Database Design and Implementation
|
|
- Gilbert Newman
- 5 years ago
- Views:
Transcription
1 Database Design and Implementation CS 645 Schema Refinement
2 First Normal Form (1NF) A schema is in 1NF if all tables are flat Student Name GPA Course Student Name GPA Alice 3.8 Bob 3.7 Carol 3.9 Alice 3.8 Math DB Takes Student Course Course Course Bob 3.7 Carol 3.9 OS DB OS Math OS May need to add keys Alice Carol Alice Bob Alice Carol Math Math DB DB OS OS Math DB OS
3 Schema design name Conceptual Model: Patient patient_of Doctor zip name dno Relational Model: plus FDs (FD = Functional Dependency) Normalization: Eliminates anomalies
4 Data anomalies When a database is poorly designed we get anomalies: Redundancy: data is repeated Update anomalies: need to change in several places Delete anomalies: may lose data when we don t want
5 Relational schema design Recall set attributes (persons with several phones): Name SSN PhoneNumber City Fred Amherst Fred Amherst Joe Westfield One person may have multiple phones, but lives in only one city Primary key is thus (SSN, PhoneNumber) The above is in 1NF, but what is the problem with this schema?
6 Relational schema design Recall set attributes (persons with several phones): Name SSN PhoneNumber City Fred Amherst Fred Amherst Joe Westfield Anomalies: Redundancy = repeat data Update anomalies = what if Fred moves to Boston? Deletion anomalies = what if Joe deletes his phone number? (what if Joe had only one phone #)
7 Break the relation into two: Name SSN City Relation decomposition Name SSN PhoneNumber City Fred Amherst Fred Amherst Joe Westfield Fred Amherst Joe Westfield SSN Anomalies have gone: No more repeated data Easy to move Fred to Boston (how?) Easy to delete all Joe s phone numbers (how?) PhoneNumber
8 Relational schema design (logical design) Main idea: Start with some relational schema Find out its functional dependencies (discussed next!) Use them to design a better relational schema
9 Functional Dependencies A form of constraint Hence, part of the schema Finding them is part of the database design Use them to normalize the relations
10 Functional Dependencies (FDs) Definition: If two tuples agree on the attributes A 1, A 2,, A n then they must also agree on the attributes B 1, B 2,, B m Formally: A 1, A 2,, A n à B 1, B 2,, B m Example: streetname à zipcode
11 Example A FD holds, or does not hold on an instance: EmpID Name Phone Position E0045 Smith 1234 Clerk E3542 Mike 9876 Salesrep E1111 Smith 9876 Salesrep E9999 Mary 1234 Lawyer
12 Example A FD holds, or does not hold on an instance: EmpID Name Phone Position E0045 Smith 1234 Clerk E3542 Mike 9876 Salesrep E1111 Smith 9876 Salesrep E9999 Mary 1234 Lawyer Position à Phone
13 Example A FD holds, or does not hold on an instance: EmpID Name Phone Position E0045 Smith 1234 Clerk E3542 Mike 9876 Salesrep E1111 Smith 9876 Salesrep E9999 Mary 1234 Lawyer But not: Phone à Position
14 Example FD s are constraints: On some instances they hold On others they don t name à color category à department color, category à price name category color department price Gizmo Gadget Green Toys 49 Tweaker Gadget Green Toys 99 Does this instance satisfy all the FDs?
15 Example FD s are constraints: On some instances they hold On others they don t name à color category à department color, category à price name category color department price Gizmo Gadget Green Toys 49 Tweaker Gadget Green Toys 99 Gizmo Stationary Blue Supplies 59 What about this one?
16 FDs and anomalies Anomalies occur when certain bad FDs hold How do we know if a bad FD holds?
17 An interesting observation If all these FDs are true: name à color category à department color, category à price Then this FD also holds: name, category à price Why??
18 Deriving all FDs: Armstrong s Rules Splitting and combining A 1, A 2,, A n à B 1 A A 1, A 2,, A n à B 1, B 2,, B 1, A 2,, A n à B 2 m..... A 1, A 2,, A n à B m Trivial A 1, A 2,, A n à A i Transitive A 1,, A n à B 1,, B m B 1,, B m à C 1,, C p A 1,, A n à C 1,, C p
19 Example (continued) Start from the following FDs: Infer the following FDs: 1. name à color 2. category à department 3. color, category à price Inferred FD 4. name, category à name 5. name, category à color 6. name, category à category 7. name, category à color, category 8. name, category à price Which Rule did we apply?
20 Example (continued) Answers: 1. name à color 2. category à department 3. color, category à price Inferred FD 4. name, category à name Trivial Which Rule did we apply? 5. name, category à color Transitivity on 4, 1 6. name, category à category Trivial 7. name, category à color, category Split/combine on 5, 6 8. name, category à price Transitivity on 3, 7 THIS IS TOO HARD! Let s see an easier way.
