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INFO-H-415: Advanced Databases
Lecturer
Teaching Assistant
Volume
Study Programme
Master in Computer Science and Engineering [MA-IRIF]
Master in Computer Sciences [INFO]
Erasmus Mundus Master in Information Technologies for Business Intelligence (IT4BI)
Schedule
The course is given during the first semester on Tuesdays and Wednesdays from 8 am to 10 am.
Schedule
Objectives
Today, databases are moving away from typical management applications, and address new application areas. For this, databases must consider (1) recent developments in computer technology, as the object paradigm and distribution, and (2) management of new data types such as spatial or temporal data. This course introduces the concepts and techniques of some innovative database applications.
Content
Active Databases
Taxonomy of concepts. Applications of active databases: integrity maintenance, derived data, replication. Design of active databases: termination, confluence, determinism, modularisation.
Temporal Databases
Temporal data and applications. Time ontology. Conceptual modeling of temporal aspects. Manipulation of temporal data with standard SQL.
Object Databases
Object-oriented model. Object Persistance. ODMG standard: Object Definition Language and Object Query Language.
Spatial Databases
Spatial data and applications. Space ontology. Conceptual modeling of spatial aspects. Manipulation of spatial data with standard SQL.
Deductive Databases
The Datalog langage. Translation of Datalog into relational algebra. Bottom-up semantics. Top-down semantics. Recursive views in standard SQL.
XML Databases
The XQuery language. Basis of the language. Base expressions. XPath expressions. New attributes and elements. FLWOR expressions. Ordering and grouping. Functions. Updates.
Reference Books
C. Zaniolo et al., Advanced Database Systems, Morgan Kaufmann, 1997
R.T. Snodgrass, Developing Time-Oriented Database Applications in SQL, Morgan Kaufmann, 2000 (
version pdf)
R.G.G. Cattel et al., The Object Database Standard: ODMG 3.0, Morgan Kaufmann, 2000
Priscilla Walmsley, XQuery, O'Reilly, 2007
Jim Melton and Alan R. Simon, SQL: 1999 - Understanding Relational Language Components, Morgan Kaufmann, 2001
Jim Melton, Advanced SQL: 1999 - Understanding Object-Relational and Other Advanced Features, Morgan Kaufmann, 2002
Jim Melton, Stephen Buxton, Querying XML: XQuery, XPath, and SQL/XML in context, Morgan Kaufmann, 2006
Other Books
S. Ceri, P. Fraternali, Designing Database Applications with Object and Rules: The IDEA Methodology, Addison Wesley, 1997
R.T. Snodgrass, The TSQL2 Temporal Query Language, Kluwer Academic Publishers, 1995
R.M. Colomb, Deductive Databases and their Applications, Taylor & Francis, 1998
Additional documentation
Norman W. Paton, Oscar Díaz, Active Database Systems, ACM Computer Surveys, 31(1): 63-103, 1999. (
version pdf)
E. Zimányi, Temporal Aggregates and Temporal Universal Quantifiers in Standard SQL, SIGMOD Record, 35(2):16-21, 2006. (
version pdf)
Links
Course Slides
Exercises
Project
Students, in groups of two, will realize a project in a topic relevant to advanced databases. Examples of topics are:
Active databases
Temporal databases
Deductive databases
Object databases
Object-relational databases
Spatial databases
Multimedia databases
Distributed databases
Semi-structured or XML databases
Grid databases
Cloud databases
NoSQL databases: HyperTable, Cassandra, ….
Object persistance: Hibernate, Java Data Objects, …
Each group will study a database technology and illustrate it with an application developed in a database management system to be chosen (e.g., Oracle, PostgreSQL, DB2, SQL Server, mySQL, etc..).
The topic should be addressed in a technical way, to explain the underlying technologies. The application must use the specific technology manipulated.
The choice of topic and the application must be made in agreement with the lecturer. The topic should not be included in the programme of the Master in Computer Science and Engineering. The project will be presented to the lecturer and the fellow students at the end of the semester. This presentation will be supported by a slideshow. A written report containing the contents of the presentation is also required. The presentation and written report will explain the possibilities offered by the database management system chosen and give a general description of the application implemented.
The evaluation of the project focuses on the following criteria:
Quality of the presentation,
Master of the topic presented, and
Quality of written report.
The project will count for 25% of the final grade.
Projects of the Academic Year 2012-2013
Topics chosen for this academic year:
Cloud databases with Azure: Suryamita Harindrari, Janani Chakkaradhari
NoSQL key-value databases: Milan Milojević, Paul Ashaolu
Wide column store databases: Silvia Julinda, Navid Mahlouji
Active databases in Oracle: Stephany Garcia, Edgar Isaac Leon Saiki
Object databases with Caché: Ivan Popov, Prateek Gaur
Distributed databases with SQL Server: Wei Jia, Dai Shi
Temporal databases with PostgreSQL: Sahilu Wendeson, Sedem Seakomo
Examinations from Previous Years
Academic year 2008-2009
Academic year 2007-2008
Academic year 2006-2007
Academic year 2002-2003
Academic year 2001-2002
Academic year 2000-2001