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- import random
- import scipy.io
- import matplotlib.pyplot as plt
- import numpy as np
- classroom_width = 7
- classroom_length = 5
- num_app = 5
- population_size = 12
- generations = 10
- mutation_rate = 0.1
- def calculate_signal_strength(ap_x, ap_y, point_x, point_y):
- distance = np.sqrt((ap_x - point_x)**2 + (ap_y - point_y)**2)
- return 1/(distance+1)
- def visualize_initial_and_final(classroom_width, classroom_length, initial_population, final_population):
- plt.figure(figsize=(15,6))
- for i, (x, y) in enumerate(initial_population):
- plt.text(x, y, str(i+1), color='black', fontsize=8, ha='center', va='center')
- plt.scatter(*zip(*initial_population), color="red", marker="o", label="Начална позиция на точките за дотъп до WI-FI")
- for i, (x,y) in enumerate(final_population):
- plt.text(x, y, str(i+1), color='black', fontsize=8, ha='center', va='center')
- plt.scatter(*zip(*final_population), color="blue", marker="o", label="Финална позиция на точките за дотъп до WI-FI")
- plt.xlabel("Ширина на учебна зала (М)")
- plt.ylabel("Дължина на учебна зала (М)")
- plt.title("Начало и крайно разпределение на точките за достъп")
- plt.legend()
- plt.show()
- def visualize_dynamic_changes(classroom_width, classroom_length, population, fitness_scores):
- for generation in range(generations):
- plt.figure(figsize=(15,6))
- plt.subplot(1, 2, 1)
- ap_placements = population[generation]
- x = np.linspace(0, classroom_width, 100)
- y = np.linspace(0, classroom_length, 100)
- X, Y = np.meshgrid(x, y)
- Z = np.zeros_like(X)
- for ap_x, ap_y in ap_placements:
- Z += calculate_signal_strength(ap_x, ap_y, X, Y)
- plt.pcolormesh(X, Y, Z, shading='auto', cmap='viridis')
- plt.colorbar(label="СИла на сигнала")
- for i, (x, y) in enumerate(ap_placements):
- plt.text(x, y, str(i+1), color="black", fontsize=8, ha="center", va="center")
- plt.scatter(*zip(*ap_placements), color="red", marker="o", label="Разпределение на точките за достъп")
- plt.xlabel("Ширина на учебна зала (м)")
- plt.ylabel("Дължина на учебната зала (м)")
- plt.title(f'Сила на Wi-Fi сигнала и разпределение на точките за достъп (Поколение {generation + 1})')
- plt.legend()
- plt.subplot(1, 2, 2)
- plt.plot(range(1, generation + 2), fitness_scores[:generation + 1], marker = 'o')
- plt.xlabel("Поколение")
- plt.ylabel("Резултат от фитнеса")
- plt.title("Резултат от фитнеса за различните поколения")
- plt.tight_layout()
- plt.show()
- initial_population = [(random.uniform(0, classroom_width), random.uniform(0, classroom_length)) for _ in range(population_size)]
- population = [initial_population.copy()]
- best_solution = None
- best_fitness = float('-inf')
- all_fitness_scores = []
- for generation in range(generations):
- fitness_scores = []
- for ap_x, ap_y in population[generation]:
- coverage = 0
- for point_x in range(classroom_width):
- for point_y in range(classroom_length):
- coverage += calculate_signal_strength(ap_x, ap_y, point_x, point_y)
- fitness_scores.append(coverage)
- if(max(fitness_scores)) > best_fitness:
- best_solution = population[generation][fitness_scores.index(max(fitness_scores))]
- best_fitness = max(fitness_scores)
- all_fitness_scores.append(max(fitness_scores))
- selected_parents = random.choices(population[generation], weights=fitness_scores, k=population_size)
- offspring = []
- for _ in range(population_size):
- parent1, parent2 = random.sample(selected_parents,2)
- crossover_x = random.uniform(parent1[0], parent2[0])
- crossover_y = random.uniform(parent1[1], parent2[1])
- offspring.append((crossover_x, crossover_y))
- for i in range(len(offspring)):
- if random.random() < mutation_rate:
- offspring[i] = (random.uniform(0, classroom_width), random.uniform(0, classroom_length))
- population.append(offspring)
- # visualize_initial_and_final(classroom_width, classroom_length, initial_population, population[-1])
- # visualize_dynamic_changes(classroom_width, classroom_length, population, all_fitness_scores)
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