DataBase ch2

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DataBase ch2


<ul><li> 1. Data Models Data model is a collection of conceptual tools for describing data, data relationships, data semantics, and consistency constraints. Data Models have two main purposes: To help in understanding the meaning of data (semantics) To facilitate communication about requirements 1</li></ul><p> 2. Entity relationship modeling Entity Sets Entities may be classified as Weak or Strong Weak Entity Type A weak entity is one whose existence is dependent on some other entity type Sometimes referred to as child, dependent or subordinate entities e.g. Next of Kin Strong Entity Type A strong entity is one whose existence is NOT dependent on some other entity type Sometimes referred to as parent, owner or 2 dominant entities 3. Diagrammatic representation of an entity Strong Entity Single Lined Rectangle Weak Entity Double Lined RectangleStaffNext of KinBranch 3 4. Entity sets customer and loan customer-id customer- customer- customername street cityloan- amount number4 5. Attributes An entity is represented by a set of attributes, that is descriptive properties possessed by all members of an entity set. Each entity has a value for each of its attributes. Domain the set of permitted values for each attribute e.g. a range of numbers Entities can be described by a set of (attribute, data value) pairs, one pair for each attribute set. Attribute types: Simple and composite attributes. Single-valued and multi-valued attributes E.g. multivalued attribute: phone-numbers Derived attributes Can be computed from other attributes E.g. age, given date of birth Database System Concepts2Silberschatz, Korth, Sudarshan5 6. Composite AttributeDatabase System Concepts2Silberschatz, Korth, Sudarshan6 7. Entities and attributes Representing entities and their attributes: Rectangles for Entities Ellipses for attributes7 8. Entities and Attributes BANKCUSTOMERACCOUNTName RefNoStatusManager BANKCUSTOMERACCOUNTAddressBranchName AddressBalance AccNo 8 9. Relationship Set A relationship is an association among several entities Example: John customer entitydepositor relationship setA-102 account entity A relationship set is a set of relationships of the same type.9 10. Relationship Set borrower10 11. Relationships A relationship may also have attributes called descriptive attributes. For instance, the depositor relationship set between entity sets customer and account may have the attribute access-date11 12. Degree of relationship sets Refers to number of entity sets that participate in a relationship set. Relationship sets that involve two entity sets are binary (or degree two). Generally, most relationship sets in a database system are binary. Relationship sets may involve more than two entity sets. E.g. Suppose employees of a bank may have jobs (responsibilities) at multiple branches, with different jobs at different branches. Then there is a ternary relationship set between entity sets employee, job and branch Database System Concepts2Silberschatz, Korth, Sudarshan12 13. Constraints Mapping cardinalities Participation constraints13 14. Mapping cardinalities Express the number of entities to which another entity can be associated via a relationship set. Most useful in describing binary relationship sets. For a binary relationship set the mapping cardinality must be one of the following types: One to one One to many Many to one Many to many In reflexive relationships, mapping is between members of the same set. Database System Concepts2Silberschatz, Korth, Sudarshan14 15. Mapping cardinalitiesOne to One to many one Note: Some elements in A and B may not be mapped to any elements in the other set15 16. Mapping cardinalitiesMany to oneMany to manyNote: Some elements in A and B may not be mapped to any elements in the other set16 17. Mapping Cardinalities Affect E-R Design Can make access-date an attribute of account, instead of arelationship attribute, if each account can have only one customer I.e., the relationship from account to customer is many to one,or equivalently, customer to account is one to many17 18. E-R diagrams Rectangles represent entity sets. Diamonds represent relationship sets. Lines link attributes to entity sets and entity sets to relationship sets. Ellipses represent attributes- Double ellipses represent multivalued attributes. - Dashed ellipses denote derived attributes. Underline indicates primary key attributes (will study later) Database System Concepts2Silberschatz, Korth, Sudarshan18 19. E-R diagram with composite, multivalued, and derived attributesDatabase System Concepts2Silberschatz, Korth, Sudarshan19 20. Relationship sets with attributesDatabase System Concepts2Silberschatz, Korth, Sudarshan20 21. Cardinality constraints We express cardinality constraints by drawing either a directed line (), signifying one, or an undirected line (), signifying many, between the relationship set