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Author

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1		-XWiki.nbw
	1	+XWiki.uru

Content

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44		-* **2 Interactive Constraint Creation and Application in Automatic Layout **(Bachelor, Master)
	44	+* **2 Interactive Constraint Creation and Application in Automatic Layout **(Bachelor/Master)
45	45	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. Assess how such constraints can be persisted within the model.
46	46	* **3 Force Based Drawing with Port Constraints** (Master)
47	47	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"]].
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51	51
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53		-* **1 A (Simple) Edge Router** (Bachelor, Master)
	53	+* **1 A (Simple) Edge Router** (Bachelor)
54	54	Often, people want their nodes to stay in the same place, but have the edges routed somehow. We currently don't have any layout algorithm that can do so. In this assignment, you would implement a simple edge router to solve this.
55	55	* **1 Improved Spline Edge Routing **(Master)
56	56	Our layer-based layout algorithm is capable to route edges as splines. Evaluate the results using state machine diagrams, identify possible improvements and develop solutions to address these.
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91		-//Timing//
92		-
93	93	* (% style="line-height: 1.4285715;" %)**On the Pragmatics of Interactive Timing Information Feedback for Graphical Modeling **(%%)(Bachelor)(% style="line-height: 1.4285715;" %)**
94	94	**(%%)Use Pragmatics concepts to enhance the timing information feedback of the Interactive Timing Analysis.
95	95
96		-//SCCharts Modelling & Compilation//
	94	+
97	97
98	98	* (% style="line-height: 1.4285715;" %)**Optimization of the SCCharts compiler/transformations **(%%)(Bachelor/Master)
99	99	Profile the actual SCCharts compiler/transformations and apply optimizations; also evaluate the possibility to use multiple cores for compilation
100	100	* (% style="line-height: 1.4285715;" %)**On the pragmatics of modeling large models in SCCharts**(%%) (Bachelor/Master)
101	101	Evaluate the possibilities to create and maintain large models in model-based languages (i.e. SCCharts) and provide suggestions for improvements
	100	+* **Visualization of Model-based Simulation via Tracing** (Bachelor/Master)
	101	+Use the already implemented Model-to-Model-Tracing in KIELER to visualize simulations.
	102	+* **Incremental Compilation of SCEst** (Bachelor/Master)
	103	+Modify the KIELER SCEst language so that KIELER is able to compile Esterel step-by-step to C via SCL.
	104	+* **Incremental Model-based Compilation of Legacy C Programs** (Bachelor/Master)
	105	+Modify the model-based compiler in KIELER so that it is able to compile C to (S)CCharts incrementally.
102	102	* **Extend the SC MoC to handle priority-based variable accesses** (Bachelor/Master)
103	103	Add priorities to variable accesses to extend the SC MoC and therefore the number of valid sequentially constructive synchronous programs.
104	104	* **Transformation of Circuits to SCCharts** (Bachelor/Master)
105	105	Implement a transformation that translates circuits to (dataflow) SCCharts.
106		-* **Efficient data dependency & scheduling analyses in SCCharts** (Master/Bachelor)
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	112	+
	113	+* **Efficient data dependency & scheduling analyses in SCCharts** (Master/Bachelor)
107	107	Implement analyses for data dependency, scheduling (e.g. tick boundaries) for SCCharts to improve static scheduling of the compiler
108	108	* **Curing Schizophrenia in SCCharts **(Master/Bachelor)
109	109	Develop new synchronizer to handle schizophrenia properly (e.g. depth join).
	117	+* **Environment Simulations for SCCharts** (Master/Bachelor)
	118	+Develop a system to simulate environments (e.g. for Lego Mindstorms) for SCCharts in KIELER
110	110	* **SCCharts Verification** (Master/Bachelor)
111	111	Add the possibility to perfom model checking on SCCharts
112		-* **Derive M2M Transformations from Pseudocode** (Master/Bachelor)
113		-Create a Pseudocode DSL (and generator) to automatically derive M2M transformations.
114		-* **Raceyard evaluation** (Master)
115		-Evaluate the possibility for the use of SCCharts in the Raceyard context and pave the way for future experiments
116		-
117		-//SCCharts Simulation//
118		-
119		-* **Visualization of Model-based Simulation via Tracing** (Bachelor/Master)
120		-Use the already implemented Model-to-Model-Tracing in KIELER to visualize simulations.
121		-* **Environment Simulations for SCCharts** (Master/Bachelor)
122		-Develop a system to simulate environments (e.g. for Lego Mindstorms) for SCCharts in KIELER
123		-* **Core SCCharts Interpreter** (Master/Bachelor)
	121	+* **Core SCCharts Interpreter** (Master/Bachelor)
124	124	Implement an Interpreter for Core SCCharts.
125	125
126		-//Model-based C Code Compilation//
	124	+
127	127
128		-* **Incremental Model-based Compilation of Legacy C Programs** (Bachelor/Master)
129		-Modify the model-based compiler in KIELER so that it is able to compile C to (S)CCharts incrementally.
130		-* **Execution of Recursive Dataflow Code** (Master/Bachelor)
131		-* **Execution of Concurrent Dataflow Code** (Master/Bachelor)
132		-Modify the model-based dataflow compiler in KIELER so that it is able to compile recursive/concurrent C programs.
133		-For Master students: Implement both.
134		-
135		-//Synchronous Languages//
136		-
137		-* **Incremental Compilation of SCEst** (Bachelor/Master)
138		-Modify the KIELER SCEst language so that KIELER is able to compile Esterel step-by-step to C via SCL.
139		-For Master Students: Also add the possibility to compile from SCCharts to SCEst.
140		-* **eSCL - Implementing {{code language="none"}}gotopause{{/code}}** (Bachelor/Master)
141		-Create an extended dialect of the SC Language including the {{code language="none"}}gotopause{{/code}} statement and implement a transformation to SCL.
142	142	* **Quartz **(Master)
143	143	Integrate the synchronous Quartz language into KIELER for validation purposes and teaching.
	128	+* **Raceyard evaluation** (Master)
	129	+Evaluate the possibility for the use of SCCharts in the Raceyard context and pave the way for future experiments
144	144
145		-
146		-
147	147	= (% style="color: rgb(0,0,0);" %)Miscellaneous Topics(%%) =
148	148
149	149	**Advisors:** to be determined.
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151	151	* **Developing an Info Screen** (Bachelor)
152	152	Info screens are screens that present data in ways that can be easily understood. This includes static data (project description graphics, members of a team, ...) as well as dynamically aggregated data (bug statistics, automatic build overviews, ...). This topic is about developing such an info screen for our group and making it easily configurable.
153		-\\
154		-* **Developing a domain specific language (DSL) for model railway control** (Bachelor/Master)
155		-We maintain a model railway installation as a demonstrator for our work and as a student teaching tool. Especially for demonstations to non-technical visitors we would like to have a simple language to create controllers for the railway.

Confluence.Code.ConfluencePageClass[0]

Id

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1		-20153947
	1	+20152356

URL

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1		-https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/RTSYS/pages/20153947/Topics for Student Theses
	1	+https://rtsys.informatik.uni-kiel.de/confluence//wiki/spaces/RTSYS/pages/20152356/Topics for Student Theses