AbstractAlgorithms inspired by swarm intelligence have been used for many optimization problems and their effectiveness has been proven in many fields. We propose a new swarm intelligence algorithm for structural learning of Bayesian networks, BFO-B, based on bacterial foraging optimization. In the BFO-B algorithm, each bacterium corresponds to a candidate solution that represents a Bayesian network structure, and the algorithm operates under three principal mechanisms: chemotaxis, reproduction, and elimination and dispersal. The chemotaxis mechanism uses four operators to randomly and greedily optimize each solution in a bacterial population, then the reproduction mechanism simulates survival of the fittest to exploit superior solutions an...
Bacterial Foraging Optimization (BFO) is a recently developed nature-inspired optimization algorithm...
Bayesian networks are a useful tool in the representation of uncertain knowledge. This paper propose...
Social behaviour is mainly based on swarm colonies, in which each individual shares its knowledge ab...
AbstractAlgorithms inspired by swarm intelligence have been used for many optimization problems and ...
Bacterial Foraging Algorithm (BFO) is a recently proposed swarm intelligence algorithm inspired by t...
This paper discusses the potential of Particle Swarm Optimisation (PSO) for inducing Bayesian Networ...
AbstractOne important approach to learning Bayesian networks (BNs) from data uses a scoring metric t...
Discovering relationships between variables is crucial for interpreting data from large databases. R...
A simple version of a Swarm Intelligence algorithm called bacterial foraging optimization algorithm ...
In 2002, K. M. Passino proposed Bacterial Foraging Optimization Algorithm (BFOA) for distributed opt...
This paper discusses the potential of Particle Swarm Optimisation (PSO) for inducing Bayesian Networ...
Bacterial Foraging Optimization (BFO) is a novel optimization algorithm based on the social foraging...
Backpropagation algorithm is widely used to solve many real-world problems, using the concept of Mul...
Bacterial foraging optimization (BFO) is a swarm intelligence algorithm inspired from forging behavi...
Research in biologically-inspired optimisation has been fl<;lurishing over the past decades. This ap...
Bacterial Foraging Optimization (BFO) is a recently developed nature-inspired optimization algorithm...
Bayesian networks are a useful tool in the representation of uncertain knowledge. This paper propose...
Social behaviour is mainly based on swarm colonies, in which each individual shares its knowledge ab...
AbstractAlgorithms inspired by swarm intelligence have been used for many optimization problems and ...
Bacterial Foraging Algorithm (BFO) is a recently proposed swarm intelligence algorithm inspired by t...
This paper discusses the potential of Particle Swarm Optimisation (PSO) for inducing Bayesian Networ...
AbstractOne important approach to learning Bayesian networks (BNs) from data uses a scoring metric t...
Discovering relationships between variables is crucial for interpreting data from large databases. R...
A simple version of a Swarm Intelligence algorithm called bacterial foraging optimization algorithm ...
In 2002, K. M. Passino proposed Bacterial Foraging Optimization Algorithm (BFOA) for distributed opt...
This paper discusses the potential of Particle Swarm Optimisation (PSO) for inducing Bayesian Networ...
Bacterial Foraging Optimization (BFO) is a novel optimization algorithm based on the social foraging...
Backpropagation algorithm is widely used to solve many real-world problems, using the concept of Mul...
Bacterial foraging optimization (BFO) is a swarm intelligence algorithm inspired from forging behavi...
Research in biologically-inspired optimisation has been fl<;lurishing over the past decades. This ap...
Bacterial Foraging Optimization (BFO) is a recently developed nature-inspired optimization algorithm...
Bayesian networks are a useful tool in the representation of uncertain knowledge. This paper propose...
Social behaviour is mainly based on swarm colonies, in which each individual shares its knowledge ab...