import matplotlib.pyplot as plt # Values 1 x1 = [0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6] y1 = [33.2, 35.48, 27.67, 19.41, 15.3, 15.44, 13.59] # Values 2 x2 = [0.4, 0.5, 0.6, 0.7] y2 = [13.29, 11.25, 12.55, 13.26] # Values 3 x3 = [0.4, 0.5, 0.6, 0.7] y3 = [22.06, 15.48, 18.74, 17.71] # Create the plot plt.figure(figsize=(10, 6)) # Plot each line with different styles plt.plot(x1, y1, marker='o', linestyle='-', color='blue', label='symetrycznie 500 Hz') plt.plot(x2, y2, marker='s', linestyle='--', color='green', label='asymetrycznie 550 Hz') plt.plot(x3, y3, marker='^', linestyle='-.', color='red', label='asymetrycznie 450 Hz') # Add labels and title plt.xlabel('parametr g', fontsize=40) plt.ylabel('Prod detekcji syngalu [dB]', fontsize=40) plt.title('500 Hz', fontsize=48) # Add a legend plt.legend(fontsize=32) # Optional: Add gridlines plt.grid(True) plt.xticks(fontsize=32) plt.yticks(fontsize=32) # Display the plot plt.show() # Values 1 x1 = [0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6] y1 = [33.06, 35.28, 23.33, 17.14, 14.33, 10.01, 4.43] # Values 2 x2 = [0.4, 0.5, 0.6, 0.7] y2 = [15.22, 8.16, 6.45, 6.27] # Values 3 x3 = [0.4, 0.5, 0.6, 0.7] y3 = [13.0, 13.06, 7.8, 1.7] # Create the plot plt.figure(figsize=(10, 6)) # Plot each line with different styles plt.plot(x1, y1, marker='o', linestyle='-', color='blue', label='symetrycznie 1500 Hz') plt.plot(x2, y2, marker='s', linestyle='--', color='green', label='asymetrycznie 1650 Hz') plt.plot(x3, y3, marker='^', linestyle='-.', color='red', label='asymetrycznie 1350 Hz') # Add labels and title plt.xlabel('parametr g', fontsize=40) plt.ylabel('Prod detekcji syngalu [dB]', fontsize=40) plt.title('1500 Hz', fontsize=48) # Add a legend plt.legend(fontsize=32) # Optional: Add gridlines plt.grid(True) plt.xticks(fontsize=32) plt.yticks(fontsize=32) # Display the plot plt.show() # Values 1 x1 = [0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6] y1 = [33.2, 35.48, 27.67, 19.41, 15.3, 15.44, 13.59] # Values 2 x2 = [0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6] y2 = [33.06, 35.28, 23.33, 17.14, 14.33, 10.01, 4.43] # Create the plot plt.figure(figsize=(10, 6)) # Plot each line with different styles plt.plot(x1, y1, marker='o', linestyle='-', color='blue', label='symetrycznie 500 Hz') plt.plot(x2, y2, marker='s', linestyle='--', color='green', label='symetrycznie 1500 Hz') # Add labels and title plt.xlabel('parametr g', fontsize=40) plt.ylabel('Prod detekcji syngalu [dB]', fontsize=40) plt.title('500 Hz vs 1500 Hz', fontsize=48) # Add a legend plt.legend(fontsize=32) # Optional: Add gridlines plt.grid(True) plt.xticks(fontsize=32) plt.yticks(fontsize=32) # Display the plot plt.show() # Values 1 x1 = [0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6] y1 = [33.2, 35.48, 27.67, 19.41, 15.3, 15.44, 13.59] # Values 2 x2 = [0.005, 0.01, 0.02, 0.05, 0.1, 0.3] y2 = [81.59, 60.08, 68.48, 58.77, 53.6, 55.46] # Create the plot plt.figure(figsize=(10, 6)) # Plot each line with different styles plt.plot(x1, y1, marker='o', linestyle='-', color='blue', label='pasmowy 500 Hz') plt.plot(x2, y2, marker='s', linestyle='--', color='green', label='pasmowo-zaporowy 500 Hz') # Add labels and title plt.xlabel('parametr g', fontsize=40) plt.ylabel('Prod detekcji syngalu [dB]', fontsize=40) plt.title('Porownanie szum pasmowy vs szum pasmowo zaporowy dla 500 Hz', fontsize=48) # Add a legend plt.legend(fontsize=32) # Optional: Add gridlines plt.grid(True) plt.xticks(fontsize=32) plt.yticks(fontsize=32) # Display the plot plt.show()