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000877844 1001_ $$0P:(DE-Juel1)161295$$aSprenger, Julia$$b0$$eCorresponding author$$gfemale$$ufzj
000877844 245__ $$aTools and Workflows for Data & Metadata Management of Complex Experiments - Building a Foundation for Reproducible & Collaborative Analysis in the Neurosciences$$f - 2020-07-23
000877844 260__ $$aJülich$$bForschungszentrum Jülich GmbH Zentralbibliothek, Verlag$$c2020
000877844 300__ $$aX, 168 S.
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000877844 4900_ $$aSchriften des Forschungszentrums Jülich. Reihe Schlüsseltechnologien / Key Technologies$$v222
000877844 502__ $$aDissertation, RWTH Aachen, 2020$$bDissertation$$cRWTH Aachen$$d2020
000877844 520__ $$aThe scientific knowledge of mankind is based on the verification of hypotheses by carrying out experiments. As the construction and conduct of an experiment becomes increasingly complex more and more scientists are involved in a single project. In order to make the generated data easily accessible to all scientists and, at best, to the entire scientific community, it is essential to comprehensively document the circumstances of the data generation, as these contain essential information for later analysis and interpretation. In this thesis, I present two complex neuroscience projects and the strategies, tools, and concepts that were used to comprehensively track, process, organize, and prepare the collected data for joint analysis. First, I describe the older of the two experiments and explain in detail the generation of data and metadata and the pipeline used for aggregating metadata. A hierarchical approach based on the open source software $\textit{odML}$ for metadata organization was implemented to capture the complex meta information of this project. I evaluate the design concepts and tools used and derive a general catalogue of requirements for scientific collaboration in complex projects. Also, I identify issues and requirements that were not yet addressed by this pipeline. There were, in particular, the difficulties in i) entering manual metadata and structuring the metadata collection,ii) combining metadata with the actual data, and iii) setting up the pipeline in a modular generic and transparent manner. Guided by this analysis, I describe concept and tool implementations to address these identified issues. I developed a complementary tool ($\textit{odMLtables}$) to i) facilitate the capture of metadata in a structured way and to ii) convert these easily into the hierarchical, standardized metadata format $\textit{odML. odMLtables}$ provides an interface between the easy-to-read tabular metadata representation in the formats commonly used in laboratory environments (csv/xls) and the hierarchically organized $\textit{odML}$ format based on xml, which is designed for a comprehensive collection of complex metadata records in an easily machine-readable manner. Supplementing the coordinated capture of metadata, I contributed to and shaped the $\textit{Neo}$ toolbox for the standardized representation of electrophysiological data. This toolbox is a key component for electrophysiological data analysis as it integrates different proprietary and non-proprietary file formats and serves as a bridge between different file formats. I emphasize new features that simplify the process of data and metadata handling in the data acquisition workflow. I introduce the concept of workflow management into the field of scientific data processing, based on the common Python-based snakemake package. For the second, more recent electrophysiological experiment, I designed and implemented the workflow for capturing and packaging metadata and data in a comprehensive form. Here I used the generic neuroscience information exchange format ($\textit{Nix}$) for the user-friendly packaging of data sets including data and metadata in combined form. Finally, I evaluate the improved workflow against the requirements of collaborative scientific work in complex projects. I establish general guidelines for conducting such experiments and workflows in a scientific environment. In conclusion, I present the next development steps for the presented workflow and potential avenues for deploying this prototype as a production prototype to a wider scientific community.
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