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- Eindhoven University of Technology (TU/e)
- Eindhoven University of Technology (TU/e); yesterday published
- Eindhoven University of Technology
- Eindhoven University of Technology (TU/e); Eindhoven
- Eindhoven University of Technology (TU/e); Published 7 Nov ’25
- Maastricht University (UM)
- Maastricht University (UM); yesterday published
- Royal Netherlands Academy of Arts and Sciences (KNAW)
- Royal Netherlands Academy of Arts and Sciences (KNAW); yesterday published
- Wageningen University & Research
- Wetsus - European centre of excellence for sustainable water technology
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we address the following steps/questions: Characterize the molecular structure and molecular distribution of suitable polymer pyrolysis waste streams to aid modelling of filler-matrix interfaces
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we address the following steps/questions: Characterize the molecular structure and molecular distribution of suitable polymer pyrolysis waste streams to aid modelling of filler-matrix interfaces
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supervisory controller synthesis techniques that are scalable to practical systems. Current decomposition approaches for supervisory control synthesis, like the multilevel discrete-event systems approach
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we address the following steps/questions: Characterize the molecular structure and molecular distribution of suitable polymer pyrolysis waste streams to aid modelling of filler-matrix interfaces
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an understanding of how existing system decompositions and interface specifications be translated into models suitable for hierarchical/distributed supervisory control synthesis. We require candidates for PhD 3
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the inflammatory and regenerative process in vivo. The various cellular interactions in in situ tissue engineering, and how these are influenced by (1) the local niche (i.e. biomaterial and extracellular matrix
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Royal Netherlands Academy of Arts and Sciences (KNAW); yesterday published | Netherlands | about 2 months ago
matrix, and the signalling pathways that mediate communication with cardiac parenchymal cells. You will employ in vitro and in vivo platforms based on the spiny mouse, combined with genetic tools
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space explosion involved in complex systems. The aim of this PhD project is to develop distributed supervisory controller synthesis techniques that are scalable to practical systems. Current decomposition
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matrix, and the signalling pathways that mediate communication with cardiac parenchymal cells. You will employ in vitro and in vivo platforms based on the spiny mouse, combined with genetic tools
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of Dr. Nicholas A. Kurniawan and Dr. Tommaso Ristori . Dr. Kurniawan’s research strives to make an impact on healthcare through an improved understanding of cell–matrix physical interactions and (multi