Class: Ai4r::GeneticAlgorithm::GeneticSearch

Inherits:
Object
  • Object
show all
Defined in:
lib/ai4r/genetic_algorithm/genetic_algorithm.rb

Overview

This class is used to automatically:

  1. Choose initial population
  2. Evaluate the fitness of each individual in the population
  3. Repeat
        1. Select best-ranking individuals to reproduce
        2. Breed new generation through crossover and mutation (genetic operations) and give birth to offspring
        3. Evaluate the individual fitnesses of the offspring
        4. Replace worst ranked part of population with offspring
  4. Until termination

If you want to customize the algorithm, you must modify any of the following classes:
  - Chromosome
  - Population

Instance Attribute Summary collapse

Instance Method Summary collapse

Constructor Details

#initialize(initial_population_size, generations) ⇒ GeneticSearch

Returns a new instance of GeneticSearch.



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 41

def initialize(initial_population_size, generations)
  @population_size = initial_population_size
  @max_generation = generations
  @generation = 0
end

Instance Attribute Details

#populationObject

Returns the value of attribute population.



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 38

def population
  @population
end

Instance Method Details

#best_chromosomeObject

Select the best chromosome in the population



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 136

def best_chromosome
  the_best = @population[0]
  @population.each do |chromosome|
    the_best = chromosome if chromosome.fitness > the_best.fitness
  end
  return the_best
end

#generate_initial_populationObject 



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 67

def generate_initial_population
 @population = []
 @population_size.times do
   population << Chromosome.seed
 end
end

#replace_worst_ranked(offsprings) ⇒ Object

Replace worst ranked part of population with offspring



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 130

def replace_worst_ranked(offsprings)
  size = offsprings.length
  @population = @population [0..((-1*size)-1)] + offsprings
end

#reproduction(selected_to_breed) ⇒ Object

We combine each pair of selected chromosome using the method Chromosome.reproduce

The reproduction will also call the Chromosome.mutate method with each member of the population. You should implement Chromosome.mutate to only change (mutate) randomly. E.g. You could effectivly change the chromosome only if 

rand < ((1 - chromosome.normalized_fitness) * 0.4)



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 118

def reproduction(selected_to_breed)
  offsprings = []
  0.upto(selected_to_breed.length/2-1) do |i|
    offsprings << Chromosome.reproduce(selected_to_breed[2*i], selected_to_breed[2*i+1])
  end
  @population.each do |individual|
    Chromosome.mutate(individual)
  end
  return offsprings
end

#runObject

  1. Choose initial population

    2. Evaluate the fitness of each individual in the population
3. Repeat
      1. Select best-ranking individuals to reproduce
      2. Breed new generation through crossover and mutation (genetic operations) and give birth to offspring
      3. Evaluate the individual fitnesses of the offspring
      4. Replace worst ranked part of population with offspring
4. Until termination    
5. Return the best chromosome



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 56

def run
  generate_initial_population                    #Generate initial population 
  @max_generation.times do
    selected_to_breed = selection                #Evaluates current population 
    offsprings = reproduction selected_to_breed  #Generate the population for this new generation
    replace_worst_ranked offsprings
  end
  return best_chromosome
end

#selectionObject

Select best-ranking individuals to reproduce

Selection is the stage of a genetic algorithm in which individual genomes are chosen from a population for later breeding. There are several generic selection algorithms, such as tournament selection and roulette wheel selection. We implemented the latest.

Steps:

  1. The fitness function is evaluated for each individual, providing fitness values

  2. The population is sorted by descending fitness values.

  3. The fitness values ar then normalized. (Highest fitness gets 1, lowest fitness gets 0). The normalized value is stored in the “normalized_fitness” attribute of the chromosomes.

  4. A random number R is chosen. R is between 0 and the accumulated normalized value (all the normalized fitness values added togheter).

  5. The selected individual is the first one whose accumulated normalized value (its is normalized value plus the normalized values of the chromosomes prior it) greater than R.

  6. We repeat steps 4 and 5, 2/3 times the population size.



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# File 'lib/ai4r/genetic_algorithm/genetic_algorithm.rb', line 90

def selection
  @population.sort! { |a, b| b.fitness <=> a.fitness}
  best_fitness = @population[0].fitness
  worst_fitness = @population.last.fitness
  acum_fitness = 0
  if best_fitness-worst_fitness > 0
  @population.each do |chromosome| 
    chromosome.normalized_fitness = (chromosome.fitness - worst_fitness)/(best_fitness-worst_fitness)
    acum_fitness += chromosome.normalized_fitness
  end
  else
    @population.each { |chromosome| chromosome.normalized_fitness = 1}  
  end
  selected_to_breed = []
  ((2*@population_size)/3).times do 
    selected_to_breed << select_random_individual(acum_fitness)
  end
  selected_to_breed
end