这样就会以“实体类型”实例或“实体”的形式来组织数据并管理实体之间的关联关系。
This organizes the data in the form of instances of "entity types", or "entities", and the associations between them.
关系将一个源服务描述实体与一个或多个目标服务描述实体绑定在一起。
Relationships tie together one source service description entity to one or more target service description entities.
然后与该类型实体的所有交互都将被“模式化”以匹配该模板,从而指出在与该类实体交互时相关的属性和关系。
All interactions with entities of that type will then be "patterned" to match the template, designating the properties and relationships that are relevant when interacting with that kind of entity.
对这个应用程序可能进行的一种扩展是,通过进行更复杂的文本分析,识别更多类型的实体以及实体之间的关系。
One possible extension of this application would be to recognize more kinds of entities, and relations between the entities, by using more sophisticated text analysis.
传统的ER模型具有均匀且平衡的实体样式和实体之间的复杂关系,而星型模型却是完全不对称的。
Whereas the traditional er model has an even and balanced style of entities and complex relationships among entities, the star model is very asymmetric.
插座描述一个实体为了与另一个实体建立协作关系需要提供的信息。
The socket describes the information that needs to be provided by an entity to establish cooperation with another entity.
逻辑数据模型定义实体以及实体之间的关系,而不考虑实现平台。
A logical data model defines entities and relationships between entities without consideration of the implementation platform.
业务模型定义了实体和实体之间的关系,并且忽略执行平台。
A business model defines entities and relationships between entities, without consideration of the implementation platform.
在RDA中创建逻辑数据模型,就可以显示各种实体之间的关系、这些实体的属性和所有这些不同对象之间的关系。
In RDA, creating a logical data model allows you to show relationships between various entities, attributes for those entities, and the relationships between all these different objects.
可移植的信任:在与某个实体建立了信任关系之后,要有一种标准机制来将那种信任转移至另一个协作的实体。
Portable trust: After a trust relationship has been established with an entity, having a standard mechanism to transfer that trust to another cooperating entity.
逻辑数据模型:逻辑数据模型代表企业实体、实体属性(数据),以及它们之间的关系。
Logical data model: Logical data model represents the enterprise entities, their attributes (data) and the relationship among them.
逻辑数据模型中实体之间的关系是通过外键来表示的,外键与引用实体的主键相关联。
Relationships between entities in the logical data model are represented through foreign keys that are associated to the primary keys of the referring entity.
领域模型展示了主要商业实体,它们的功能责任,以及实体之间的关系。
The domain model typically shows the major business entities, their functional responsibilities, and the relationships among the entities.
POST请求中指定的这种新实体与其父实体之间的包含关系类似于某个文件从属于其父目录的方式。
This containment relationship between the new entity and its parent, as specified in the POST request, is analogous to the way a file is subordinate to its parent directory.
对实体的选择取决于实体与要返回的数据之间的关系。
The choice of entity depends on the relationships between the entities and the data you want to return.
客户端设置实体与其父实体之间的关系,并在POST请求中定义新实体的URI。
The client sets up the relationship between the entity and its parent and defines the new entity's URI in the POST request.
管理根实体x的一个持久化闭包被定义为一个管理实体集C(x) ={e},其中 e 可以直接或间接通过一个持久化关系从 x 访问。
A persistent closure of a managed root entity x is defined as the set of managed entities C(x) ={e}, where e is reachable from x directly or indirectly via a persistent relationship.
注意概念模型是如何只确定主要业务实体的,例如Customer、Store和Item,以及这些实体之间的关系的。
Notice how the conceptual model only identifies major business entities such as Customer, Store, and Item as well as the relationships between them.
规范化决定在逻辑数据模型中得以完成,并导致实体-实体关系与超类型-子类型层次关系的最终规范化表示。
Normalization decisions are finalized in the logical data model resulting in the final normalized representation of entity-to-entity relationships as well as supertype-to-subtype hierarchies.
概念数据模型定义主要的业务实体、这些实体的泛化(generalization)以及实体之间的关系。
The conceptual data model defines the major business entities, generalizations of those entities, and relationships between the entities.
换句话说,在实体管理器之外(在实体管理器内也没关系)无法把非活动(lazy)对象与 活动(eager) 对象区分开。
In other words, there is no way to tell a lazy object apart from an eager one outside of the realm of the entity manager (and it really doesn't matter within).
这个实体e JB是一个符合EJB2的实体bean,它用CMP访问关系数据库。
The entity EJB is an EJB2-complaint entity bean that USES CMP to access a relational database.
表1Indigo中的SO实体和OO实体的关系。
Table 1 Relationship of SO Entities to OO Entities in Indigo.
本体(Ontolog)是实体及实体间的关系的描述。
An ontology is a description of entities and the relationships between these entities.
这使实体的ID能够从其他实体派生出来,这提供了parent - to - dependent关系。
This enables the id of an entity to be derived from another entity, which provides for parent-to-dependent relationships.
还有两项工作:在实体间建立他们之间的关系和检查实体的每一个属性和属性的约束。
Two tasks remain: establishing the relationships between these entities, and reviewing each entity's attributes and constraints.
环境实体法救济与程序法救济的关系,也就是一般程序法与实体法的关系。
The relationship between environmental entity relief and procedural relief is the same with that of procedure and entity laws.
在以边界表示的实体造型中,如果为某实体元素保存部分的邻接实体元素,这便导致了部分关系的拓扑结构。
In the solid modelling of boundary representation, if we store part adjacent entities for some entity, for example, a first edge for a face, topology structures from part relationships will result.
介绍了以拓扑关系数据为基础的GIS空间点、线、面对象实体模型,给出了基于对象实体模型的自动拓扑关系模型。
This paper introduces the GIS space point? Line? Surface entity model based on topology data and the automatic topology model which is based on the objects model.
介绍了以拓扑关系数据为基础的GIS空间点、线、面对象实体模型,给出了基于对象实体模型的自动拓扑关系模型。
This paper introduces the GIS space point? Line? Surface entity model based on topology data and the automatic topology model which is based on the objects model.
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