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The course PROJ-H-402 is managed by Dr. Mauro Birattari. Please refer to the course description page http://iridia.ulb.ac.be/proj-h-402/index.php/Main_Page for the rules concerning the project. What follows is a list of project proposals supervised by academic members of CoDE. | The course PROJ-H-402 is managed by Dr. Mauro Birattari. Please refer to the course description page http://iridia.ulb.ac.be/proj-h-402/index.php/Main_Page for the rules concerning the project. What follows is a list of project proposals supervised by academic members of CoDE. | ||
- | ===== Project proposals ===== | + | ===== Projects in Mobility Databases ===== |
- | ==== Development of a Personal Scientific Digital Library Management System ==== | + | Moving object databases (MOD) are database systems that can store and manage moving object data. A moving object is a value that changes over time. It can be spatial (e.g., a car driving on the road network), or non-spatial (e.g., the temperature in Brussels). Using a variety of sensors, the changing values of moving objects can be recorded in digital formats. A MOD, then, helps storing and querying such data. A couple of prototypes have also been proposed, some of which are still active in terms of new releases. Yet, a mainstream system is by far still missing. Existing prototypes are merely research. By mainstream we mean that the development builds on widely accepted tools, that are actively being maintained and developed. A mainstream system would exploit the functionality of these tools, and would maximize the reuse of their ecosystems. As a result, it becomes more closer to end users, and easily adopted in the industry. |
- | In this project, the student is asked to construct a software system to help manage large collections of scientific papers in digital form. Specifically, the system must be able to: | + | In our group, we are building MobilityDB, a mainstream MOD. It builds on PostGIS, which is a spatial database extension of PostgreSQL. MobilityDB extends the type system of PostgreSQL and PostGIS with ADTs for representing moving object data. It defines, for instance, the tfloat for representing a time dependant float, and the tgeompoint for representing a time dependant geometry point. MobilityDB types are well integrated into the platform, to achieve maximal reusability, hence a mainstream development. For instance, the tfloat builds on the PostgreSQL double precision type, and the tgeompoint build on the PostGIS geometry(point) type. Similarly MobilityDB builds on existing operations, indexing, and optimization framework. |
- | - Scan a given filesystem location for given filetypes (PDFs, EPUB, ...) containing scientific articles. | + | |
- | - Extract the metadata from each identified file. Here, the metadata includes the title of the article, its authors, the publishing venue, the publisher, the year of publication, the article's abstract ... The development of an intelligent way to retreive this metadata is requried. This could be done, for example by a combination of parsing the file, contacting the internet repositories of known publishers (AMC, Springer, Elsevier) etc to retrieve the data. | + | |
- | - Offer search capabilities, in order to allow a user to find all indexed articles matching certain criteria (title, author, ...) | + | |
- | - Offer archiving capabilities | + | |
- | Use of semantic web technologies (RDF, SPARQL, ...) to store and search the metadata is encouraged. | + | This is all made accessible via the SQL query interface. Currently MobilityDB is quite rich in terms of types and functions. It can answer sophisticated queries in SQL. The first beta version has been released as open source April 2019 (https://github.com/ULB-CoDE-WIT/MobilityDB). |
- | **Contact** : Stijn Vansummeren (stijn.vansummeren@ulb.ac.be) | + | The following thesis ideas contribute to different parts of MobilityDB. They all constitute innovative development, mixing both research and development. They hence will help developing the student skills in: |
- | **Status**: available | + | Understanding the theory and the implementation of moving object databases. |
- | + | Understanding the architecture of extensible databases, in this case PostgreSQL. | |
- | ==== Curriculum Revision Assistant ==== | + | Writing open source software. |
- | + | ||
- | In this project, the student is asked to construct a software system that can assist in the revision of teaching curricula (also known as teaching programs). The system should have the following functionalities: | + | |
- | - It should be able to load existing curricula from the ULB central administration. This could be done, for example, by parsing the webpages available at banner (the Civil Engineering in CS program is available at http://banssbfr.ulb.ac.be/PROD_frFR/bzscrse.p_disp_prog_detail?term_in=201314&prog_in=MA-IRIF&lang=FRENCH, for example). | + | |
- | - It should allow to make different versions of the teaching programs, much in the same way as version control systems like GIT and subversion offer the possibility to make different "development branches" of a program's source code. | + | |
- | - It should allow to analyze the modifications proposed in the teaching programs, and summarize the impact that these changes could have on other programs. (For example, if a course is removed from the computer science curriculum, it should also be removed from all curricula that included the course.) | + | |
- | + | ||
- | **Contact** : Stijn Vansummeren (stijn.vansummeren@ulb.ac.be) | + | |
+ | ===== Project proposals ===== | ||