Maik Hadorn
3 SlideShares
Personal Information
Organización/Lugar de trabajo
Zurich Switzerland
Ocupación
Doctoral Candidate
Sector
Medical / Health Care / Pharmaceuticals
Sitio web
ailab.ifi.uzh.ch/hadorn/
Acerca de
In the Swiss National Foundation Project (Project Number: 200020-118127) Embryogenic Evolution: From Simulations to Robotic Applications (EES) I am supported by as well as in the European Union integrated project Programmable Artificial Cell Evolution (PACE, EU-IST-FP6-FET-002035), the Artificial Intelligence Laboratory (University of Zurich, Switzerland) was part of, I study (in close collaboration with the Mærsk Mc-Kinney Møller Institute, University of Southern Denmark, Denmark) novel Information Technology making strong use of life-like properties such as robustness, self-repair, self-assembly, modularity, self-organization genetic programmability, and evolvability. My aim is to transf
Etiquetas
vesicles programmability self-assembly real-world testbed hard sphere colloids embryogenic evolution dna multivesicular aggregates phase transition glycerophospholipids living technology adhesion plaque liposome encapsulation compartmentalization personalized healthcare vesicle drug delivery
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Presentaciones

(3)

Hadorn Biostec 2010

Hace 14 años 679 Visualizaciones

Hadorn Acal 2009 01

Hace 14 años 213 Visualizaciones

Hadorn Acal 2009 02

Hace 14 años 381 Visualizaciones
Personal Information
Organización/Lugar de trabajo
Zurich Switzerland
Ocupación
Doctoral Candidate
Sector
Medical / Health Care / Pharmaceuticals
Sitio web
ailab.ifi.uzh.ch/hadorn/
Acerca de
In the Swiss National Foundation Project (Project Number: 200020-118127) Embryogenic Evolution: From Simulations to Robotic Applications (EES) I am supported by as well as in the European Union integrated project Programmable Artificial Cell Evolution (PACE, EU-IST-FP6-FET-002035), the Artificial Intelligence Laboratory (University of Zurich, Switzerland) was part of, I study (in close collaboration with the Mærsk Mc-Kinney Møller Institute, University of Southern Denmark, Denmark) novel Information Technology making strong use of life-like properties such as robustness, self-repair, self-assembly, modularity, self-organization genetic programmability, and evolvability. My aim is to transf
Etiquetas
vesicles programmability self-assembly real-world testbed hard sphere colloids embryogenic evolution dna multivesicular aggregates phase transition glycerophospholipids living technology adhesion plaque liposome encapsulation compartmentalization personalized healthcare vesicle drug delivery
Ver más