AbstractComputational simulation has been used as a powerful tool to represent the dynamical behavior of systems based on complex analytic models. These types of models have two main drawbacks: (a) limitations due to the degree of abstraction needed to simulate them, (b) high computing power to simulate a heavily simplified models. The computing power available today can overcome these limitations to perform quicker simulations of complex models that are closer to reality. In this paper, the experiments and performance analysis of a distributed simulation for a complex individual oriented model (fish schools) are presented. The development of the fish school simulator includes the possibility of working with large models that include large ...
We consider an individual-based model for fish schooling, which incorporates a tendency for each fis...
In studying complex systems, agent-based simulations offer the possibility of directly modelling com...
Individual-based models, 'IBMs', describe naturally the dynamics of interacting organisms or social ...
AbstractComputational simulation has been used as a powerful tool to represent the dynamical behavio...
The distributed simulation for high performance models has been carried-out into a very useful and l...
Individual-based modelling approaches are being used to simulate larger complex spatial systems in e...
Utilizing as testbeds physiologically-structured, individual-based models for fish and Daphnia popul...
In this work we describe a GPU implementation for an individual-based model for fish schooling. In t...
AbstractIndividual-oriented simulation allows us to represent the global behavior of a system throug...
Individual-based models are a popular technique for simulating a wide range of ecological systems. H...
AbstractPartitioning and load balancing are highly important issues in distributed individual-orient...
International audienceThe theory of complex systems has become more and more relevant over the last ...
As part of research towards the CoSMoS unified infrastructure for modelling and simulating complex s...
AbstractParallel discrete event simulation (PDES) have shown to be an useful paradigm for simulating...
This paper will tell us some considerations on solution tools for highly complex problems usually un...
We consider an individual-based model for fish schooling, which incorporates a tendency for each fis...
In studying complex systems, agent-based simulations offer the possibility of directly modelling com...
Individual-based models, 'IBMs', describe naturally the dynamics of interacting organisms or social ...
AbstractComputational simulation has been used as a powerful tool to represent the dynamical behavio...
The distributed simulation for high performance models has been carried-out into a very useful and l...
Individual-based modelling approaches are being used to simulate larger complex spatial systems in e...
Utilizing as testbeds physiologically-structured, individual-based models for fish and Daphnia popul...
In this work we describe a GPU implementation for an individual-based model for fish schooling. In t...
AbstractIndividual-oriented simulation allows us to represent the global behavior of a system throug...
Individual-based models are a popular technique for simulating a wide range of ecological systems. H...
AbstractPartitioning and load balancing are highly important issues in distributed individual-orient...
International audienceThe theory of complex systems has become more and more relevant over the last ...
As part of research towards the CoSMoS unified infrastructure for modelling and simulating complex s...
AbstractParallel discrete event simulation (PDES) have shown to be an useful paradigm for simulating...
This paper will tell us some considerations on solution tools for highly complex problems usually un...
We consider an individual-based model for fish schooling, which incorporates a tendency for each fis...
In studying complex systems, agent-based simulations offer the possibility of directly modelling com...
Individual-based models, 'IBMs', describe naturally the dynamics of interacting organisms or social ...