and the entity set. E.g.: One-to-one relationship: A customer is associated with at most one loan via the relationship borrower A loan is associated with at most one customer via borrowerDatabase System Concepts2Silberschatz, Korth, Sudarshan21 22. One-to-many relationship In the one-to-many relationship a loan is associated with at most one customer via borrower, a customer is associated with several (including 0) loans via borrowerDatabase System Concepts2Silberschatz, Korth, Sudarshan22 23. Many-to-one relationship In a many-to-one relationship a loan is associated with several (including 0) customers via borrower, a customer is associated with at most one loan via borrowerDatabase System Concepts2Silberschatz, Korth, Sudarshan23 24. Many-to-many relationship A customer is associated with several (possibly 0) loans via borrower A loan is associated with several (possibly 0) customers via borrower Database System Concepts2Silberschatz, Korth, Sudarshan24 25. Participation of an entity set in a relationship set Total participation (indicated by double line): every entity in the entityset participates in at least one relationship in the relationship set E.g. participation of loan in borrower is total every loan must have a customer associated to it via borrower Partial participation: some entities may not participate in anyrelationship in the relationship set E.g. participation of customer in borrower is partialDatabase System Concepts2Silberschatz, Korth, Sudarshan25 26. Keys A super key of an entity set is a set of one or more attributes whose values uniquely determine each entity. PersonIDFirstNameDOB1SmithRobert01/01/19702JonesRobert01/01/19704SmithHenry01/01/19705 LastNameJonesHenry01/01/1970PersonID (simple key) PersonID + LastName (composite key) PersonID + DOB (composite key) PersonID + LastName + FirstName (composite key) PersonID + LastName + DOB (composite key) PersonID + FirstName + DOB (composite key) PersonID + LastName + FirstName + DOB (composite key) 26 LastName + FirstName + DOB (composite key) 27. Keys A candidate key is a superkey that has no unique subset; it contains no columns that are unnecessary to make it unique PersonID is candidate key of account LastName + FirstName + DOB Although several candidate keys may exist, one of the candidate keys is selected to be the primary key which will uniquely identify each record. It must not be nullable (i.e. can not have the value NULL). It must be unique. It cannot be changed. Any candidate keys we do not select become alternate keys. PersonID (primary key) LastName + FirstName + DOB (alternate key) Database System Concepts2Silberschatz, Korth, Sudarshan27 28. Keys for Relationship Sets The combination of primary keys of the participating entity sets forms a super key of a relationship set. (customer-id, account-number) is the super key of depositor NOTE: this means a pair of entity sets can have at most one relationship in a particular relationship set. E.g. if we wish to track all access-dates to each account by each customer, we cannot assume a relationship for each access. We can use a multivalued attribute though Must consider the mapping cardinality of the relationship set when deciding the what are the candidate keys Need to consider semantics of relationship set in selecting the primary key in case of more than one candidate keyDatabase System Concepts2Silberschatz, Korth, Sudarshan28 29. E-R diagram with a ternary relationship29 30. Cardinality Constraints on Ternary Relationship We allow at most one arrow out of a ternary (or greater degree) relationship to indicate a cardinality constraint E.g. an arrow from works-on to job indicates each employee works on at most one job at any branch. If there is more than one arrow, there are two ways of defining the meaning. E.g a ternary relationship R between A, B and C with arrows to B and C could mean 1. each A entity is associated with a unique entity from B and C or 2. each pair of entities from (A, B) is associated with a unique C entity, and each pair (A, C) is associated with a unique B To avoid confusion we prohibit more than one arrow 30 31. Binary Vs. Non-Binary Relationships Some relationships that appear to be nonbinary may be better represented using binary relationships E.g. A ternary relationship parents, relating a child to his/her father and mother, is best replaced by two binary relationships, father and mother Using two binary relationships allows partial information (e.g. only mother being know) But there are some relationships that are naturally non-binary E.g. works-on 31 32. Converting Non-Binary Relationships to Binary Form Any non-binary relationship can be represented using binary relationships by creating an artificial entity set. Replace R between entity sets A, B and C by an entity set E, and three relationship sets: Create a special identifying attribute for E Add any attributes of R to E For each relationship (ai , bi , ci) in