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10/3/2012ISC329 Isabelle Bichindaritz1 Logical Design.

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Presentation on theme: "10/3/2012ISC329 Isabelle Bichindaritz1 Logical Design."— Presentation transcript:

1 10/3/2012ISC329 Isabelle Bichindaritz1 Logical Design

2 10/3/2012ISC329 Isabelle Bichindaritz2 Learning Objectives How to remove features from a local conceptual model that are not compatible with the relational model. How to derive a set of relations from a local logical data model. How to validate these relations using the technique of normalization. How to validate a logical data model to ensure it supports required user transactions. How to merge local logical data models based on specific views into a global logical data model of the enterprise. How to ensure that resultant global model is a true and accurate representation of enterprise.

3 10/3/2012ISC329 Isabelle Bichindaritz3 Acknowledgments Some of these slides have been adapted from Thomas Connolly and Carolyn Begg

4 10/3/2012ISC329 Isabelle Bichindaritz4 Use case diagram

5 10/3/2012ISC329 Isabelle Bichindaritz5 Class diagram

6 10/3/2012ISC329 Isabelle Bichindaritz6 Logical Design Translates conceptual design into internal model Maps objects in model to specific DBMS constructs Design components –Tables –Indexes –Views –Transactions –Access authorities –Others

7 10/3/2012ISC329 Isabelle Bichindaritz7 Purpose of Database Design Structure the data in stable structures, called normalized tables –Not likely to change over time –Minimal redundancy Develop a logical database design that reflects actual data requirements Develop a logical database design from which a physical database design can be developed

8 10/3/2012ISC329 Isabelle Bichindaritz8 Purpose of Database Design Translate a relational database model into a technical file and database design that balances several performance factors Choose data storage technologies that will efficiently, accurately and securely process database activities

9 10/3/2012ISC329 Isabelle Bichindaritz9 Process of Database Design Logical Design –Based upon the conceptual data model –Four key stages 1.Develop a logical data model for each known user interface / report / view for the application using normalization principles 2.Combine normalized data requirements from all user interfaces into one consolidated logical database model 3.Translate the conceptual E-R data model for the application into normalized data requirements 4.Compare the consolidated logical database design with the translated E-R model and produce one final logical database model for the application

10 10/3/2012ISC329 Isabelle Bichindaritz10 E-R Modeling is Iterative Figure 6.8

11 10/3/2012ISC329 Isabelle Bichindaritz11 Iterative Process of Verification Figure 6.10

12 10/3/2012ISC329 Isabelle Bichindaritz12 Distributed Database Design Design portions in different physical locations Development of data distribution and allocation strategies

13 10/3/2012ISC329 Isabelle Bichindaritz13 Deliverables and Outcomes Logical database design must account for every data element on a system input or output Normalized relations are the primary deliverable Physical database design results in converting relations into files

14 10/3/2012ISC329 Isabelle Bichindaritz14 Relational Database Model Well-Structured Relation –A relation that contains a minimum amount of redundancy and allows users to insert, modify and delete the rows without errors or inconsistencies

15 10/3/2012ISC329 Isabelle Bichindaritz15 Normalization The process of converting complex data structures into simple, stable data structures Second Normal Form (2NF) –Each nonprimary key attribute is identified by the whole key (called full functional dependency)

16 10/3/2012ISC329 Isabelle Bichindaritz16 Normalization Third Normal Form (3NF) –Nonprimary key attributes do not depend on each other (called transitive dependencies) The result of normalization is that every nonprimary key attribute depends upon the whole primary key

17 10/3/2012ISC329 Isabelle Bichindaritz17 Functional Dependencies and Primary Keys Foreign Key –An attribute that appears as a nonprimary key attribute in one relation and as a primary key attribute (or part of a primary key) in another relation Referential Integrity –An integrity constraint specifying that the value (or existence) of an attribute in one relation depends on the value (or existence) of the same attribute in another relation

18 10/3/2012ISC329 Isabelle Bichindaritz18 Local Conceptual Data Model for Staff View Showing all Attributes

19 10/3/2012ISC329 Isabelle Bichindaritz19 Step 1 Remove Features not Compatible with the Relational Model First step Remove features not compatible with the relational model (optional step) To refine the local conceptual data model to remove features that are not compatible with the relational model. This involves: –remove *:* binary relationship types; –remove *:* recursive relationship types; –remove complex relationship types; –remove multi-valued attributes.

