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This paper examines different business models of companies dealing with (earmarked) remittances and sheds light on the associated challenges of the industry, specifically, remittances for health, based on the model of the fintech startup GloryHealthCare. The work "Business Model Generation" by Osterwalder and Pigneur (2010) is used as a method for the analysis, as this is often used as a basis for the business models of startups. The study focuses regionally on Europe and Africa, as Germany and Ghana are the start-up's first target markets. Among other things, the industry's processes, pricing, and existing competition are examined. The SWOT analysis methodology clarifies the individual companies' opportunities and risks and makes a competitive position visible. Meanwhile, network effects of the diverse business models are made visible based on the paper "Digital Economy and Network Effects" by Frank Linde (2020). Network effects play a crucial role in the reach, influence, and competitiveness of existing and new businesses in the remittance industry. The study also emphasizes the importance of knowledge and networks, which are more important than financial resources. The previous aspects considered a basis for developing a new concept as an alternative to the Business Model Canvas: the iBusiness Model. The results of this study provide insights into the design of efficient business models and support companies in the remittance industry in developing strategies to overcome challenges and take advantage of opportunities.
Digital curation is currently not very well covered by university curricula in the German speaking countries. Nevertheless there is a strong demand for well-educated staff in this field. As part of the project “nestor”, a transnational partnership of academic institutions in Germany, Switzerland, and Austria, a comprehensive qualification program based on e-learning tutorials, schools, seminars, and publications has been established to meet this demand.
With the growing scientific output that is produced, its getting more important to automate the extraction of knowledge from articles. This bachelor thesis will describe an approach doing exactly this. Scientific articles will be obtained from a database.
These articles will be preprocessed to gain a set of training data, to update a language model that already exists for Python library spaCy. The model will be trained to recognize different sorts of entities regarding to the virus rabies. After this process the model will be used for ten articles and the extracted knowledge will be used to extend the Open Research Knowledge Graph.
As a key part of human-computer interaction(HCI) and usability testing, the capturing and recording of key user interaction plays a center role for ensuring a reliable post-hoc analysis of collected user interaction data, thus improving the odds of insightful HCI and usability testing cycles for use cases such as the evaluation of interactive information retrieval Systems(IRR). As such, the practice of logging is of significant importance for multiple fields of study such as IIR, HCI and most recently also Living Lab approaches. Living lab approaches represent a user-centered research methodology with a focus on user involvement, experimental approaches and extensive collaboration for the sake of co-production of knowledge and as such, has a dire need for robust and easy to use logging solutions.
With past logging solutions being either expensive, hard to use or error-prone, recent conferences gave rise to new logging solutions using contemporary web technologies, which aim to improve the logging landscape within the research community. Over the course of this paper, two of these recent logging solutions, LogUI and Big Brother, are to be inspected for their key features and then evaluated, whether they are suitable logging solutions for living lab and IIR environments. Results and research indicate, that both logging solutions offer significant benefits for research using living lab and IIR approaches, with LogUI embracing many of the experimental paradigms that guide the living lab approach.
Research data which is put into long term storage needs to have quality metadata attached so it may be found in the future. Metadata facilitates the reuse of data by third parties and makes it citable in new research contexts and for new research questions. However, better tools are needed to help the researchers add metadata and prepare their data for publication. These tools should integrate well in the existing research workflow of the scientists, to allow metadata enrichment even while they are creating, gathering or collecting the data. In this thesis an existing data publication tool from the project DARIAH-DE was connected to a proven file synchronization software to allow the researchers prepare the data from their personal computers and mobile devices and make it ready for publication. The goal of this thesis was to find out whether the use of file synchronization software eases the data publication process for the researchers.