© 2017, IGI Global. All rights reserved. Computer simulations have become a very powerful tool for scientific research. Given the vast complexity that comes with many open scientific questions, a purely analytical or experimental approach is often not viable. For example, biological systems comprise an extremely complex organization and heterogeneous interactions across different spatial and temporal scales. In order to facilitate research on such problems, the BioDynaMo project aims at a general platform for computer simulations for biological research. Since scientific investigations require extensive computer resources, this platform should be executable on hybrid cloud computing systems, allowing for the efficient use of state-of-the-ar...
Computational methods are nowadays ubiquitous in the field of bioinformatics and biomedicine.Besides...
International audienceThe E-Biothon platform is an experimental Cloud platform to help speed up and ...
Improvements in technology often drive scientific discovery. Therefore, research requires sustained ...
© 2017, IGI Global. All rights reserved. Computer simulations have become a very powerful tool for s...
© 2016, CEUR-WS. All rights reserved.Computer simulations have become a very powerful tool for scien...
Computer simulations have become a very powerful tool for scientific research. Given the vast comple...
MotivationAgent-based modeling is an indispensable tool for studying complex biological systems. How...
Motivation: Agent-based modeling is an indispensable tool for studying complex biological systems. H...
Abstract CERN openlab's knowledge transfer initiative aims at accelerating research outside high-en...
This repository contains all supporting material for the paper "BioDynaMo: a modular platform for hi...
The BioDynaMo project (http://biodynamo.web.cern.ch/) aims at creating a platform through which life...
The BioDynaMo project is a general platform for agent-based computer simulations of biological tissu...
Computational studies in life sciences not only provide a new way of complementing experimental stud...
With the ongoing laboratory restrictions, it is often challenging for bioscience students to make sa...
The overall aim of the BioSimGrid project is to build a distributed data and computing platform to e...
Computational methods are nowadays ubiquitous in the field of bioinformatics and biomedicine.Besides...
International audienceThe E-Biothon platform is an experimental Cloud platform to help speed up and ...
Improvements in technology often drive scientific discovery. Therefore, research requires sustained ...
© 2017, IGI Global. All rights reserved. Computer simulations have become a very powerful tool for s...
© 2016, CEUR-WS. All rights reserved.Computer simulations have become a very powerful tool for scien...
Computer simulations have become a very powerful tool for scientific research. Given the vast comple...
MotivationAgent-based modeling is an indispensable tool for studying complex biological systems. How...
Motivation: Agent-based modeling is an indispensable tool for studying complex biological systems. H...
Abstract CERN openlab's knowledge transfer initiative aims at accelerating research outside high-en...
This repository contains all supporting material for the paper "BioDynaMo: a modular platform for hi...
The BioDynaMo project (http://biodynamo.web.cern.ch/) aims at creating a platform through which life...
The BioDynaMo project is a general platform for agent-based computer simulations of biological tissu...
Computational studies in life sciences not only provide a new way of complementing experimental stud...
With the ongoing laboratory restrictions, it is often challenging for bioscience students to make sa...
The overall aim of the BioSimGrid project is to build a distributed data and computing platform to e...
Computational methods are nowadays ubiquitous in the field of bioinformatics and biomedicine.Besides...
International audienceThe E-Biothon platform is an experimental Cloud platform to help speed up and ...
Improvements in technology often drive scientific discovery. Therefore, research requires sustained ...