R, create 1. a new entity ei in the entity set E 2. add (ei , ai ) to RA 3. add (ei , bi ) to RB 4. add (ei , ci ) to RC32 33. Design Issues Use of entity sets vs. attributes Choice mainly depends on the structure of the enterprise being modeled, and on the semantics associated with the attribute in question. Use of entity sets vs. relationship sets Possible guideline is to designate a relationship set to describe an action that occurs between entities Binary versus n-ary relationship sets Although it is possible to replace any nonbinary (n-ary, for n &gt; 2) relationship set by a number of distinct binary relationship sets, a n-ary relationship set shows more clearly that several entities participate in a single relationship. Placement of relationship attributes33 34. Should an attribute be an entity? Variable numbers of an Attribute e.g. If an object can have several colours and different objects have different numbers of colours then the colour must be a separate entity. Otherwise there will be blank fields in the database. This can give unexpected entities such as Colour. But: If all the items had multiple colours and each had the same number of colours there would be no need for a separate colour entity.34 35. Should an attribute be an entity? Variable numbers of an AttributeModelMake RegNoCarColour(M) Car RegMakeModelColourP453JKWFerrariTestarossaBlueCV53ABCVauxhallCorsaYellowXX03SAMFordKaRed, Black , white35 36. Should an attribute be an entity? Variable numbers of an Attribute Make RegNoModelCarColour1Colour2RegMakeModelColour1P453JKWFerrariTestarossaBlueCV53ABCVauxhallCorsaYellowXX03SAMFordKaRedColour3Colour2Colour3Blackwhite36 37. Should an attribute be an entity? Variable numbers of an Attribute RegNo CarMakeModel hasName ColourColourCode37 38. Should an attribute be an entity? Optional Attributes e.g. The passport number attribute of a person entity. If attribute is optional, then strictly speaking it should be made an entity.Otherwise there will be blank fields in the database. In practice, if most occurrences of this entity have this attribute (i.e. most people have a passport) then it is commonly left as an attribute. This is a compromise . . . . . . simplicity is being gained at the expense of wasted space in the database. 38 39. Should an attribute be made an entity? Attributes With AttributesIf an attribute has an attribute of its own then it should be made into a separate entity. Otherwise the attributes are interdependent and there is a risk that the database could become inconsistent.39 40. Should an attribute be made an entity? Attributes With Attributese.g. A person entity may have a car type and an engine size as attributes . . . . . . in this case the engine size is really an attribute of the car type. e.g. A persons car type may be changed with the user forgetting to change the engine size . . . this could lead to two people with the same car type but with different engine sizes. 40 41. Should an attribute be made an entity? Repeated, Long Text or Image Attributes Is any long text or image attribute likely to be repeated for different occurrences of the entity? make this attribute into a separate entity referenced by an id number. i.e. A separate table should be created with the text and an associated identity code . . . other tables will then refer to the id code rather than to the text itself. 41 42. Single instance entities Some entities by their nature can only ever have one instance. e.g. The Finance Office, The Government, The Car Pool Other entities may have all instances considered to be identical with no need to distinguish between them. e.g. Backing Store, Member of Public, Train These do not qualify as proper entities! They should not appear in any entity diagram! They will not appear in any data table!42 43. Weak Entity Sets An entity set that does not have a primary key is referred to as a weak entity set. The existence of a weak entity set depends on the existence of a identifying entity set Identifying relationship depicted using a double diamond The identifying relationship is a many-to-one from the weak entity set to the identifying entity set, and the participation of the weak entity set in the relationship is total The discriminator (or partial key) of a weak entity set is the set of attributes that distinguishes among all the entities of a weak entity set. The primary key of a weak entity set is formed by the primary key of the strong entity set on which the weak entity set is existence dependent, plus the weak entity sets discriminator. 43 44. Weak entity sets We depict a weak entity set by double rectangles. We underline the discriminator of a weak entity set with a dashed line. payment-number discriminator of the payment entity set Primary key for payment (loan-number, paymentnumber)44 45. Weak entity sets Note: the primary key of the strong entity set is not explicitly stored with the weak entity set, since it is implici...</p>