a linear refrigerator compressor, a new fuzzy control system based on self-adjusting was proposed.
采用带有自调整因子的模糊控制规则设计了有源滤波器直流侧电压的模糊控制器。
A fuzzy controller for capacitor voltage at DC side is designed by using fuzzy control rule with self-adjusting factors.
该控制器采用分段解析函数控制规则,函数运算结果直接作为输出控制量,简化了模糊处理过程,且使得输出控制量参数具有自调整能力。
Fuzzy Algorithm is proposed in this paper. The controller adopts subsection analysis function control rules. The result of the function computation directly ACTS as the output control variable.
这种自适应模糊控制器基于模糊推理规则自学习和自调整的控制算法,无需知道太多的专家控制规则,因此解决了制冷系统MIMO模糊推理规则难以获取的问题。
This adaptive fuzzy controller is based on fuzzy inference rules self-learning without needing so much expert control rules, which solves the problem of acquiring MIMO fuzzy inference rules.
这种自适应模糊控制器基于模糊推理规则自学习和自调整的控制算法,无需知道太多的专家控制规则,因此解决了制冷系统MIMO模糊推理规则难以获取的问题。
This adaptive fuzzy controller is based on fuzzy inference rules self-learning without needing so much expert control rules, which solves the problem of acquiring MIMO fuzzy inference rules.
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