This system is formed by 4 subsystems including serving subsystem, data base administration subsystem, function subsystem and model applying subsystem.
该系统主要由4个子系统构成,分别为服务子系统、数据库管理子系统、功能子系统和模型应用子系统。
The model is proved to be reasonable in parameter and effective in main function through test of auxiliary subsystem soundness, parameter sensitivity and history data consistency.
通过辅助子系统合理性检验、参数敏感性分析以及历史数据吻合性检验、验证该模型参数选择的合理性和总体功能的有效性。
Establishing, modifying and delete of model storehouse function, reconstruct and control of each decision models is fulfilled with model storehouse subsystem.
模型库系统以模型库函数建立、修改、删除、重构和控制各决策模型。
On this basis, we can see making a detailed analysis of each function model and form the data model and database table of each subsystem in accordance with the actual need.
在此基础上,对每个功能模型进行详细的分析,并根据实际需求建立了每个子系统的数据模型及数据库表。
Then it applies the method of parameter estimation based on the model of parameters-subsystem parameters function to the fault detection of servo system.
之后,应用基于模型参数-子系统参数关联方程的参数估计方法,对伺服系统进行故障诊断。
Then it applies the method of parameter estimation based on the model of parameters-subsystem parameters function to the fault detection of servo system.
之后,应用基于模型参数-子系统参数关联方程的参数估计方法,对伺服系统进行故障诊断。
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