21 Deriving all FDs: Closure Given a set of attributes A 1,, A n The closure, {A 1,, A n } + = the set of attributes B s.t. A 1,, A n à B Example: name à color category à department color, category à price Closures: name + = {name, color} {name, category} + = {name, category, color, department, price} color + = {color}
22 Closure algorithm X={A 1,, A n }. Repeat until X doesn t change do: if B 1,, B n à C is a FD and B 1,, B n are all in X then add C to X. Example: name à color category à department color, category à price {name, category} + = { name, category, color, department, price } Hence: name, category à color, department, price
23 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B}
24 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B}
25 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C}
26 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C}
27 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C, D}
28 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C, D}
29 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C, D, E}
30 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C, D, E} Compute {A, F} + X = {A, F}
31 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C, D, E} Compute {A, F} + X = {A, F, B}
32 Example In class: R(A,B,C,D,E,F) A, B à C A, D à E B à D A, F à B Compute {A,B} + X = {A, B, C, D, E} Compute {A, F} + X = {A, F, B, C, D, E}
33 Why do we need closure? With closure we can find all FDs easily To check if X A Compute X + Check if A X +
34 Keys A superkey is a set of attributes A 1,..., A n s.t. for any other attribute B, we have A 1,..., A n à B A key is a minimal superkey i.e., set of attributes which is a superkey and for which no subset is a superkey
35 Computing (super)keys Compute X + for all sets X If X + = all attributes, then X is a superkey List only the minimal X s to get the keys
36 Example Product(name, price, category, color) name, category à price category à color What is the key?
37 Example Product(name, price, category, color) name, category à price category à color What is the key? (name, category) + = {name, category, price, color} Hence (name, category) is a key
38 Eliminating anomalies Main idea: X A is OK if X is a (super)key X A is not OK otherwise
39 Example SSN à Name, City Name SSN PhoneNumber City Fred Amherst Fred Amherst Joe Westfield Joe Westfield What is the key? {SSN, PhoneNumber} Hence SSN à Name,City is a bad dependency
40 Boyce-Codd Normal Form (BCNF) A simple condition for removing anomalies from relations: A relation R is in BCNF if: If A 1,..., A n à B is a non-trivial dependency in R, then {A 1,..., A n } is a superkey for R In other words: there are no bad FDs Equivalently: for all X, either (X + = X) or (X + = all attributes)
41 Example (revisited) SSN à Name, City Name SSN City Fred Amherst Joe Westfield SSN PhoneNumber Let s check anomalies: Redundancy? Update? Delete?
42 Decompose into BCNF: Example decomposition Person(name, SSN, age, haircolor, phonenumber) FD1: SSN à name, age FD2: age à haircolor
43 Decompose into BCNF: Example decomposition Person(name, SSN, age, haircolor, phonenumber) FD1: SSN à name, age FD2: age à haircolor What is the key? {SSN, phonenumber} But how to decompose? Person(SSN, name, age) Phone(SSN, haircolor, phonenumber) or Person(SSN, name, age, haircolor) Phone(SSN, phonenumber) SSN à name, age, haircolor or.
44 BCNF decomposition algorithm BCNF_Decompose(R) find X s.t.: X X + [all attributes] if (not found) then R is in BCNF let Y = X + - X let Z = [all attributes] - X + decompose R into R 1 (X Y) and R 2 (X Z) continue to decompose recursively R 1 and R 2
45 Example R(A,B,C,D) A à B B à C R(A,B,C,D) A + = ABC ABCD R 1 (A,B,C) B + = BC ABC R 2 (A,D) R 11 (B,C) R 12 (A,B) What are the keys? What happens if in R we first pick B +? Or AB +?
46 Decompositions in general R(A 1,..., A n, B 1,..., B m, C 1,..., C p ) R 1 (A 1,..., A n, B 1,..., B m ) R 2 (A 1,..., A n, C 1,..., C p ) R 1 = projection of R on A 1,..., A n, B 1,..., B m R 2 = projection of R on A 1,..., A n, C 1,..., C p
47 Theory of decomposition Sometimes it is correct: Name Price Category Gizmo Gadget OneClick Camera Gizmo Camera Name à Price Name Price Name Category Gizmo OneClick Gizmo OneClick Gizmo Gadget Camera Camera Lossless decomposition
48 Incorrect decomposition Sometimes it is not: Name Price Category Gizmo Gadget OneClick Camera Gizmo Camera Name à Price What s incorrect?? Name Category Price Category Gizmo OneClick Gizmo Gadget Camera Camera Gadget Camera Camera Lossy decomposition
49 Decompositions in general R(A 1,..., A n, B 1,..., B m, C 1,..., C p ) R 1 (A 1,..., A n, B 1,..., B m ) R 2 (A 1,..., A n, C 1,..., C p ) If A 1,..., A n à B 1,..., B m Then the decomposition is lossless Note: don t need A 1,..., A n à C 1,..., C p BCNF decomposition is always lossless. WHY?
50 Decompositions in general R(A 1,..., A n, B 1,..., B m, C 1,..., C p ) R 1 (A 1,..., A n, B 1,..., B m ) R 2 (A 1,..., A n, C 1,..., C p ) If A 1,..., A n à B 1,..., B m Then the decomposition is lossless Note: don t need A 1,..., A n à C 1,..., C p BCNF decomposition is always lossless. WHY?
