WSDL描述了输入输出变量的数据类型、每一个服务的操作集的名称、客户调用服务必须遵守的格式等等。
WSDL describes the data types of the input-output variables, the name of the set of operations in each service, the format that the client must follow to invoke a service, and so on.
首先确定输入输出变量的模糊语言值及隶属度值,然后给出了实现该模拟算法的硬件和软件设计。
Firstly, the function of fuzzy language and grade value of input output variable were determined. Then the software and hardware of the fuzzy controlling algorithm.
在传递函数模型中,这些方程经过(拉氏)变换,并消去中间变量,以求得所选定的输入输出变量间的关系。
In transfer function models these equations are transformed and variables are eliminated between them to find the relation between selected input and output variables.
INA法的基本思想是通过选择预补偿器使原系统的逆前向传递函数矩阵成为对角优势阵,从而实现各输入输出变量之间的基本解耦。
The INA's basic idea is that, through selecting pro-(compensator, ) inverse pro-transitive function matrix of previous system can be changed into diagonal preponderance matrix.
在此基础上,构造出了模糊控制器的输入输出语言变量值的隶属度函数和模糊控制规则。
So the membership function of input and output lingual variables and control rules are formed in this thesis.
所以,本论文最后采用了遗传算法对输入输出语言变量的隶属函数进行优化以改善模糊控制器的性能。
So, at last, Genetic Algorithms are capitalized on to optimize the membership functions of the input and output linguistic variables of the fuzzy controller so as to better its performance.
线性离散时间多变量系统的脉冲传递矩阵往往不是对角线形的矩阵,这表明系统的输入输出存在耦合。
The pulse transfer function matrix of linear discrete-time multivariable systems is often non-diagonal. This shows that there is coupling between the input and output of systems.
最后,针对工业过程中常见的多变量多时滞输入输出系统,提出了一种双内模解耦控制器矩阵的设计方法。
At last, a decoupling dual internal model controller matrix design method is proposed for multi-variable time-delay input-output system in industrial processes.
最后,针对工业过程中常见的多变量多时滞输入输出系统,提出了一种双内模解耦控制器矩阵的设计方法。
At last, a decoupling dual internal model controller matrix design method is proposed for multi-variable time-delay input-output system in industrial processes.
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