Summary
"DOCC is an interdisciplinary doctoral programme at the University of Innsbruck for 15 international early-stage researchers on modelling and simulation in physics, chemistry, atmospheric sciences, material and engineering sciences, mathematics and computer science.
DOCC provides structured advanced training in both research-relevant and professional skills, by building expertise in the intersectorally seminal fields of computational material, fluid and gas dynamics, which procure multiple topical technological, societal and medical applications relevant to climate, energy, safety, or nano and life sciences. All of these areas require a capability for predictive modelling and in-depth understanding of structural and dynamical properties of matter and materials, which often show a high level of dynamic complexity.
In our research focus on ""Dynamics Of Complex Continua"" (DOCC) we develop and apply novel methods for theoretical and numerical analysis in modelling and simulation of dynamical processes, such as stability, nonlinearity, transport and structure formation. In particular we consider meso- and macroscopic many-body and continuum systems of solids, soft matter, liquids, gases and plasmas, that are characterised by complex couplings between its constituents, its environment, or multi-scale dependence.
DOCC prepares Europe's next top modellers to link simulations and the real world within a multi-disciplinary environment, by providing beyond essential technical expertise also the training in key abilities to communicate and transfer methods and results. Targeted education in communication and knowledge-transfer skills is therefore implemented as a central supplementary pillar within the DOCC programme. The fellows will be provided with possibilities and encouragement to assume secondments to renowned international and regional academic and intersectoral partner organisations."
DOCC provides structured advanced training in both research-relevant and professional skills, by building expertise in the intersectorally seminal fields of computational material, fluid and gas dynamics, which procure multiple topical technological, societal and medical applications relevant to climate, energy, safety, or nano and life sciences. All of these areas require a capability for predictive modelling and in-depth understanding of structural and dynamical properties of matter and materials, which often show a high level of dynamic complexity.
In our research focus on ""Dynamics Of Complex Continua"" (DOCC) we develop and apply novel methods for theoretical and numerical analysis in modelling and simulation of dynamical processes, such as stability, nonlinearity, transport and structure formation. In particular we consider meso- and macroscopic many-body and continuum systems of solids, soft matter, liquids, gases and plasmas, that are characterised by complex couplings between its constituents, its environment, or multi-scale dependence.
DOCC prepares Europe's next top modellers to link simulations and the real world within a multi-disciplinary environment, by providing beyond essential technical expertise also the training in key abilities to communicate and transfer methods and results. Targeted education in communication and knowledge-transfer skills is therefore implemented as a central supplementary pillar within the DOCC programme. The fellows will be provided with possibilities and encouragement to assume secondments to renowned international and regional academic and intersectoral partner organisations."
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/847476 |
Start date: | 01-06-2019 |
End date: | 31-05-2024 |
Total budget - Public funding: | 2 440 800,00 Euro - 1 220 400,00 Euro |
Cordis data
Original description
"DOCC is an interdisciplinary doctoral programme at the University of Innsbruck for 15 international early-stage researchers on modelling and simulation in physics, chemistry, atmospheric sciences, material and engineering sciences, mathematics and computer science.DOCC provides structured advanced training in both research-relevant and professional skills, by building expertise in the intersectorally seminal fields of computational material, fluid and gas dynamics, which procure multiple topical technological, societal and medical applications relevant to climate, energy, safety, or nano and life sciences. All of these areas require a capability for predictive modelling and in-depth understanding of structural and dynamical properties of matter and materials, which often show a high level of dynamic complexity.
In our research focus on ""Dynamics Of Complex Continua"" (DOCC) we develop and apply novel methods for theoretical and numerical analysis in modelling and simulation of dynamical processes, such as stability, nonlinearity, transport and structure formation. In particular we consider meso- and macroscopic many-body and continuum systems of solids, soft matter, liquids, gases and plasmas, that are characterised by complex couplings between its constituents, its environment, or multi-scale dependence.
DOCC prepares Europe's next top modellers to link simulations and the real world within a multi-disciplinary environment, by providing beyond essential technical expertise also the training in key abilities to communicate and transfer methods and results. Targeted education in communication and knowledge-transfer skills is therefore implemented as a central supplementary pillar within the DOCC programme. The fellows will be provided with possibilities and encouragement to assume secondments to renowned international and regional academic and intersectoral partner organisations."
Status
CLOSEDCall topic
MSCA-COFUND-2018Update Date
28-04-2024
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