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27	27	* **Tight Packing of Connected Components** (Bachelor)
28	28	Different connected components of a graph are often laid out separately and combined again afterwards. This combination step often produces too much whitespace. Research relevant 2D packing literature and implement a better solution.
29	29	{{jira columns="key,summary,type,created,updated,due,assignee,reporter,priority,status,resolution" id="KIELER JIRA" serverId="2851bd34-0bf1-3f02-ab12-7d77ccab0fae" key="KIPRA-1262"}}KIPRA-1262{{/jira}}\\
30		-* **{{jira columns="key,summary,type,created,updated,due,assignee,reporter,priority,status,resolution" id="KIELER JIRA" serverId="2851bd34-0bf1-3f02-ab12-7d77ccab0fae" key="KIPRA-1031"}}KIPRA-1031{{/jira}}Layering Algorithms** (Bachelor, Master)
	30	+* **{{jira columns="key,summary,type,created,updated,due,assignee,reporter,priority,status,resolution" id="KIELER JIRA" serverId="2851bd34-0bf1-3f02-ab12-7d77ccab0fae" key="KIPRA-1031"}}KIPRA-1031{{/jira}}Implement and Evaluate a Layout Algorithm for Simple Cluster Graphs** (Bachelor/Master)
	31	+Cluster graphs are graphs in which every node belongs can belong to one or more groups of nodes, or //clusters//. The clusters can overlap and do not need to form a hierarchy. We already have some ideas for laying out cluster graphs with simple structures. This topic focusses on implementing at least one of these ideas and evaluating it to find out if it works well.
	32	+* **Layering Algorithms** (Bachelor, Master)
31	31	Implement an alternative algorithm for the layer assignment problem used in the layer-based approach to graph layout. The focus of the algorithm could the consideration of the number of edge crossings, a given aspect ratio, or overall compactness.
32	32	* **Combining Forces and Layers** (Master)**
33	33	**Design and implement a layout algorithm that combines the force-based and the layer-based approaches. The first three phases of the layer-based approach shall be replaced by a node distribution computed with a force-based approach.
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37	37	Develop methods for integrating port constraints in force-based drawing approaches. The resulting node placement shall be evaluated using an edge router such as [[libavoid>>url:http://www.adaptagrams.org/||shape="rect"]] on the model library of [[Ptolemy>>url:http://ptolemy.eecs.berkeley.edu/||shape="rect"]].
38	38	* **Interactive constraint creation and application in automatic layout **(Bachelor/Master)
39	39	Evaluate options how to create constraints on the layout like "Node x should be placed at position y" and how to implement this in the current layout algorithms.
40		-\\
41	41	* **Compound Graph Layout** (Master)
42	42	Design and implement new concepts for computing layer-based layouts of compound graphs. The main focus shall be on //maintainability//: ensuring that the implementation can be kept working over the years. The main area to be considered here is the crossing minimization phase.
43	43	* **Orthogonal "Edge Bundling"** (Bachelor, Master)
44	44	Implement and evaluate strategies for orthogonal edge bundling within our layer-based layout algorithm.
45		-\\
46	46	* **Integrate KIML with JGraph** (Bachelor)
47	47	Provide automatic layout through KIML for the JGraph diagram library and develop a simple JGraph-based graph editor to test the integration with.\\
48	48	* **{{jira showSummary="true" columns="key,summary,type,created,updated,due,assignee,reporter,priority,status,resolution" id="KIELER JIRA" serverId="2851bd34-0bf1-3f02-ab12-7d77ccab0fae" key="KIPRA-1214"}}KIPRA-1214{{/jira}}Improve and Assess KLay Layered's JUnit Test Environment**

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1		-13762905
	1	+13763106

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1		-https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/RTSYS/pages/13762905/Topics for Student Theses
	1	+https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/RTSYS/pages/13763106/Topics for Student Theses