However, advanced control strategies show strong advantages for resolving these problems in the control system.
而先进控制策略对于解决这类系统的控制问题,显示出强大的优势。
Especially today when batch production industries are still widely used, the research of advanced control strategies for batch process is significant.
尤其是在间歇生产方式仍然被广泛应用的今天,先进控制策略的研究有着非常重要的意义。
At the same time, whether some advanced control strategies are adopted in the real plant. These all become problems urgently needed to solve and study.
同时,一些先进的控制策略在实际机组中是否切实可行,这些都成了急待解决和研究的问题。
With the application of DCS in automatic control systems for thermal power plant, advanced control strategies have been adopted in thermal processes control.
国内大型热力设备的自动控制系统已逐步采用分散控制系统(DCS),这使先进的控制策略可较方便地得到应用。
With the development of digital signal processors (DSPs), it is possible that some advanced control strategies are applied to the grid-connected PV control system.
高性能的数字信号处理器芯片(dsp)的出现,使得一些先进的控制策略应用于光伏并网的控制成为可能。
Several advanced control strategies including top-tray composition inferential PI control, gain scheduling control, and multi-temperature weighting feedback control are designed.
设计了塔顶甲醇浓度比例积分反馈推断控制、多个温度联合加醛反馈控制、塔顶甲醇浓度反馈增益自调整控制等控制策略。
With the appearance of high-performance Digital Signal Processor (DSP) chip, it is possible that some most advanced control strategies can be used to the PV grid-connected system.
高性能的数字信号处理器芯片(dsp)的出现,使得一些先进的控制策略应用于光伏并网的控制成为可能。
The aim of advanced batch control strategies is to track the pre-set trajectory in a fast and exact way under the limit of operation condition and restriction.
间歇过程单元的的先进控制目的是在设定的工艺轨线下,在不违反操作条件和约束的情况下完成对其快速、准确的跟踪。
A nonlinear control design approach based on differential geometric control theory and nonlinear control strategies of advanced static VAR generator (ASVG) are presented in this paper.
基于微分几何控制理论中的零动态设计方法,首次提出了新型静止无功发生器(ASVG)非线性控制的设计方法和相应的控制规律。
A nonlinear control design approach based on differential geometric control theory and nonlinear control strategies of advanced static VAR generator (ASVG) are presented in this paper.
基于微分几何控制理论中的零动态设计方法,首次提出了新型静止无功发生器(ASVG)非线性控制的设计方法和相应的控制规律。
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