51 General decomposition goals 1. Elimination of anomalies BCNF 2. Recoverability of information Can we get the original relation back? 3. Preservation of dependencies Want to enforce FDs without performing joins 3NF Sometimes cannot decompose into BCNF without losing ability to check some FDs in single relation
52 BCNF and dependencies Unit Company Product Unit à Company Company, Product à Unit So, there is a BCNF violation, and we decompose. Unit Company Unit à Company Unit Product No FDs In BCNF we lose the FD Company, Product à Unit
53 3NF Motivation A relation R is in 3rd normal form if : Whenever there is a nontrivial dep. A 1, A 2,..., A n B for R, then {A 1, A 2,..., A n } is a super-key for R, or B is part of a key. Tradeoffs: BCNF: no anomalies, but may lose some FDs 3NF: keeps all FDs, but may have some anomalies
10/12/10. Outline. Schema Refinements = Normal Forms. First Normal Form (1NF) Data Anomalies. Relational Schema Design
Outline Introduction to Database Systems CSE 444 Design theory: 3.1-3.4 [Old edition: 3.4-3.6] Lectures 6-7: Database Design 1 2 Schema Refinements = Normal Forms 1st Normal Form = all tables are flat
More information11/6/11. Relational Schema Design. Relational Schema Design. Relational Schema Design. Relational Schema Design (or Logical Design)
Relational Schema Design Introduction to Management CSE 344 Lectures 16: Database Design Conceptual Model: Relational Model: plus FD s name Product buys Person price name ssn Normalization: Eliminates
More information11/1/12. Relational Schema Design. Relational Schema Design. Relational Schema Design. Relational Schema Design (or Logical Design)
Relational Schema Design Introduction to Management CSE 344 Lectures 16: Database Design Conceptual Model: Relational Model: plus FD s name Product buys Person price name ssn Normalization: Eliminates
More informationCSE 303: Database. Outline. Lecture 10. First Normal Form (1NF) First Normal Form (1NF) 10/1/2016. Chapter 3: Design Theory of Relational Database
CSE 303: Database Lecture 10 Chapter 3: Design Theory of Relational Database Outline 1st Normal Form = all tables attributes are atomic 2nd Normal Form = obsolete Boyce Codd Normal Form = will study 3rd
More informationPractice and Applications of Data Management CMPSCI 345. Lecture 16: Schema Design and Normalization
Practice and Applications of Data Management CMPSCI 345 Lecture 16: Schema Design and Normalization Keys } A superkey is a set of a/ributes A 1,..., A n s.t. for any other a/ribute B, we have A 1,...,
More informationCSE 344 MAY 16 TH NORMALIZATION
CSE 344 MAY 16 TH NORMALIZATION ADMINISTRIVIA HW6 Due Tonight Prioritize local runs OQ6 Out Today HW7 Out Today E/R + Normalization Exams In my office; Regrades through me DATABASE DESIGN PROCESS Conceptual
More informationCSE 344 AUGUST 3 RD NORMALIZATION
CSE 344 AUGUST 3 RD NORMALIZATION ADMINISTRIVIA WQ6 due Monday DB design HW7 due next Wednesday DB design normalization DATABASE DESIGN PROCESS Conceptual Model: name product makes company price name address
More informationCSE 544 Principles of Database Management Systems
CSE 544 Principles of Database Management Systems Lecture 3 Schema Normalization CSE 544 - Winter 2018 1 Announcements Project groups due on Friday First review due on Tuesday (makeup lecture) Run git
More informationPractice and Applications of Data Management CMPSCI 345. Lecture 15: Functional Dependencies
Practice and Applications of Data Management CMPSCI 345 Lecture 15: Functional Dependencies First Normal Form (1NF) } A database schema is in First Normal Form if all tables are flat Student Student Name
More informationIntroduction to Data Management CSE 344
Introduction to Data Management CSE 344 Lectures 18: BCNF 1 What makes good schemas? 2 Review: Relation Decomposition Break the relation into two: Name SSN PhoneNumber City Fred 123-45-6789 206-555-1234
More informationIntroduction to Management CSE 344
Introduction to Management CSE 344 Lectures 17: Design Theory 1 Announcements No class/office hour on Monday Midterm on Wednesday (Feb 19) in class HW5 due next Thursday (Feb 20) No WQ next week (WQ6 due
More informationSchema Refinement. Feb 4, 2010
Schema Refinement Feb 4, 2010 1 Relational Schema Design Conceptual Design name Product buys Person price name ssn ER Model Logical design Relational Schema plus Integrity Constraints Schema Refinement
More informationCMPT 354: Database System I. Lecture 9. Design Theory
CMPT 354: Database System I Lecture 9. Design Theory 1 Design Theory Design theory is about how to represent your data to avoid anomalies. Design 1 Design 2 Student Course Room Mike 354 AQ3149 Mary 354
More informationDesign Theory. Design Theory I. 1. Normal forms & functional dependencies. Today s Lecture. 1. Normal forms & functional dependencies
Design Theory BBM471 Database Management Systems Dr. Fuat Akal akal@hacettepe.edu.tr Design Theory I 2 Today s Lecture 1. Normal forms & functional dependencies 2. Finding functional dependencies 3. Closures,
More informationLectures 6. Lecture 6: Design Theory
Lectures 6 Lecture 6: Design Theory Lecture 6 Announcements Solutions to PS1 are posted online. Grades coming soon! Project part 1 is out. Check your groups and let us know if you have any issues. We have
More informationIntroduction to Database Systems CSE 414. Lecture 20: Design Theory
Introduction to Database Systems CSE 414 Lecture 20: Design Theory CSE 414 - Spring 2018 1 Class Overview Unit 1: Intro Unit 2: Relational Data Models and Query Languages Unit 3: Non-relational data Unit
More informationSCHEMA NORMALIZATION. CS 564- Fall 2015
SCHEMA NORMALIZATION CS 564- Fall 2015 HOW TO BUILD A DB APPLICATION Pick an application Figure out what to model (ER model) Output: ER diagram Transform the ER diagram to a relational schema Refine the
More informationCSC 261/461 Database Systems Lecture 10 (part 2) Spring 2018
CSC 261/461 Database Systems Lecture 10 (part 2) Spring 2018 Announcement Read Chapter 14 and 15 You must self-study these chapters Too huge to cover in Lectures Project 2 Part 1 due tonight Agenda 1.
