在电路的控制逻辑中,采取了流水线操作,进一步提高了处理速度。
In the control logic circuits, pipelined control is used to speed up the processing throughput.
斜坡根据密度跟踪误差和误差变化情况,通过模糊逻辑对控制器参数进行调整,确定了测量速度。
The ramp metering rate is determined by the PID controller whose parameters are tuned by fuzzy logic according to the density tracking error and error variation.
在采用最大相对速度-距离法的基础上,引入模糊逻辑控制时间裕度,使任意两次检测间的时间间隔适当增大。
The theory of maximum relative velocity distance is provided, and the fuzzy logic is used to control the time margin.
最后选择以车轮减速度、加速度及滑移率为控制参数的逻辑门限预测控制方法作为本论文设计abs控制器的控制方法。
Finally choose reduce wheel speed, acceleration and slip ratio control parameters of logic threshold for control methods, as the paper design of the ABS controller control methods.
该模糊控制器电路不用cpu,全部算法由数字逻辑电路实现,具有运算速度快的特点,适合于需要高速控制的场合。
No CPU is needed for the fuzzy controller circuit. All algorithms are realized for high speed by digital logic circuits.
本文的目的在于引进模糊逻辑控制器来加快交叉与突变过程的收敛速度。
This paper proposes to use fuzzy logic controller to speed up the convergence of the crossover and mutation process.
为实现对小车的位置和抓斗的摆动分别控制而设计了两个控制回路,其中一个回路采用常规的PID算法来调节小车的位置和速度,同时另一个回路则利用模糊逻辑控制器来消除抓斗的摆动。
Two control loops are devised: a conventional PID regular is used to control the position and velocity of the trolley, and a fuzzy logic controller is proposed to the anti-swing control of the load.
该系统能够逻辑控制剪刃的运行规律,保证剪刃线速度与轧件线速度同步,保证剪切产品长度的定尺精度。
The system keeps the linear velocity of the shear blade in pace with that of the rolled piece and warrants the accuracy of the specified cut length.
对此进行了改进:更换挡铁装置,优化运行逻辑控制程序,提高分配行车运行速度等。
The improvement was (conducted) as: changing the stoppers, optimizing operating logistic control program, increasing the traveling speed of the spreading conveyor, and etc.
实验结果表明,与传统的锁相环控制器及查询表式模糊控制器相比,采用调整因子式模糊逻辑控制器具有捕获速度快、鲁棒性强、启动成功率和稳定性高的特点。
The experimental results show that the fuzzy control system based on regulating factor has the most robust and fast control and the highest reliability compared with the others.
根据控制逻辑来实施相位选择单元使得能够获得更高的速度并节省芯片面积。
The implementation of the phase selection unit based on direct logic enables a higher speed and saves area on the chip.
根据控制逻辑来实施相位选择单元使得能够获得更高的速度并节省芯片面积。
The implementation of the phase selection unit based on direct logic enables a higher speed and saves area on the chip.
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