Focus Areas & Projects

eSSENCE research focuses on four main areas: Materials Science, Human Function and Environment, Life Science and Generic e-Science Methods and Tools. Within each focus area research projects are funded on the basis of scientific quality, and particular support is given to collaboration projects with potential of opening up for novel applications.
Follow the links below for a detailed description of all research projects supported by eSSENCE.

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Focus area sort downsort upProjectHost Univ. sort downsort upLocal collaborationDevelopmentStatus sort downsort up
Generic e-Science Methods and ToolsComputational Design Optimization and Inverse Problems for Wave Propagation ProblemsUmeå UniversityMethods for simulation of industrial processes developmentActive
Generic e-Science Methods and ToolsAutonomous Resource Management for Robust, Efficient, and High-Performance & Cloud ComputingUmeå UniversityLarge data sets for predictive modeling in pharmacy developmentActive
Generic e-Science Methods and ToolsComputational Design Optimization and Inverse Problems for Wave Propagation ProblemsUmeå UniversityMethods for simulation of industrial processes developmentActive
Generic e-Science Methods and ToolsComputational methods for two-phase flowUppsala UniversityActive
Generic e-Science Methods and ToolsDistributed data analysis – grid computingUppsala UniversityLarge data set analysis methods development Computational tools and software developmentActive
Generic e-Science Methods and ToolsEfficient and Reliable HPC Algorithms for Matrix Computations in ApplicationsUmeå UniversityComputational tools and software developmentActive
Generic e-Science Methods and ToolsGrid researchLund UniversityComputational tools and software developmentActive
Generic e-Science Methods and ToolsGrid Middleware: Development and SupportLund UniversityComputational tools and software developmentActive
Generic e-Science Methods and ToolsNoSQL Approach to Large Scale Analysis of Persisted StreamsUppsala UniversityIndustrial applications development for large data sets from sensorsActive
Generic e-Science Methods and ToolsParallelization of dynamic algorithmsUppsala UniversityActive
Generic e-Science Methods and ToolsUMIT – modeling, simulations, computational methods, HPC software, IT infrastructures, and applicationsUmeå UniversityComputational tools and software development Methods for simulation of industrial processes development High performance and cloud computing in collaboration with leading software companiesActive
Human Function and EnvironmentAAOT: Algorithms and Applications for Organ TransplantationLund UniversityCollaboration between Medicine, Computer science, and Applied mathematics departments at Lund UniversityLarge data set analysis methods developmentActive
Human Function and EnvironmentAAOT: Algorithms and Applications for Organ TransplantationLund UniversityCollaboration between Medicine, Computer science, and Applied mathematics departments at Lund UniversityLarge data set analysis methods developmentActive
Human Function and EnvironmentData Management and Workflow Improvements In Biomedical ImagingLund UniversityCollaboration between Medicine and Computer science departments at Lund UniversityLarge data set analysis methods developmentActive
Human Function and EnvironmentDevelopment of a regional CO2 fluxes data assimilation systemLund UniversityCollaboration between Climate and Computer science departments at Lund UniversityLarge data set analysis methods developmentActive
Human Function and EnvironmentImproving intrapartum surveillance using a pattern recognition and machine learning approachLund UniversityCollaboration between Medicine and Applied mathematics departments at Lund UniversityLarge data set analysis methods developmentActive
Human Function and EnvironmentInformation service for historical demographic information and geographic informationLund UniversityComputing, mathematics and software development Computational tools and software developmentActive
Human Function and EnvironmentIntroducing the micro-level geographic context in historical demographic researchLund UniversityComputing, mathematics and software developmentActive
Human Function and EnvironmentLinguistics and visual informationLund UniversityComputing, mathematics and software developmentActive
Human Function and EnvironmentSemantic and Visual ProcessingLund UniversityCollaboration between Computer science and Applied mathematics departments at Lund UniversityActive
Human Function and EnvironmentStatistical Machine TranslationUppsala UniversityComputing, mathematics and software developmentActive
Human Function and EnvironmentTailored Time-Frequency Features for Robust Classification of Electrophysiological Correlates of Human Memory RetrievalLund UniversityComputing, mathematics and software development Large data set analysis methods developmentActive
Human Function and EnvironmentThe development of processing and assessment tools for event detection in eye movement dataLund UniversityComputing, mathematics and software development Large data set analysis methods developmentActive
Human Function and EnvironmentUsing High Performance Computing Resources for the Record and Analysis of Cultural Heritage SitesLund UniversityCollaboration between Archaeology and Computer science departments at Lund UniversityComputing, mathematics and software development Large data set analysis methods developmentActive
Human Function and EnvironmentClassification Tool for Bird SingingLund UniversityCollaboration between Biology and Applied mathematics departments at Uppsala UniversityLarge data set analysis methods developmentActive
Human Function and EnvironmentComputational Financial StatisticsUppsala UniversityActive
Human Function and EnvironmenteStarSpec: using eScience to map the Milky WayLund UniversityLarge data set analysis methods development Computational tools and software developmentActive
Life ScienceAutomated and scalable predictive modeling in drug discovery with cloud computing, micro-services and Big Data frameworksUppsala UniversityLarge data set analysis methods development Computational tools and software developmentActive
Life ScienceAutomated and scalable predictive modeling in drug discovery with cloud computing, micro-services and Big Data frameworksUppsala UniversityLarge data set analysis methods development Computational tools and software developmentActive
Life ScienceCancer Landscapes: an interactive, global map of regulation in human cancerUppsala UniversityLarge data set analysis methods developmentActive
Life ScienceComputational BiologyUppsala UniversityActive
Life ScienceDevelopment of eScience methods for drug discoveryUppsala UniversityLarge data set analysis methods developmentActive
Life ScienceLarge-scale analysis of live cellsUppsala UniversityCollaboration between Molecular biology and Computer science departments at Uppsala UniversityLarge data set analysis methods development Computational tools and software developmentActive
Life ScienceTranslating long-read sequencing and metabolomics to clinical applicationsUppsala UniversityLarge data set analysis methods development Computational tools and software developmentActive
Life ScienceMonte Carlo approach to proteins in cellular environmentsLund UniversityActive
Life ScienceVirtual ChemistryUppsala UniversityActive
Materials Science4D-QMPM – 4D data processing to Quantify the Mechanics of Porous MediaLund UniversityActive
Materials ScienceA multiscale modelling platform for Materials ChemistryUppsala UniversityCollaboration between Chemistry and Computer science departments at Uppsala UniversityActive
Materials ScienceA unified theory of the rare-earth elementsUppsala UniversityActive
Materials ScienceChemistry of Complex MaterialsUppsala UniversityActive
Materials ScienceFirst-principles modelling of the L-edge X-Ray Absorption Spectroscopy of Transition Metal Oxides and Organic Molecules with Transition Metals CentersUppsala UniversityActive
Materials ScienceMultiscale modeling of Magnetization DynamicsUppsala UniversityCollaboration between Physics and Applied mathematics departments at Uppsala UniversityActive
Materials ScienceNanomaterials: From Clay to BiomaterialsLund UniversityActive
Materials ScienceNon-adiabatic chemical processes: chemistry beyond the Born–Oppenheimer approximationUppsala UniversityComputational tools and software developmentActive
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