More informationCSC 261/461 Database Systems Lecture 8. Spring 2017 MW 3:25 pm 4:40 pm January 18 May 3 Dewey 1101
CSC 261/461 Database Systems Lecture 8 Spring 2017 MW 3:25 pm 4:40 pm January 18 May 3 Dewey 1101 Agenda 1. Database Design 2. Normal forms & functional dependencies 3. Finding functional dependencies
More informationCSC 261/461 Database Systems Lecture 11
CSC 261/461 Database Systems Lecture 11 Fall 2017 Announcement Read the textbook! Chapter 8: Will cover later; But self-study the chapter Everything except Section 8.4 Chapter 14: Section 14.1 14.5 Chapter
More informationCSC 261/461 Database Systems Lecture 13. Spring 2018
CSC 261/461 Database Systems Lecture 13 Spring 2018 BCNF Decomposition Algorithm BCNFDecomp(R): Find X s.t.: X + X and X + [all attributes] if (not found) then Return R let Y = X + - X, Z = (X + ) C decompose
More informationL14: Normalization. CS3200 Database design (sp18 s2) 3/1/2018
L14: Normalization CS3200 Database design (sp18 s2) https://course.ccs.neu.edu/cs3200sp18s2/ 3/1/2018 367 Announcements! Keep bringing your name plates J Outline today - More Normalization - Project 1
More informationCSE 344 AUGUST 6 TH LOSS AND VIEWS
CSE 344 AUGUST 6 TH LOSS AND VIEWS ADMINISTRIVIA WQ6 due tonight HW7 due Wednesday DATABASE DESIGN PROCESS Conceptual Model: name product makes company price name address Relational Model: Tables + constraints
More informationL13: Normalization. CS3200 Database design (sp18 s2) 2/26/2018
L13: Normalization CS3200 Database design (sp18 s2) https://course.ccs.neu.edu/cs3200sp18s2/ 2/26/2018 274 Announcements! Keep bringing your name plates J Page Numbers now bigger (may change slightly)
More informationCSC 261/461 Database Systems Lecture 12. Spring 2018
CSC 261/461 Database Systems Lecture 12 Spring 2018 Announcement Project 1 Milestone 2 due tonight! Read the textbook! Chapter 8: Will cover later; But self-study the chapter Chapter 14: Section 14.1 14.5
More informationSchema Refinement and Normal Forms
Schema Refinement and Normal Forms UMass Amherst Feb 14, 2007 Slides Courtesy of R. Ramakrishnan and J. Gehrke, Dan Suciu 1 Relational Schema Design Conceptual Design name Product buys Person price name
More informationDECOMPOSITION & SCHEMA NORMALIZATION
DECOMPOSITION & SCHEMA NORMALIZATION CS 564- Spring 2018 ACKs: Dan Suciu, Jignesh Patel, AnHai Doan WHAT IS THIS LECTURE ABOUT? Bad schemas lead to redundancy To correct bad schemas: decompose relations
More informationDesign Theory for Relational Databases
Design Theory for Relational Databases FUNCTIONAL DEPENDENCIES DECOMPOSITIONS NORMAL FORMS 1 Functional Dependencies X ->Y is an assertion about a relation R that whenever two tuples of R agree on all
More informationUVA UVA UVA UVA. Database Design. Relational Database Design. Functional Dependency. Loss of Information
Relational Database Design Database Design To generate a set of relation schemas that allows - to store information without unnecessary redundancy - to retrieve desired information easily Approach - design
More informationDesign Theory for Relational Databases. Spring 2011 Instructor: Hassan Khosravi
Design Theory for Relational Databases Spring 2011 Instructor: Hassan Khosravi Chapter 3: Design Theory for Relational Database 3.1 Functional Dependencies 3.2 Rules About Functional Dependencies 3.3 Design
More informationDESIGN THEORY FOR RELATIONAL DATABASES. csc343, Introduction to Databases Renée J. Miller and Fatemeh Nargesian and Sina Meraji Winter 2018
DESIGN THEORY FOR RELATIONAL DATABASES csc343, Introduction to Databases Renée J. Miller and Fatemeh Nargesian and Sina Meraji Winter 2018 1 Introduction There are always many different schemas for a given
More informationRelational Database Design
Relational Database Design Jan Chomicki University at Buffalo Jan Chomicki () Relational database design 1 / 16 Outline 1 Functional dependencies 2 Normal forms 3 Multivalued dependencies Jan Chomicki
More informationDesign Theory for Relational Databases
Design Theory for Relational Databases Keys: formal definition K is a superkey for relation R if K functionally determines all attributes of R K is a key for R if K is a superkey, but no proper subset
More informationIntroduction to Data Management CSE 344
Introduction to Data Management CSE 344 Lecture 18: Design Theory Wrap-up 1 Announcements WQ6 is due on Tuesday Homework 6 is due on Thursday Be careful about your remaining late days. Today: Midterm review
More informationFUNCTIONAL DEPENDENCY THEORY. CS121: Relational Databases Fall 2017 Lecture 19
FUNCTIONAL DEPENDENCY THEORY CS121: Relational Databases Fall 2017 Lecture 19 Last Lecture 2 Normal forms specify good schema patterns First normal form (1NF): All attributes must be atomic Easy in relational
