EnvirVis16
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Browsing EnvirVis16 by Subject "I.3.8 [Computer Graphics]"
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Item Towards Visual Analytics for Multi-Sensor Analysis of Remote Sensing Archives(The Eurographics Association, 2016) Eggert, Daniel; Sips, Mike; Köthur, Patrick; Karsten Rink and Ariane Middel and Dirk ZeckzerTo better detect and study processes on the Earth's surface, scientists want to combine various satellite data and extract potentially interesting patterns from the combined data. This analysis approach is called multi-sensor analysis. In this paper, we present an interactive visual exploration solution for the first important step of multi-sensor analysis: the assessment and selection of remote sensing scenes. This solution is the first step towards a larger Visual Analytics (VA) approach that turns multisensor analysis into a transparent and interactive analysis method. We conduct our research in the context of GeoMultiSens, which is an interdisciplinary research project between remote sensing, computer science and VA experts. To demonstrate the utility of our visual exploration solution, we use a real-world scenario: the assessment and selection of scenes in order to study the change of forest cover in Europe. The application example indicates that interactive visual exploration facilitates a structured assessment of the quantity and quality of remote sensing scenes and enables scientists to exclude low-quality scenes from subsequent multi-sensor analysis.Item Visual Analysis of Reservoir Simulation Ensembles(The Eurographics Association, 2016) Höllt, Thomas; Ravanelli, Fabio Miguel de Matos; Hadwiger, Markus; Hoteit, Ibrahim; Karsten Rink and Ariane Middel and Dirk ZeckzerHydrocarbon reservoir simulation models produce large amounts of heterogeneous data, combining multiple variables of different dimensionality, such as two or three-dimensional geospatial estimates with abstract estimates simulated for the complete field or different wells. In addition these simulations are nowadays often run as so-called ensemble simulations, to capture uncertainty of the model, as well as boundary conditions as variation in the output. The (visual) analysis of such data is a challenging process, due to the size and complexity of the data. In this paper we present an integrated system for the visual analysis of ensemble reservoir simulation data. We provide tools to inspect forecasts for multiple variables of complete fields, as well as different wells. Finally, we present a case study highlighting the effectiveness of the presented system.Item Visualizing Malaria Spread Under Climate Variability(The Eurographics Association, 2016) Liang, Xing; Aggarwal, Rajat; Cherif, Alhaji; Gumel, Abba; Mascaro, Giuseppe; Maciejewski, Ross; Karsten Rink and Ariane Middel and Dirk ZeckzerIn order to better control and prevent the infectious diseases, measures of vulnerability and risk to increased infectious disease outbreaks have been explored. Research investigating possible links between variations in climate and transmission of infectious diseases has led to a variety of predictive models for estimating the future impact of infectious disease under projected climate change. Underlying all of these approaches is the connection of multiple data sources and the need for computational models that can capture the spatio-temporal dynamics of emerging infectious diseases and climate variability, especially as the impact of climate variability on the land surface is becoming increasingly critical in predicting the geo-temporal evolution of infectious disease outbreaks. This paper presents an initial visualization prototype that combines data from population and climate simulations as inputs to a patch-based mosquito spread model for analyzing potential disease spread vectors and their relationship to climate variability.