The TSGA administrator must keep these rules in mind for name mapping.
进行名称映射时,TSGA管理员必须牢记这些规则。
Also, our TSGA guy validates that any naming context rules for LDAP hierarchies are correct.
我们的TSGA人员还为LDAP层次结构校验所有的命名上下文规则是否正确。
For example, TSGA has a special inventory system that tracks defective, blown-up, and top secret equipment.
例如,TSGA具有一个特殊的库存系统,用于统一调配发生故障、损坏和绝密的设备。
Making use of MATLAB language, the paper compiles the TSGA program for reactive power optimization of power system.
本文采用MATLAB语言,编制了应用于电力系统无功优化问题的禁忌遗传算法程序。
Once an attribute has been selected, our TSGA administrator can add the Notes DN for each identity that requires SSO, in LDAP-style syntax.
一旦选中了属性,TSGA管理员就可以通过ldap样式的语法,为每一个要进行SSO的身份添加NotesDN。
The TSGA administrator must implement name mapping, adding the LDAP DN as a secondary value of the FullName field in the Domino person document.
TSGA管理员必须实现名称映射,在Domino 的个人文档中,添加LDAPDN作为FullName 域的辅助值。
A TSGA administrator can choose to modify the corporate LDAP directory, adding the Notes distinguished name (DN) as an attribute of a user's LDAP identity.
TSGA管理员可以选择修改公司LDAP目录,添加Notes专有名称(DN)作为用户LDAP标识的属性。
To facilitate directory changes, TSGA may want to consider utilizing the IBM Tivoli directory Integrator to automate an implementation of their mapping policies.
为便于目录更改,TSGA可能希望使用IBMTivoliDirectoryIntegrator来实现映射策略的自动执行。
The computing results against the IEEE 30-node system prove that the method of reactive power optimization based on TSGA proposed in this paper is right and effective.
通过对IEEE-30节点系统的计算表明,本文所设计的禁忌遗传算法对于电力系统无功优化问题来说,是正确而有效的。
The computing results against the IEEE 30-node system prove that the method of reactive power optimization based on TSGA proposed in this paper is right and effective.
通过对IEEE-30节点系统的计算表明,本文所设计的禁忌遗传算法对于电力系统无功优化问题来说,是正确而有效的。
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