Remove trailing whitespace
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@ -12,7 +12,7 @@
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\usepackage[colorinlistoftodos]{todonotes}
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\usepackage{parskip}
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\setlength{\parskip}{10pt}
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\setlength{\parskip}{10pt}
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\usepackage{tikz}
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\usetikzlibrary{arrows, decorations.markings}
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@ -26,52 +26,52 @@
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\begin{titlepage}
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\centering
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{\scshape\LARGE Master thesis project proposal\\}
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\vspace{0.5cm}
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{\huge\bfseries Title of the project\\}
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\vspace{2cm}
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{\Large name and email adress of student 1\\}
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\vspace{0.2cm}
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{\Large name and email adress of student 2\\}
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\vspace{1.0cm}
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{\large Suggested Supervisor at CSE (if you have one, otherwise skip this row): Name of supervisor\\}
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\vspace{1.5cm}
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{\large Supervisor at Company (if applicable): Name of supervisor, name of company\\}
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\vspace{1.5cm}
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{\large Relevant completed courses student 1:\par}
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{\itshape List (course code, name of course)\\}
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\vspace{1.5cm}
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{\large Relevant completed courses student 2:\par}
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{\itshape List (course code, name of course)\\}
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\vfill
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\vfill
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{\large \today\\}
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\vfill
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{\large \today\\}
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\end{titlepage}
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@ -79,17 +79,17 @@
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\section{Introduction}
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Briefly describe and motivate the project, and convince the reader of the importance of the proposed thesis work.
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A good introduction will answer these questions: Why is addressing these challenges significant for gaining new knowledge
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Briefly describe and motivate the project, and convince the reader of the importance of the proposed thesis work.
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A good introduction will answer these questions: Why is addressing these challenges significant for gaining new knowledge
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in the studied domain? How and where can this new knowledge be applied?
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\section{Problem}
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\section{Problem}
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This section is optional. It may be used if there is a need to describe the problem that you want to solve in more technical
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This section is optional. It may be used if there is a need to describe the problem that you want to solve in more technical
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detail and if this problem description is too extensive to fit in the introduction.
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@ -99,8 +99,8 @@ detail and if this problem description is too extensive to fit in the introducti
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Use one or two relevant and high quality references for providing evidence from the literature that the proposed study indeed
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includes scientific and engineering challenges, or is related to existing ones. Convince the reader that the problem addressed
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Use one or two relevant and high quality references for providing evidence from the literature that the proposed study indeed
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includes scientific and engineering challenges, or is related to existing ones. Convince the reader that the problem addressed
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in this thesis has not been solved prior to this project.
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@ -111,34 +111,34 @@ in this thesis has not been solved prior to this project.
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Describe your contribution with respect to concepts, theory and technical goals. Ensure that the scientific and engineering
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challenges stand out so that the reader can easily recognize that you are planning to solve an advanced problem.
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Describe your contribution with respect to concepts, theory and technical goals. Ensure that the scientific and engineering
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challenges stand out so that the reader can easily recognize that you are planning to solve an advanced problem.
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\section{Approach}
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Various scientific approaches are appropriate for different challenges and project goals. Outline and justify the ones that
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you have selected. For example, when your project considers systematic data collection, you need to explain how you will analyze
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Various scientific approaches are appropriate for different challenges and project goals. Outline and justify the ones that
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you have selected. For example, when your project considers systematic data collection, you need to explain how you will analyze
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the data, in order to address your challenges and project goals.
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One scientific approach is to use formal models and rigorous
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mathematical argumentation to address aspects like correctness and efficiency. If this is relevant, describe the related algorithmic
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subjects, and how you plan to address the studied problem. For example, if your plan is to study the problem from a computability aspect,
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address the relevant issues, such as algorithm and data structure design, complexity analysis, etc. If you plan to develop and
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evaluate a prototype, briefly describe your plans to design, implement, and evaluate your prototype by reviewing at most two relevant
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One scientific approach is to use formal models and rigorous
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mathematical argumentation to address aspects like correctness and efficiency. If this is relevant, describe the related algorithmic
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subjects, and how you plan to address the studied problem. For example, if your plan is to study the problem from a computability aspect,
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address the relevant issues, such as algorithm and data structure design, complexity analysis, etc. If you plan to develop and
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evaluate a prototype, briefly describe your plans to design, implement, and evaluate your prototype by reviewing at most two relevant
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issues, such as key functionalities and their evaluation criteria.
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The design and implementation should specify prototype properties,
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such as functionalities and performance goals, e.g., scalability, memory, energy. Motivate key design selection, with respect to state
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of the art and existing platforms, libraries, etc.
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The design and implementation should specify prototype properties,
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such as functionalities and performance goals, e.g., scalability, memory, energy. Motivate key design selection, with respect to state
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of the art and existing platforms, libraries, etc.
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When discussing evaluation criteria, describe the testing environment, e.g., test-bed
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experiments, simulation, and user studies, which you plan to use when assessing your prototype. Specify key tools, and preliminary
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test-case scenarios. Explain how and why you plan to use the evaluation criteria in order to demonstrate the functionalities and
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design goals. Explain how you plan to compare your prototype to the state of the art using the proposed test-case evaluation scenarios
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and benchmarks.
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When discussing evaluation criteria, describe the testing environment, e.g., test-bed
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experiments, simulation, and user studies, which you plan to use when assessing your prototype. Specify key tools, and preliminary
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test-case scenarios. Explain how and why you plan to use the evaluation criteria in order to demonstrate the functionalities and
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design goals. Explain how you plan to compare your prototype to the state of the art using the proposed test-case evaluation scenarios
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and benchmarks.
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