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teaching:infoh415 [2020/10/13 11:19] ezimanyi [Topics for the current academic year] |
teaching:infoh415 [2021/08/20 21:52] ezimanyi [Links] |
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| The course is given during the first semester | The course is given during the first semester | ||
| - | * Lectures on Mondays from 4 pm to 6 pm at the room S.AY2.108 **except 14/10/2019 which is a practical session in S.UB4.130** | + | * Lectures on Mondays from 4 pm to 6 pm |
| - | * Exercises on Thursdays from 2 pm to 4 pm at the room S.UB4.130 <del>**except 24/10/2019 which is a lecture in S.UD2.119** | + | * Exercises on Thursdays from 2 pm to 4 pm |
| - | </del> | + | |
| /* | /* | ||
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| * [[http://timecenter.cs.aau.dk/|TimeCenter]], an international research centre for temporal databases. | * [[http://timecenter.cs.aau.dk/|TimeCenter]], an international research centre for temporal databases. | ||
| * [[http://www.timeconsult.com/Software/Software.html|TimeDB]], a temporal relational database | * [[http://www.timeconsult.com/Software/Software.html|TimeDB]], a temporal relational database | ||
| + | * Spatial databases | ||
| + | * [[https://postgis.net/workshops/postgis-intro/|Introduction to PostGIS]] | ||
| + | * Spatio-temporal (or mobility) databases | ||
| + | * [[https://mobilitydb.com/|MobilityDB]] | ||
| * Object databases | * Object databases | ||
| * [[http://www.odbms.org/|ODBMS.ORG]], portal of ressources about object databases. | * [[http://www.odbms.org/|ODBMS.ORG]], portal of ressources about object databases. | ||
| - | * [[http://www.db4o.com/|db4o]], an open source object database. | ||
| * [[http://www.objectstore.com/datasheet/index.ssp|ObjectStore]], an object database | * [[http://www.objectstore.com/datasheet/index.ssp|ObjectStore]], an object database | ||
| * [[http://www.objectivity.com|Objectivity]], an object database | * [[http://www.objectivity.com|Objectivity]], an object database | ||
| - | * [[http://www.versant.com/|Versant]], an object database | ||
| * [[http://www.jade.co.nz/jade/|Jade]], an object database | * [[http://www.jade.co.nz/jade/|Jade]], an object database | ||
| * [[http://sourceforge.net/projects/ozone/|Ozone]], an object database | * [[http://sourceforge.net/projects/ozone/|Ozone]], an object database | ||
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| * [[http://www.fresher.com/|Matisse]] | * [[http://www.fresher.com/|Matisse]] | ||
| * [[http://www.intersystems.com/cache/index.html|Caché]] | * [[http://www.intersystems.com/cache/index.html|Caché]] | ||
| - | * Spatial databases | ||
| - | * [[https://postgis.net/workshops/postgis-intro/|Introduction to PostGIS]] | ||
| ===== Course Slides ===== | ===== Course Slides ===== | ||
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| */ | */ | ||
| - | Students, in groups of two, will realize a project in a topic relevant to advanced databases. Examples of topics are given in the next section of this document. | + | Students, in groups of two, will realize a project in a topic relevant to advanced databases. Examples of topics are given in the next section of this document. Please notice that the template for these topics is "<Technology> and <Tool>". |
| Each group will study a database technology and illustrate it with an application developed in a database management system to be chosen (e.g., SQL Server, PostgreSQL, MongoDB, etc.). The topic should be addressed in a technical way, to explain the foundations of the underlying technology. The application must use the chosen technology. | Each group will study a database technology and illustrate it with an application developed in a database management system to be chosen (e.g., SQL Server, PostgreSQL, MongoDB, etc.). The topic should be addressed in a technical way, to explain the foundations of the underlying technology. The application must use the chosen technology. | ||
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| The project will count for 25% of the final grade. | The project will count for 25% of the final grade. | ||
| - | The project must be submitted by **Monday, December 14, 2020**. | + | The project must be submitted by **Monday, December 13, 2021**. |
| - | + | ||
| - | ===== Examples of topics from the previous academic year ===== | + | |
| - | + | ||
| - | You can take a look at the [[https://db-engines.com/en/|DB-Engines]] web site to get an idea of the currently available technologies and tools. Examples of previous topics are given next: | + | |
| * Analytical databases and Endeca | * Analytical databases and Endeca | ||
| Line 165: | Line 160: | ||
| * Embedded databases and BerkeleyDB | * Embedded databases and BerkeleyDB | ||
| * In-memory databases and Kdb+, MemSQL, Oracle TimesTen, Memcached, .... | * In-memory databases and Kdb+, MemSQL, Oracle TimesTen, Memcached, .... | ||
| - | * Key-value stores and Redis, Voldermort, ... | + | * Key-value stores and BerkeleyDB, DynamoDB, Redis, Voldermort, ... |
| * Multimedia databases and Oracle | * Multimedia databases and Oracle | ||
| * Multi-model databases and MarkLogic | * Multi-model databases and MarkLogic | ||
| * NewSQL databases and VoltDB | * NewSQL databases and VoltDB | ||
| - | * Object-oriented databases and db4o | + | * Object-oriented databases and db4o, ObjectBox, Perst |
| * Real-time databases and Firebase | * Real-time databases and Firebase | ||
| * Search engines and Solr, ElasticSearch, Sphinx ... | * Search engines and Solr, ElasticSearch, Sphinx ... | ||
| * Spatial raster databases and Rasdaman | * Spatial raster databases and Rasdaman | ||
| - | * Stream databases and Apache Kafka | + | * Stream databases and Apache Kafka, Event Stores |
| * Time series databases and Influx DB, Kdb+, ... | * Time series databases and Influx DB, Kdb+, ... | ||
| * XML databases and BaseX | * XML databases and BaseX | ||
| - | |||
| ===== Topics for the current academic year ===== | ===== Topics for the current academic year ===== | ||
| - | * Cloud databases and Microsoft Azure: Michel Nguyen-Khan and Soufian El Bakkali Tamara | + | * <TBD> |
| - | * Column stores and Cassandra: Wassil Choujaa and Ismaila Abdoulahi Adamou | + | |
| - | * Distributed databases and SQL Server: Yasmina El Oudghiri | + | |
| - | * Document stores and MongoDB: Beata Janiak and Astrid Asoumoy | + | |
| - | * Key-value databases and BerkeleyDB: Mohamed Amchemer and <TBD> | + | |
| - | * Key-value databases and DynamoDB: Abdeslam Bakkali Taheri and <TBD> | + | |
| - | * Key-value databases and Redis: Yahya Bakkali and Maxime Hauwaert | + | |
| - | * Multimedia databases and Oracle: Fan Chen and Noëmie Muller | + | |
| - | * Object-oriented databases and Perst: Nicolas Boucher and Romain Perret | + | |
| - | * Object-oriented databases and ObjectBox: Ajouaou Soufiane and El Achouchi Iliass | + | |
| - | * Real-time databases and Firebase: Ali Dhanani and Cleis Kounalis | + | |
| - | * Search engines and Solr, ElasticSearch: Tatiana Millan Poveda and Erick Escobar Gallardo | + | |
| - | * Stream databases and Apache Kafka, Event Stores: Alexandre Libert and Antoine De Selys | + | |
| - | * Time series databases and InfluxDB: Nada Elghazouani and Jean-Charles Nsangolo | + | |