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  • 02/28/2024 7:00 AM | Anonymous member (Administrator)


    On the Anchor Model, Student, Course, and Attendance are anchors, the gray diamonds represent ties, and the circles represent attributes.

  • 02/21/2024 7:00 AM | Anonymous member (Administrator)


    The Data Vault is a detail-oriented, time-based, and uniquely linked set of normalized tables that support one or more functional areas of business. It is a hybrid approach, encompassing the best of breed between third normal form and star schema. Data Vaults are designed specifically to meet the needs of enterprise data warehouses. There are three types of entities: hubs, links, and satellites. The Data Vault design is focused around the functional areas of business with the hub representing the primary key. The links provide transaction integration between the hubs. The satellites provide the context of the hub primary key (Linstedt, 2012).

    In this figure, Student and Course are hubs, which represent the main concepts within a subject. Attendance is a link, which relates two hubs to each other. Student Contact, Student Characteristics, and Course Description are satellites that provide the descriptive information on the hub concepts and can support varying types of history.  Anchor Modeling is a technique suited for information that changes over time in both structure and content. It provides graphical notation used for conceptual modeling similar to traditional data modeling, with extensions for working with temporal data. Anchor Modeling has four basic modeling concepts: anchors, attributes, ties, and knots. Anchors model entities and events, attributes model properties of anchors, ties model the relationships between anchors, and knots are used to model shared properties, such as states. 

  • 02/14/2024 7:00 AM | Anonymous member (Administrator)


    Object‐Role Modeling (ORM) is a model‐driven engineering approach that starts with typical examples of required information or queries presented in any external formulation familiar to users, and then verbalizes these examples at the conceptual level, in terms of simple facts expressed in a controlled natural language. This language is a restricted version of natural language that is unambiguous, so the semantics are readily grasped by humans; it is also formal, so it can be used to automatically map the structures to lower levels for implementation (Halpin, 2015).

    FCO-IM is similar in notation and approach to ORM. The numbers in that figure are references to verbalizations of facts. For example, 2 might refer to several verbalizations including “Student 1234 has first name Bill.”

  • 02/07/2024 7:00 AM | Anonymous member (Administrator)

    The Unified Modeling Language (UML) is a graphical language for modeling software. The UML has a variety of notations of which one (the class model) concerns databases. The UML class model specifies classes (entity types) and their relationship types (Blaha, 2013).

    Figure 41 illustrates the characteristics of a UML Class Model:

    • A Class diagram resembles an ER diagram except that the Operations or Methods section is not present in ER.
    • In ER, the closest equivalent to Operations would be Stored Procedures.
    • Attribute types (e.g., Date, Minutes) are expressed in the implementable application code language and not in the physical database implementable terminology.
    • Default values can be optionally shown in the notation.
    • Access to data is through the class’ exposed interface. Encapsulation or data hiding is based on a ‘localization effect’. A class and the instances that it maintains are exposed through Operations.

    The class has Operations or Methods (also called its “behavior”). Class behavior is only loosely connected to business logic because it still needs to be sequenced and timed. In ER terms, the table has stored procedures/triggers.

    Class Operations can be:

    • Public: Externally visible
    • Internally Visible: Visible to children Objects
    • Private: Hidden

    In comparison, ER Physical models only offer Public access; all data is equally exposed to processes, queries, or manipulations.

  • 01/31/2024 11:17 AM | Anonymous member (Administrator)

    The concept of dimensional modeling started from a joint research project conducted by General Mills and Dartmouth College in the 1960's. In dimensional models, data is structured to optimize the query and analysis of large amounts of data. In contrast, operational systems that support transaction processing are optimized for fast processing of individual transactions.

    Dimensional data models capture business questions focused on a particular business process. The process being measured on this dimensional model is Admissions. Admissions can be viewed by the Zone the student is from, School Name, Semester, and whether the student is receiving financial aid. Navigation can be made from Zone up to Region and Country, from Semester up to Year, and from School Name up to School Level.

    The diagramming notation used to build this model - the 'axis notation' - can be a very effective communication tool with those who prefer not to read traditional data modeling syntax.

    Both the relational and dimensional conceptual data models can be based on the same business processes (as in this example with Admissions). The difference is in the meaning of the relationships, where on the relational model the relationship lines capture business rules, and on the dimensional model, they capture the navigation paths needed to answer business questions.

  • 01/24/2024 2:22 PM | Anonymous member (Administrator)


    Identifying vs. Non-Identifying Relationships

    An independent entity is one where the primary key contains only attributes that belong to that entity. A dependent entity is one where the primary key contains at least one attribute from another entity. In relational schemes, most notations depict independent entities on the data modeling diagram as rectangles and dependent entities as rectangles with rounded corners

    In the student example shown in the Dependent and Independent Entity figure, Student and Course are independent entities and Registration is a dependent entity.

    Dependent entities have at least one identifying relationship. An identifying relationship is one where the primary key of the parent (the entity on the one side of the relationship) is migrated as a foreign key to the child's primary key, as can be seen with the relationship from Student to Registration, and from Course to Registration. In non-identifying relationships, the primary key of the parent is migrated as a non-primary foreign key attribute to the child.

    Relational

    First articulated by Dr. Edward Codd in 1970, relational theory provides a systematic way to organize data so that they reflected their meaning (Codd, 1970). This approach had the additional effect of reducing redundancy in data storage. Codd's insight was that data could most effectively be managed in terms of two-dimensional relations. The term relation was derived from the mathematics (set theory) upon which his approach was based.

    The design objectives for the relational model are to have an exact expression of business data and to have one fact in one place (the removal of redundancy). Relational modeling is ideal for the design of operational systems, which require entering information quickly and having it stored accurately.

    There are several different kinds of notation to express the association between entities in relational modeling, including Information Engineering (IE), Integration Definition for Information Modeling (IDEF1X), Barker Notation, and Chen Notation. The most common form is IE syntax, with its familiar tridents or 'crows feet' to depict cardinality, see figure IE Notation.

  • 01/13/2024 12:53 PM | Anonymous member (Administrator)

    A foreign key is used in physical and sometimes logical relational data modeling schemes to represent a relationship.  A foreign key may be created implicitly when a relationship is defined between two entities, depending on the database technology or data modeling tool, and whether the two entities involved have mutual dependencies.

    In the example shown in the Foreign Keys figure, Registration contains two foreign keys, Student Number from Student and Course Code from Course.  Foreign keys appear in the entity on the many side of the relationship, often called the child entity.  Student and Course are parent entities and Registration is the child entity.

    An attribute is a property that identifies, describes or measure an entity.  Attributes may have domains.  The physical correspondent of an attribute in an entity is a column, field, tag, or node in a table, view, document, graph or file.

    In data models, attributes are generally depicted as a list within the entity rectangle, as shown in the Attributes figure, where the attributes of the entity Student include Student Number, Student First Name, Student Last Name and Student Birth Date.

  • 01/09/2024 6:02 PM | Anonymous member (Administrator)

    An arity of two is also known as binary.  A binary relationship, the most common on a traditional data model diagram, involves two entities.  The Binary Relationship figure, a UML class diagram, shows that both Student and Course are entities participating in a binary relationship.

    An arity of three, known as ternary, is a relationship that includes three entities.  An example in fact-based modeling (object -role notation) appears in the Ternary Relationship figure.  Here Student can register for a particular Course in a given Semester.


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