Antweiler, DarioSessler, DavidGinzel, SebastianKohlhammer, JörnVrotsou, Katerina and Bernard, Jürgen2021-06-122021-06-122021978-3-03868-150-2https://doi.org/10.2312/eurova.20211097https://diglib.eg.org:443/handle/10.2312/eurova20211097A major challenge for departments of public health (DPHs) in dealing with the ongoing COVID-19 pandemic is tracing contacts in exponentially growing SARS-CoV2 infection clusters. Prevention of further disease spread requires a comprehensive registration of the connections between individuals and clusters. Due to the high number of infections with unknown origin, the healthcare analysts need to identify connected cases and clusters through accumulated epidemiological knowledge and the metadata of the infections in their database. Here we contribute a visual analytics framework to identify, assess and visualize clusters in COVID-19 contact tracing networks. Additionally, we demonstrate how graph-based machine learning methods can be used to find missing links between infection clusters and thus support the mission to get a comprehensive view on infection events. This work was developed through close collaboration with DPHs in Germany. We argue how our systems supports the identification of clusters by public health experts and discuss ongoing developments and possible extensions.Human centered computingVisual analyticsMathematics of computingGraph theoryApplied computingHealth care information systems10.2312/eurova.2021109743-47