More informationChapter 3 Design Theory for Relational Databases
1 Chapter 3 Design Theory for Relational Databases Contents Functional Dependencies Decompositions Normal Forms (BCNF, 3NF) Multivalued Dependencies (and 4NF) Reasoning About FD s + MVD s 2 Remember our
More informationFunctional Dependency Theory II. Winter Lecture 21
Functional Dependency Theory II Winter 2006-2007 Lecture 21 Last Time Introduced Third Normal Form A weakened version of BCNF that preserves more functional dependencies Allows non-trivial dependencies
More informationLossless Joins, Third Normal Form
Lossless Joins, Third Normal Form FCDB 3.4 3.5 Dr. Chris Mayfield Department of Computer Science James Madison University Mar 19, 2018 Decomposition wish list 1. Eliminate redundancy and anomalies 2. Recover
More informationIntroduction. Normalization. Example. Redundancy. What problems are caused by redundancy? What are functional dependencies?
Normalization Introduction What problems are caused by redundancy? UVic C SC 370 Dr. Daniel M. German Department of Computer Science What are functional dependencies? What are normal forms? What are the
More informationConstraints: Functional Dependencies
Constraints: Functional Dependencies Spring 2018 School of Computer Science University of Waterloo Databases CS348 (University of Waterloo) Functional Dependencies 1 / 32 Schema Design When we get a relational
More informationINF1383 -Bancos de Dados
INF1383 -Bancos de Dados Prof. Sérgio Lifschitz DI PUC-Rio Eng. Computação, Sistemas de Informação e Ciência da Computação Projeto de BD e Formas Normais Alguns slides são baseados ou modificados dos originais
More informationCS322: Database Systems Normalization
CS322: Database Systems Normalization Dr. Manas Khatua Assistant Professor Dept. of CSE IIT Jodhpur E-mail: manaskhatua@iitj.ac.in Introduction The normalization process takes a relation schema through
More informationCS54100: Database Systems
CS54100: Database Systems Keys and Dependencies 18 January 2012 Prof. Chris Clifton Functional Dependencies X A = assertion about a relation R that whenever two tuples agree on all the attributes of X,
More informationFUNCTIONAL DEPENDENCY THEORY II. CS121: Relational Databases Fall 2018 Lecture 20
FUNCTIONAL DEPENDENCY THEORY II CS121: Relational Databases Fall 2018 Lecture 20 Canonical Cover 2 A canonical cover F c for F is a set of functional dependencies such that: F logically implies all dependencies
More informationChapter 3 Design Theory for Relational Databases
1 Chapter 3 Design Theory for Relational Databases Contents Functional Dependencies Decompositions Normal Forms (BCNF, 3NF) Multivalued Dependencies (and 4NF) Reasoning About FD s + MVD s 2 Our example
More informationDatabases 2012 Normalization
Databases 2012 Christian S. Jensen Computer Science, Aarhus University Overview Review of redundancy anomalies and decomposition Boyce-Codd Normal Form Motivation for Third Normal Form Third Normal Form
More informationRelational Design Theory
Relational Design Theory CSE462 Database Concepts Demian Lessa/Jan Chomicki Department of Computer Science and Engineering State University of New York, Buffalo Fall 2013 Overview How does one design a
More informationConstraints: Functional Dependencies
Constraints: Functional Dependencies Fall 2017 School of Computer Science University of Waterloo Databases CS348 (University of Waterloo) Functional Dependencies 1 / 42 Schema Design When we get a relational
More informationNormalization. October 5, Chapter 19. CS445 Pacific University 1 10/05/17
Normalization October 5, 2017 Chapter 19 Pacific University 1 Description A Real Estate agent wants to track offers made on properties. Each customer has a first and last name. Each property has a size,
More informationSchema Refinement and Normal Forms. The Evils of Redundancy. Schema Refinement. Yanlei Diao UMass Amherst April 10, 2007
Schema Refinement and Normal Forms Yanlei Diao UMass Amherst April 10, 2007 Slides Courtesy of R. Ramakrishnan and J. Gehrke 1 The Evils of Redundancy Redundancy is at the root of several problems associated
More informationSchema Refinement & Normalization Theory
Schema Refinement & Normalization Theory Functional Dependencies Week 13 1 What s the Problem Consider relation obtained (call it SNLRHW) Hourly_Emps(ssn, name, lot, rating, hrly_wage, hrs_worked) What
More informationCS122A: Introduction to Data Management. Lecture #13: Relational DB Design Theory (II) Instructor: Chen Li
