$$\left\{ \begin{array}{lll}\dot{x}_{1} & = & x_{2}\\\dot{x}_{2} & = & \left(1-x_{1}^{2}\right)\cdot x_{2}-x_{1}.\end{array}\right. $$
Search space: $[-3, 3]\times[-3, 3]$
from pyinvariant import *
# Define the search space
space = IntervalVector([[-3, 3],[-3,3]])
# Create the Subpaving structure
subPaving = SmartSubPaving(space)
# Create the Domain
dom = Domain(subPaving, FULL_WALL)
dom.set_border_path_in(True)
dom.set_border_path_out(True)
# Create the Dynamics
f = Function("x[2]", "(x[1],(1.0*(1.0-x[0]^2))*x[1]-x[0])")
dyn = DynamicsFunction(f, FWD)
# Create the Maze associated with the Domain and the dynamics
maze = Maze(dom, dyn)
# Contract the system
for i in range(15): # Number of bisections
print(i)
subPaving.bisect()
maze.contract()
# Visualization
visu = VibesMaze("Van Der Pol Inner Invariant", maze)
visu.setProperties(0,0,512,512)
visu.show()