Figure 5.7: Phase portrait and time domain simulation for a system with a single stable equilibrium point
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Chapter | Dynamic Behavior |
---|---|
Figure number | 5.7 |
Figure title | 5.7: Phase portrait and time domain simulation for a system with a single stable equilibrium point |
GitHub URL | https://github.com/murrayrm/fbs2e-python/blob/main/figure-5.7-stable-eqpt.py |
Requires | python-control |
# stable_eqpt.py - plots for stable equlibrium point # RMM, 6 Apr 2024 import matplotlib.pyplot as plt import numpy as np from math import pi import control as ct import control.phaseplot as pp import fbs # FBS plotting customizations m, b, k = 1, 0, 2 linsys = ct.ss([[0, 1], [-k/m, -b/m]], [[0], [1]], np.eye(2), 0) # Draw the phase portrait fbs.figure() ct.phase_plane_plot(linsys, [-1, 1, -1, 1], 1, plot_streamlines=False) pp.streamlines( linsys, np.array([[0.2, 0], [0.4, 0], [0.6, 0], [0.8, 0], [1, 0]]), 4.5, arrows=6) plt.gca().set_aspect('equal') plt.suptitle("") # Add some level sets theta = np.linspace(0, 2*pi) plt.plot(0.2 * np.sin(theta), 0.2 * np.cos(theta), 'r--') plt.plot(0.3 * np.sin(theta), 0.3 * np.cos(theta), 'r--') fbs.savefig('figure-5.7-stable_eqpt-pp.png') fbs.figure('321') plt.axis([0, 10, -2.5, 2.5]) timepts = np.linspace(0, 10) response = ct.input_output_response(linsys, timepts, 0, [1, 0]) plt.plot(response.time, response.outputs[0], 'b', label="$x_1$") plt.plot(response.time, response.outputs[1], 'r--', label="$x_2$") plt.xlabel("Time $t$") plt.ylabel("$x_1, x_2$") plt.legend(loc='upper right', ncols=2, frameon=False) fbs.savefig('figure-5.7-stable_eqpt-time.png')