The performance and robustness can be balanced through tuning the filter time constant.
系统的动态性能和鲁棒性可以通过调节滤波时间常数进行平衡。
According to the maximum magnitude of the complementary sensitivity function, the filter time constant is calculated to assure the robustness of system.
根据闭环系统补灵敏度函数的最大值,从频域角度设计了滤波时间常数,以保证系统具有一定的鲁棒性。
The internal model control(IMC)was improved by using fuzzy control to adjust filter time constant of IMC, and it was applied in boiler combustion system.
该控制器是在典型推断控制的基础上进行简化和改进,并用模糊逻辑和推理来自适应地调节控制器的滤波器时间常数。
Detailed IMC-PID controllers which have filter time constant as their only tuning parameter for processes mentioned above is acquired. Tuning results of such controller are put forward as well.
详细导出了适用于上述过程的仅需整定一个参数的IMC—PID控制器,并给出了IMC—PID控制器的滤波器参数整定结果。
The controller is derived from the simplification and improvement of the typical inferential controller, and in which fuzzy logic and inference are used to adjust its filter time constant adaptively.
该控制器是在典型推断控制的基础上进行简化和改进,并用模糊逻辑和推理来自适应地调节控制器的滤波器时间常数。
For a low-pass filter, signals much longer than the time constant pass through unaltered while signals shorter than the time constant are filtered out.
对于低通滤波器,比时间常数更长的信号将会保持不变地通过,而比时间常数短的信号将会被滤掉。
Time constant: the time constant of a filter is the relative duration of signal it will act on.
时间常数:滤波器的时间常数和滤波信号的持续时间相关。
The receiver structure based on discrete-time bistable system is designed for the constant binary signal detection, and it is compared with the matched filter in some cases of non-Gaussian noise.
然后根据离散时间双稳态系统,设计了处理常值二进制信号的接收器结构,在一些非高斯噪声下对接收器的检测性能与匹配滤波器进行了比较分析。
The receiver structure based on discrete-time bistable system is designed for the constant binary signal detection, and it is compared with the matched filter in some cases of non-Gaussian noise.
然后根据离散时间双稳态系统,设计了处理常值二进制信号的接收器结构,在一些非高斯噪声下对接收器的检测性能与匹配滤波器进行了比较分析。
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