片语

Fuzzy Logic and Control模糊逻辑与控制

Fuzzy Logic Control Strategy模糊逻辑控制策略

microcontroller fuzzy logic control单片机模糊逻辑控制

fuzzy logic adaptive control模糊逻辑自适应控制

fuzzy logic control technique模糊逻辑控制技术

fuzzy-logic control theory模糊控制理论

Intelligent Fuzzy Logic Control智慧型模糊控制

英汉例句

• and this hybrid genetic algorithm is also applied in the optimization design of fuzzy logic control system.

  该混合遗传算法被应用于对模糊逻辑控制系统的优化设计中。

• taking fuzzy logic control technique and self optimizing control idea the self optimizing fuzzy controller for air/fual ratio was designed and developed.

  采用模糊逻辑控制技术与自寻优控制思想，开发设计了空/燃比自寻优模糊控制器，有效地克服了传统控制中的缺点，具有搜索速度快、收敛特性好等优。

• this paper presents three special software systems for the the design of hardware circuit of fuzzy logic control system.

  本文首先介绍了三种专门用于模糊逻辑控制系统设计的软件系统。

• since the proper fuzzy logic control was applied, the chattering phenomenon which is inherent to a sliding mode control was avoided by smoothing the switch signal.

  由于使用模糊逻辑控制，平滑了切换信号，避免了滑模控制所固有的颤动现象。

• the pneumatic control system is a serious nonlinearity system. based on the experience of professional operator, the fuzzy logic control is an effective control method to nonlinearity system.

  由于气压控制系统是一个具有严重非线性的系统，而模糊逻辑控制是在熟练控制操作者的经验基础上，对控制对象进行非线性控制的一种有效控制方法。

• 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。

• to adapt to complex environment, improve control performance and simplify the control complexity, a hierarchical adaptive fuzzy logic control of the pipe robot is presented.

  为了适应空调管道的复杂环境，提高空调管道清扫机器人控制性能，降低控制复杂度，构建了一个分层的自适应模糊控制器。

• considering that the detectors of running vehicles designed with conventional methods are deficient, the fuzzy logic control technology is adopted in the design.

  针对常规方法设计行驶车辆检测器的不足，采用模糊逻辑控制技术进行设计。

• therefore this article has emphatically studied on the application of fuzzy logic control in the switched reluctance motor drive system.

  因此本文着重研究了模糊逻辑控制在开关磁阻电机调速系统中的应用。

• 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。

• modern control theory, variable structure control theory and fuzzy logic control theory are applied to contrive two schemes to control parallel triple inverted-pendulum system.

  文中应用现代控制理论、滑模变结构控制理论和模糊控制理论设计了两种三并联耦合倒立摆系统的控制方案。

• the paper introduced the composing and working principle in detail . the way of designing and programming of fuzzy logic control sys- tem is also presented in detail in the paper.

  详细地介绍了利用软件进行模糊逻辑控制系统设计的基本原理以及模糊控制器的软件程序设计方法。

• this paper presents the principle of a predictive fuzzy logic control system and the design method of it.

  本文论述了一种预估模糊逻辑控制系统的工作原理和设计方法。

• the fuzzy controller according with human driving experience is designed by the fuzzy logic control method to realize autonomous navigation in the obstacle environment.

  结合模糊逻辑控制的方法，设计了符合人类驾驶经验的模糊控制器，以实现移动机器人在障碍物环境下的自主导航；

• adopting the fuzzy logic control method based on driver's experiences can get more ideal control effect.

  采用建立在驾驶员经验基础之上的模糊逻辑控制方法可望获得较理想的控制效果。

• applying fuzzy logic control technology to design fuzzy logic torque control strategy of the parallel hybrid electric vehicle.

  利用模糊逻辑控制技术，设计了并联混合动力汽车的模糊逻辑扭矩控制策略。

• first, a fuzzy logic control ensures smooth and fast swing up control.

  首先用逻辑模糊控制实现快速平滑的摇起；

• the influence of the steering and suspension system to the performance of the vehicle is analyzed, and fuzzy logic control theory is used.

  分析汽车转向时转向系与悬架对车辆综合性能的影响，并应用模糊逻辑控制理论，设计了主动悬架系统与电动助力转向系统集成控制器。

• two methods of controlling a double inverted pendulum are presented: fuzzy logic control and hierarchical fuzzy control.

  阐述了基于二级倒立摆的两种模糊控制方法，即模糊逻辑控制方法和分层模糊控制方法。

• therefore this thesis focuses on using fuzzy logic control on electro-pneumatic position servo system.

  因此本文对模糊逻辑控制在电-气位置伺服控制系统中的应用进行了深入的研究。

• in recent years, the research of fuzzy logic control (flc) and artificial neural networks (ann) and the application of them to automatic control are progressing rapidly.

  近年来，模糊逻辑和神经元网络的研究以及它们在控制领域的应用取得了很大的进展。