20 10/3/2012ISC329 Isabelle Bichindaritz20 Remove *:* Binary Relationship Types

21 10/3/2012ISC329 Isabelle Bichindaritz21 Remove *:* Recursive Relationship Types

22 10/3/2012ISC329 Isabelle Bichindaritz22 Remove Complex Relationship Types

23 10/3/2012ISC329 Isabelle Bichindaritz23 Remove Multi-valued Attributes

24 10/3/2012ISC329 Isabelle Bichindaritz24 Step 2 Build and Validate Local Logical Data Model Step 2 Derive relations for local logical data model –To create relations for the local logical data model to represent the entities, relationships, and attributes that have been identified.

25 10/3/2012ISC329 Isabelle Bichindaritz25 Transforming E-R Diagrams into Relations Represent Entities –Each regular entity is transformed into a relation –The identifier of the entity type becomes the primary key of the corresponding relation –The primary key must satisfy the following two conditions a.The value of the key must uniquely identify every row in the relation b.The key should be nonredundant

26 10/3/2012ISC329 Isabelle Bichindaritz26 Transforming E-R Diagrams into Relations Represent Relationships –Binary 1:N Relationships Add the primary key attribute (or attributes) of the entity on the one side of the relationship as a foreign key in the relation on the right side The one side migrates to the many side –Binary or Unary 1:1 Three possible options a.Add the primary key of A as a foreign key of B b.Add the primary key of B as a foreign key of A c.Both of the above

27 10/3/2012ISC329 Isabelle Bichindaritz27 Transforming E-R Diagrams into Relations Represent Relationships (continued) –Binary and Higher M:N relationships Create another relation and include primary keys of all relations as primary key of new relation –Unary 1:N Relationships Relationship between instances of a single entity type Utilize a recursive foreign key –A foreign key in a relation that references the primary key values of that same relation –Unary M:N Relationships Create a separate relation Primary key of new relation is a composite of two attributes that both take their values from the same primary key

28 10/3/2012ISC329 Isabelle Bichindaritz28

29 10/3/2012ISC329 Isabelle Bichindaritz29 Summary of How to Map Entities and Relationships to Relations

30 10/3/2012ISC329 Isabelle Bichindaritz30 Relations for the Staff View of DreamHome

31 10/3/2012ISC329 Isabelle Bichindaritz31 Step 2 Build and Validate Local Logical Data Model Validate relations using normalization –To validate the relations in the local logical data model using the technique of normalization. Validate relations against user transactions –To ensure that the relations in the local logical data model support the transactions required by the view. Define integrity constraints –To define the integrity constraints given in the view (i.e. required data, entity and referential integrity, domains, and enterprise constraints).

32 10/3/2012ISC329 Isabelle Bichindaritz32 Referential Integrity Constraints for Relations in Staff View of DreamHome

33 10/3/2012ISC329 Isabelle Bichindaritz33 Referential Integrity Constraints for Relations in Staff View of DreamHome

34 10/3/2012ISC329 Isabelle Bichindaritz34 Step 3 Build and Validate Global Logical Data Model

35 10/3/2012ISC329 Isabelle Bichindaritz35 Transforming E-R Diagrams into Relations Merging Relations (View Integration) –Purpose is to remove redundant relations –View Integration Problems Synonyms –Two different names used for the same attribute –When merging, get agreement from users on a single, standard name Homonyms –A single attribute name that is used for two or more different attributes –Resolved by creating a new name Dependencies between nonkeys –Dependencies may be created as a result of view integration –In order to resolve, the new relation must be normalized

36 10/3/2012ISC329 Isabelle Bichindaritz36 Build and Validate Global Logical Data Model

37 10/3/2012ISC329 Isabelle Bichindaritz37 Relations for the Branch View of DreamHome

38 10/3/2012ISC329 Isabelle Bichindaritz38 Relations that Represent the Global Logical Data Model for DreamHome

39 10/3/2012ISC329 Isabelle Bichindaritz39 Global Relation Diagram for DreamHome

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