Beispiel #1
0
op.update(kwargs)

# --- Initialise mesh

swp = AdaptiveProblem(op)

# Refine around equator and/or soliton
if initial_monitor is not None:
    mesh_mover = MeshMover(swp.meshes[0],
                           initial_monitor,
                           method='monge_ampere',
                           op=op)
    mesh_mover.adapt()
    mesh = Mesh(mesh_mover.x)
    op.__init__(mesh=mesh, **kwargs)
    swp.__init__(op, meshes=[mesh])

# --- Monitor function definitions


def elevation_norm_monitor(mesh, alpha=40.0, norm_type='H1', **kwargs):
    """
    Monitor function derived from the elevation `norm_type` norm.

    :kwarg alpha: controls the amplitude of the monitor function.
    """
    P1DG = FunctionSpace(mesh, "DG", 1)
    eta = project(swp.fwd_solutions[0].split()[1], P1DG)
    if norm_type == 'hessian_frobenius':
        H = recover_hessian(eta, op=op)
        return 1.0 + alpha * local_frobenius_norm(H)
Beispiel #2
0
# NOTE: We use Monge-Ampere with a monitor function indicating the initial condition

alpha = 10.0  # Parameter controlling prominance of refined region
eps = 1.0e-03  # Parameter controlling width of refined region


def monitor(mesh):
    x, y = SpatialCoordinate(mesh)
    x0, y0, r = op.source_loc[0]
    return conditional(le(abs((x - x0)**2 + (y - y0)**2 - r**2), eps), alpha,
                       1.0)


mesh_mover = MeshMover(tp.meshes[0], monitor, method='monge_ampere', op=op)
mesh_mover.adapt()
tp.__init__(op, meshes=[Mesh(mesh_mover.x)])

# --- Solve the tracer transport problem

# Note:
#  * Pure Lagrangian leads to tangled elements after only a few iterations
#  * This motivates applying monitor based methods throughout the simulation

tp.set_initial_condition()
init_vol = assemble(Constant(1.0) * dx(domain=tp.mesh))
init_l1_norm = norm(tp.fwd_solutions_tracer[0], norm_type='L1')
init_l2_norm = norm(tp.fwd_solutions_tracer[0], norm_type='L2')
init_sol = tp.fwd_solutions_tracer[0].copy(deepcopy=True)
tp.solve_forward()

# Compare initial and final tracer concentrations