CS122A: Introduction to Data Management Lecture #13: Relational DB Design Theory (II) Instructor: Chen Li 1 Third Normal Form (3NF) v Relation R is in 3NF if it is in 2NF and it has no transitive dependencies
More informationInformation Systems for Engineers. Exercise 8. ETH Zurich, Fall Semester Hand-out Due
Information Systems for Engineers Exercise 8 ETH Zurich, Fall Semester 2017 Hand-out 24.11.2017 Due 01.12.2017 1. (Exercise 3.3.1 in [1]) For each of the following relation schemas and sets of FD s, i)
More informationSchema Refinement and Normal Forms
Schema Refinement and Normal Forms Chapter 19 Quiz #2 Next Thursday Comp 521 Files and Databases Fall 2012 1 The Evils of Redundancy v Redundancy is at the root of several problems associated with relational
More informationRelational Design Theory II. Detecting Anomalies. Normal Forms. Normalization
Relational Design Theory II Normalization Detecting Anomalies SID Activity Fee Tax 1001 Piano $20 $2.00 1090 Swimming $15 $1.50 1001 Swimming $15 $1.50 Why is this bad design? Can we capture this using
More informationNormal Forms. Dr Paolo Guagliardo. University of Edinburgh. Fall 2016
Normal Forms Dr Paolo Guagliardo University of Edinburgh Fall 2016 Example of bad design BAD Title Director Theatre Address Time Price Inferno Ron Howard Vue Omni Centre 20:00 11.50 Inferno Ron Howard
More informationSchema Refinement. Yanlei Diao UMass Amherst. Slides Courtesy of R. Ramakrishnan and J. Gehrke
Schema Refinement Yanlei Diao UMass Amherst Slides Courtesy of R. Ramakrishnan and J. Gehrke 1 Revisit a Previous Example ssn name Lot Employees rating hourly_wages hours_worked ISA contractid Hourly_Emps
More informationRelational Database Design Theory Part II. Announcements (October 12) Review. CPS 116 Introduction to Database Systems
Relational Database Design Theory Part II CPS 116 Introduction to Database Systems Announcements (October 12) 2 Midterm graded; sample solution available Please verify your grades on Blackboard Project
More informationNormal Forms (ii) ICS 321 Fall Asst. Prof. Lipyeow Lim Information & Computer Science Department University of Hawaii at Manoa
ICS 321 Fall 2012 Normal Forms (ii) Asst. Prof. Lipyeow Lim Information & Computer Science Department University of Hawaii at Manoa 9/12/2012 Lipyeow Lim -- University of Hawaii at Manoa 1 Hourly_Emps
More informationDatabase Design and Normalization
Database Design and Normalization Chapter 11 (Week 12) EE562 Slides and Modified Slides from Database Management Systems, R. Ramakrishnan 1 1NF FIRST S# Status City P# Qty S1 20 London P1 300 S1 20 London
More informationIntroduction to Data Management. Lecture #7 (Relational DB Design Theory II)
Introduction to Data Management Lecture #7 (Relational DB Design Theory II) Instructor: Mike Carey mjcarey@ics.uci.edu Database Management Systems 3ed, R. Ramakrishnan and J. Gehrke 1 Announcements v Homework
More informationSchema Refinement and Normal Forms
Schema Refinement and Normal Forms Chapter 19 Database Management Systems, 3ed, R. Ramakrishnan and J. Gehrke 1 The Evils of Redundancy Redundancy is at the root of several problems associated with relational
More informationDesign theory for relational databases
Design theory for relational databases 1. Consider a relation with schema R(A,B,C,D) and FD s AB C, C D and D A. a. What are all the nontrivial FD s that follow from the given FD s? You should restrict
More informationDatabase Design: Normal Forms as Quality Criteria. Functional Dependencies Normal Forms Design and Normal forms
Database Design: Normal Forms as Quality Criteria Functional Dependencies Normal Forms Design and Normal forms Design Quality: Introduction Good conceptual model: - Many alternatives - Informal guidelines
More informationRelational Database Design
CSL 451 Introduction to Database Systems Relational Database Design Department of Computer Science and Engineering Indian Institute of Technology Ropar Narayanan (CK) Chatapuram Krishnan! Recap - Boyce-Codd
More informationThe Evils of Redundancy. Schema Refinement and Normalization. Functional Dependencies (FDs) Example: Constraints on Entity Set. Refining an ER Diagram
The Evils of Redundancy Schema Refinement and Normalization Chapter 1 Nobody realizes that some people expend tremendous energy merely to be normal. Albert Camus Redundancy is at the root of several problems
More informationSchema Refinement and Normal Forms
Schema Refinement and Normal Forms Yanlei Diao UMass Amherst April 10 & 15, 2007 Slides Courtesy of R. Ramakrishnan and J. Gehrke 1 Case Study: The Internet Shop DBDudes Inc.: a well-known database consulting
More informationNormal Forms 1. ICS 321 Fall Asst. Prof. Lipyeow Lim Information & Computer Science Department University of Hawaii at Manoa
