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Connecting subcellular bio-chemo-mechanics and the active dynamics of epithelial materials through multiscale modeling and computations
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Connecting subcellular bio-chemo-mechanics and the active dynamics of epithelial materials through multiscale modeling and computations

Mechanics of soft and living interfaces, Multi-scale and multi-physics modelling in mechanobiology (4MB), Projects

Connecting subcellular bio-chemo-mechanics and the active dynamics of epithelial materials through multiscale modeling and computations

Mechanics of soft and living interfaces, Multi-scale and multi-physics modelling in mechanobiology (4MB), Projects
lacan2020-10-14T16:08:00+00:00

Principal Investigator: Marino Arroyo and Pablo Sáez

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Empowered decision-making in simulation-based engineering: Advanced Model Reduction for real-time, inverse and optimization in industrial problems
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Empowered decision-making in simulation-based engineering: Advanced Model Reduction for real-time, inverse and optimization in industrial problems

Credible high-fidelity data-driven models, Projects

Empowered decision-making in simulation-based engineering: Advanced Model Reduction for real-time, inverse and optimization in industrial problems

Credible high-fidelity data-driven models, Projects
lacan2018-11-23T12:28:31+00:00

Principal Investigator: Antonio Huerta

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Computational models for wound healing
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Computational models for wound healing

Cell and tissue mechanics in embryogenesis, Multi-scale and multi-physics modelling in mechanobiology (4MB), Projects

Computational models for wound healing

Cell and tissue mechanics in embryogenesis, Multi-scale and multi-physics modelling in mechanobiology (4MB), Projects
lacan2018-09-28T13:43:46+00:00

Principal Investigator: Jose J. Muñoz

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Epithelial cell sheets as engineering materials: mechanics, resilience and malleability
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Epithelial cell sheets as engineering materials: mechanics, resilience and malleability

Mechanics of soft and living interfaces, Projects

Epithelial cell sheets as engineering materials: mechanics, resilience and malleability

Mechanics of soft and living interfaces, Projects
lacan2018-11-26T10:47:08+00:00

Principal Investigator: Marino Arroyo

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Enabling flexoelectric engineering through modeling and computation
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Enabling flexoelectric engineering through modeling and computation

Mechanics of electroactive materials, Projects

Enabling flexoelectric engineering through modeling and computation

Mechanics of electroactive materials, Projects
lacan2018-11-23T12:32:01+00:00

Principal Investigator: Irene Arias

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Industrial decision-making on complex Production Technologies supported by simulaTion-based engineering
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Industrial decision-making on complex Production Technologies supported by simulaTion-based engineering

Computational Geosciences, Credible high-fidelity data-driven models, Projects

Industrial decision-making on complex Production Technologies supported by simulaTion-based engineering

Computational Geosciences, Credible high-fidelity data-driven models, Projects
lacan2018-10-24T15:19:03+00:00

Principal Investigator: Sergio Zlotnik

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Mechanical control of biological function
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Mechanical control of biological function

Mechanics of soft and living interfaces, Multi-scale and multi-physics modelling in mechanobiology (4MB), Projects

Mechanical control of biological function

Mechanics of soft and living interfaces, Multi-scale and multi-physics modelling in mechanobiology (4MB), Projects
lacan2020-10-14T15:48:56+00:00

Principal Investigator: Marino Arroyo

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Mathematical and Computational Modeling

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