The subject of this work is the development and implementation of algorithms which accelerate the simulation of early stage tumor growth models. Among the different computational approaches used for the simulation of tumor progression, discrete stochastic models (e.g., cellular automata) have been widely used to describe processes occurring at the cell and subcell scales (e.g., cell-cell interactions and signaling processes). To describe macroscopic characteristics (e.g., morphology) of growing tumors, large numbers of interacting cells must be simulated. However, the high computational demands of stochastic models make the simulation of large-scale systems impractical. Alternatively, continuum models, which can describe behavior at the tum...
The speed and the versatility of today’s computers open up new opportunities to simulate complex bio...
The development of hybrid methodologies is of current interest in both multi-scale modelling and sto...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...
Multiscale phenomena play an important role in our current society. In biological contexts, we can m...
Tumor growth is a complex process that requires mathematical modeling approaches for studying real-l...
Increasingly complex in silico modeling approaches offer a way to simultaneously access cancerous pr...
Increasingly complex in silico modeling approaches offer a way to simultaneously access cancerous pr...
In this paper, two types of cellular automata are studied in order to describe the 2-dimensional fre...
The study of tumor growth biology with computer-based models is currently an area of active research...
Multiscale phenomena play an important role in our current society. In biological contexts, we can m...
In this paper, we present two mathematical models related to different aspects and scales of cancer ...
Experimental evidence suggests that a tumor\u27s environment may be critical to designing successful...
In this paper, we present two mathematical models related to different aspects and scales of cancer ...
The inverse geometric approach to the modeling of the growth of circular objects revealing required ...
AbstractBased on the literature data from HT-29 cell monolayers, we develop a model for its growth, ...
The speed and the versatility of today’s computers open up new opportunities to simulate complex bio...
The development of hybrid methodologies is of current interest in both multi-scale modelling and sto...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...
Multiscale phenomena play an important role in our current society. In biological contexts, we can m...
Tumor growth is a complex process that requires mathematical modeling approaches for studying real-l...
Increasingly complex in silico modeling approaches offer a way to simultaneously access cancerous pr...
Increasingly complex in silico modeling approaches offer a way to simultaneously access cancerous pr...
In this paper, two types of cellular automata are studied in order to describe the 2-dimensional fre...
The study of tumor growth biology with computer-based models is currently an area of active research...
Multiscale phenomena play an important role in our current society. In biological contexts, we can m...
In this paper, we present two mathematical models related to different aspects and scales of cancer ...
Experimental evidence suggests that a tumor\u27s environment may be critical to designing successful...
In this paper, we present two mathematical models related to different aspects and scales of cancer ...
The inverse geometric approach to the modeling of the growth of circular objects revealing required ...
AbstractBased on the literature data from HT-29 cell monolayers, we develop a model for its growth, ...
The speed and the versatility of today’s computers open up new opportunities to simulate complex bio...
The development of hybrid methodologies is of current interest in both multi-scale modelling and sto...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...