ICS 321 Fall 2013 Normal Forms 1 Asst. Prof. Lipyeow Lim Information & Computer Science Department University of Hawaii at Manoa 9/16/2013 Lipyeow Lim -- University of Hawaii at Manoa 1 The Problem with
More informationFunctional Dependencies and Normalization. Instructor: Mohamed Eltabakh
Functional Dependencies and Normalization Instructor: Mohamed Eltabakh meltabakh@cs.wpi.edu 1 Goal Given a database schema, how do you judge whether or not the design is good? How do you ensure it does
More informationSchema Refinement and Normal Forms. Case Study: The Internet Shop. Redundant Storage! Yanlei Diao UMass Amherst November 1 & 6, 2007
Schema Refinement and Normal Forms Yanlei Diao UMass Amherst November 1 & 6, 2007 Slides Courtesy of R. Ramakrishnan and J. Gehrke 1 Case Study: The Internet Shop DBDudes Inc.: a well-known database consulting
More informationFunctional Dependency and Algorithmic Decomposition
Functional Dependency and Algorithmic Decomposition In this section we introduce some new mathematical concepts relating to functional dependency and, along the way, show their practical use in relational
More informationLecture #7 (Relational Design Theory, cont d.)
Introduction to Data Management Lecture #7 (Relational Design Theory, cont d.) Instructor: Mike Carey mjcarey@ics.uci.edu Database Management Systems 3ed, R. Ramakrishnan and J. Gehrke 1 Announcements
More informationFunctional Dependencies. Applied Databases. Not all designs are equally good! An example of the bad design
Applied Databases Handout 2a. Functional Dependencies and Normal Forms 20 Oct 2008 Functional Dependencies This is the most mathematical part of the course. Functional dependencies provide an alternative
More informationThe Evils of Redundancy. Schema Refinement and Normal Forms. Example: Constraints on Entity Set. Functional Dependencies (FDs) Example (Contd.
The Evils of Redundancy Schema Refinement and Normal Forms Chapter 19 Database Management Systems, 3ed, R. Ramakrishnan and J. Gehrke 1 Redundancy is at the root of several problems associated with relational
More informationThe Evils of Redundancy. Schema Refinement and Normal Forms. Example: Constraints on Entity Set. Functional Dependencies (FDs) Refining an ER Diagram
Schema Refinement and Normal Forms Chapter 19 Database Management Systems, R. Ramakrishnan and J. Gehrke 1 The Evils of Redundancy Redundancy is at the root of several problems associated with relational
More informationInformation Systems (Informationssysteme)
Information Systems (Informationssysteme) Jens Teubner, TU Dortmund jens.teubner@cs.tu-dortmund.de Summer 2015 c Jens Teubner Information Systems Summer 2015 1 Part VII Schema Normalization c Jens Teubner
More informationSchema Refinement and Normal Forms Chapter 19
Schema Refinement and Normal Forms Chapter 19 Instructor: Vladimir Zadorozhny vladimir@sis.pitt.edu Information Science Program School of Information Sciences, University of Pittsburgh Database Management
More informationSchema Refinement and Normal Forms. The Evils of Redundancy. Functional Dependencies (FDs) [R&G] Chapter 19
Schema Refinement and Normal Forms [R&G] Chapter 19 CS432 1 The Evils of Redundancy Redundancy is at the root of several problems associated with relational schemas: redundant storage, insert/delete/update
More informationChapter 8: Relational Database Design
Chapter 8: Relational Database Design Database System Concepts, 6 th Ed. See www.db-book.com for conditions on re-use Chapter 8: Relational Database Design Features of Good Relational Design Atomic Domains
More informationThe Evils of Redundancy. Schema Refinement and Normal Forms. Functional Dependencies (FDs) Example: Constraints on Entity Set. Example (Contd.
The Evils of Redundancy Schema Refinement and Normal Forms INFO 330, Fall 2006 1 Redundancy is at the root of several problems associated with relational schemas: redundant storage, insert/delete/update
More informationReview: Keys. What is a Functional Dependency? Why use Functional Dependencies? Functional Dependency Properties
Review: Keys Superkey: set of attributes whose values are unique for each tuple Note: a superkey isn t necessarily minimal. For example, for any relation, the entire set of attributes is always a superkey.
More informationCS 4604: Introduc0on to Database Management Systems. B. Aditya Prakash Lecture #15: BCNF, 3NF and Normaliza:on
CS 4604: Introduc0on to Database Management Systems B. Aditya Prakash Lecture #15: BCNF, 3NF and Normaliza:on Overview - detailed DB design and normaliza:on pi?alls of bad design decomposi:on normal forms
More informationSchema Refinement and Normal Forms. Why schema refinement?
