Linked Data is a general principle for describing and publishing information about entities of an application domain. The description of Linked Data entities is implemented in a text-based machine-readable format that follows the Resource Description Framework (RDF).
The signature of a Linked Data entity is comprised of its attributes (data properties) and its typed relationships (object properties) to other entities.
In this thesis, you will develop a visualisation of the Linked Data entities in two or three dimensions based on their signature. The shape of the entity corresponds to the signature of the entity.
The resulting entities could for example look like Tetris bricks. This would allow to visually classify, cluster, sort, recombine and otherwise interact with the entities.
One could imagine forming composite structures with these bricks, each having a unique signature. For example, a “family” could consist of two “parent” entities and at least one “child” entity.
Linked Data entities have been visualised in a number of applications.
An example is the DBPedia atlas , which visualises the entities of DBPedia. However, in this visualisation, as in many others, the individual items all have the same shape.
Another example is the three-dimensional visualisation provided by HDT-it , which visualises an RDF graph in three dimensions.
A different example are cellular automata . The items in such simulations form a certain shape. Additionally, they also autonomously move and interact with other shapes, forming new shapes and entities that have been attributed a specific semantic meaning (e.g. a “glider”).
The extent of the thesis will be adapted according to the status of the thesis as B.Sc. or M.Sc.
M.Sc. theses need to include, at minimum, a research question and hypothesis, a literature review, a stringent argument for choice of methodology, and an outlook at potential claims for new knowledge.
How can Linked Data entities’ signatures be employed as a basis for their visualisation?
What interactions can be implemented with the entities?
How can the “static” Linked Data be animated in a dynamic way?
A visualisation of Linked Data entities as individual distinctly-shaped objects makes the entities more tangible and actionable than in a uniform visualisation.
 Valsecchi, F., Abrate, M., Bacciu, C., Tesconi, M., Marchetti, A. (2015): DBpedia Atlas: Mapping the Uncharted Lands of Linked Data. WWW2015 Workshop: Linked Data on the Web (LDOW2015). Demo available: http://wafi.iit.cnr.it/lod/dbpedia/atlas/
 Gallego, M.A., Fernandez, J.D., Martınez-Prieto, M.A., Gutierrez, C. (2011): “HDT-it: Storing, Sharing and Visualizing Huge RDF Datasets”. Demo available: https://www.youtube.com/watch?v=HMPkc725sMY.
 Gardner, M. (1970): The fantastic combinations of John Conway’s new solitaire game ‘life’. Sci. Am. 223, 120–123. Demo available:https://bitstorm.org/gameoflife/