Multiscale, multiphysics systems are too complex for traditional mathematical modeling and require numerical simulation, yet such systems arise everywhere from modeling the immune system and protein interaction to epidemic spread in a human population. Unfortunately, at present researchers create their own ad hoc programs for their particular study. To address this problem we present the simulator for efficient evolution on complex networks (SEECN), an expressive simulator of complex systems that optimizes for both single-core and parallel performance. In SEECN, a complex network represents the system where the nodes and edges have specified properties that dictate the dynamics of the network over time. Our application is a detailed model o...
2 The rapid spread of computer worms and viruses has become a major threat to governments, businesse...
In this article we discuss relations between the so-called complex networks and dynamics of evolutio...
Complex and adaptive networks are ubiquitous in many felds of scientifc study, ranging from biologi...
Complex networks exist everywhere in our daily life, including the Internet and different social rel...
Complex networks are an important methodology to model several (if not all) aspects of the real worl...
Network models are graphical tools to aid illustration of relationships between things and processes...
We propose a new way to model HIV infection spreading through the use of dynamic complex networks. T...
For explanation and prediction of the evolution of infectious diseases in populations, researchers o...
MotivationThe ability to simulate epidemics as a function of model parameters allows insights that a...
Network simulation has gathered enormous interest lately as it is seen as the new approach to deal w...
Complex system is a newly introduced concept that only has been studied for around two decades. As n...
Abstract—a class of models is examined whose primary goal is to explain network properties, especial...
Networks are all around us; from the simplest forms of life to the complexity of our brain. Also our...
Abstract—Modeling dynamical systems represents an impor-tant application class covering a wide range...
Evolutionary algorithms are very efficient tools to find a near-optimum solution in many cases. Unti...
2 The rapid spread of computer worms and viruses has become a major threat to governments, businesse...
In this article we discuss relations between the so-called complex networks and dynamics of evolutio...
Complex and adaptive networks are ubiquitous in many felds of scientifc study, ranging from biologi...
Complex networks exist everywhere in our daily life, including the Internet and different social rel...
Complex networks are an important methodology to model several (if not all) aspects of the real worl...
Network models are graphical tools to aid illustration of relationships between things and processes...
We propose a new way to model HIV infection spreading through the use of dynamic complex networks. T...
For explanation and prediction of the evolution of infectious diseases in populations, researchers o...
MotivationThe ability to simulate epidemics as a function of model parameters allows insights that a...
Network simulation has gathered enormous interest lately as it is seen as the new approach to deal w...
Complex system is a newly introduced concept that only has been studied for around two decades. As n...
Abstract—a class of models is examined whose primary goal is to explain network properties, especial...
Networks are all around us; from the simplest forms of life to the complexity of our brain. Also our...
Abstract—Modeling dynamical systems represents an impor-tant application class covering a wide range...
Evolutionary algorithms are very efficient tools to find a near-optimum solution in many cases. Unti...
2 The rapid spread of computer worms and viruses has become a major threat to governments, businesse...
In this article we discuss relations between the so-called complex networks and dynamics of evolutio...
Complex and adaptive networks are ubiquitous in many felds of scientifc study, ranging from biologi...