Schema Refinement and Normal Forms Why schema refinement? Consider relation obtained from Hourly_Emps: Hourly_Emps (sin,rating,hourly_wages,hourly_worked) Problems: Update Anomaly: Can we change the wages
More informationSchema Refinement and Normal Forms. The Evils of Redundancy. Functional Dependencies (FDs) CIS 330, Spring 2004 Lecture 11 March 2, 2004
Schema Refinement and Normal Forms CIS 330, Spring 2004 Lecture 11 March 2, 2004 1 The Evils of Redundancy Redundancy is at the root of several problems associated with relational schemas: redundant storage,
More informationCS 464/564 Introduction to Database Management System Instructor: Abdullah Mueen
CS 464/564 Introduction to Database Management System Instructor: Abdullah Mueen LECTURE 4: DESIGN THEORIES (FUNCTIONAL DEPENDENCIES) Design theory E/R diagrams are high-level design Formal theory for
More informationSchema Refinement and Normal Forms. Chapter 19
Schema Refinement and Normal Forms Chapter 19 1 Review: Database Design Requirements Analysis user needs; what must the database do? Conceptual Design high level descr. (often done w/er model) Logical
More informationIntroduction to Data Management. Lecture #6 (Relational DB Design Theory)
Introduction to Data Management Lecture #6 (Relational DB Design Theory) Instructor: Mike Carey mjcarey@ics.uci.edu Database Management Systems 3ed, R. Ramakrishnan and J. Gehrke 1 Announcements v Homework
More informationChapter 7: Relational Database Design
Chapter 7: Relational Database Design Chapter 7: Relational Database Design! First Normal Form! Pitfalls in Relational Database Design! Functional Dependencies! Decomposition! Boyce-Codd Normal Form! Third
More informationChapter 7: Relational Database Design. Chapter 7: Relational Database Design
Chapter 7: Relational Database Design Chapter 7: Relational Database Design First Normal Form Pitfalls in Relational Database Design Functional Dependencies Decomposition Boyce-Codd Normal Form Third Normal
More informationCS 186, Fall 2002, Lecture 6 R&G Chapter 15
Schema Refinement and Normalization CS 186, Fall 2002, Lecture 6 R&G Chapter 15 Nobody realizes that some people expend tremendous energy merely to be normal. Albert Camus Functional Dependencies (Review)
More informationChapter 10. Normalization Ext (from E&N and my editing)
Chapter 10 Normalization Ext (from E&N and my editing) Outline BCNF Multivalued Dependencies and Fourth Normal Form 2 BCNF A relation schema R is in Boyce-Codd Normal Form (BCNF) if whenever an FD X ->
More informationSchema Refinement & Normalization Theory: Functional Dependencies INFS-614 INFS614, GMU 1
Schema Refinement & Normalization Theory: Functional Dependencies INFS-614 INFS614, GMU 1 Background We started with schema design ER model translation into a relational schema Then we studied relational
More informationCSE 132B Database Systems Applications
CSE 132B Database Systems Applications Alin Deutsch Database Design and Normal Forms Some slides are based or modified from originals by Sergio Lifschitz @ PUC Rio, Brazil and Victor Vianu @ CSE UCSD and
More informationFunctional Dependencies & Normalization. Dr. Bassam Hammo
Functional Dependencies & Normalization Dr. Bassam Hammo Redundancy and Normalisation Redundant Data Can be determined from other data in the database Leads to various problems INSERT anomalies UPDATE
More informationRelational Design: Characteristics of Well-designed DB
Relational Design: Characteristics of Well-designed DB 1. Minimal duplication Consider table newfaculty (Result of F aculty T each Course) Id Lname Off Bldg Phone Salary Numb Dept Lvl MaxSz 20000 Cotts
More informationFunctional Dependencies
Functional Dependencies Functional Dependencies Framework for systematic design and optimization of relational schemas Generalization over the notion of Keys Crucial in obtaining correct normalized schemas
More informationA few details using Armstrong s axioms. Supplement to Normalization Lecture Lois Delcambre
A few details using Armstrong s axioms Supplement to Normalization Lecture Lois Delcambre 1 Armstrong s Axioms with explanation and examples Reflexivity: If X Y, then X Y. (identity function is a function)
More informationIntroduction to Data Management. Lecture #6 (Relational Design Theory)
Introduction to Data Management Lecture #6 (Relational Design Theory) Instructor: Mike Carey mjcarey@ics.uci.edu Database Management Systems 3ed, R. Ramakrishnan and J. Gehrke 1 Announcements v HW#2 is
More informationSchema Refinement: Other Dependencies and Higher Normal Forms
Schema Refinement: Other Dependencies and Higher Normal Forms Spring 2018 School of Computer Science University of Waterloo Databases CS348 (University of Waterloo) Higher Normal Forms 1 / 14 Outline 1
More informationFunctional Dependencies and Normalization
Functional Dependencies and Normalization There are many forms of constraints on relational database schemata other than key dependencies. Undoubtedly most important is the functional dependency. A functional
More information