def test_max_calibrate_clique_belief(self): belief_propagation = BeliefPropagation(self.junction_tree) belief_propagation.max_calibrate() clique_belief = belief_propagation.get_clique_beliefs() phi1 = DiscreteFactor(['A', 'B'], [2, 3], range(6)) phi2 = DiscreteFactor(['B', 'C'], [3, 2], range(6)) phi3 = DiscreteFactor(['C', 'D'], [2, 2], range(4)) b_A_B = phi1 * (phi3.maximize(['D'], inplace=False) * phi2).maximize(['C'], inplace=False) b_B_C = phi2 * (phi1.maximize(['A'], inplace=False) * phi3.maximize(['D'], inplace=False)) b_C_D = phi3 * (phi1.maximize(['A'], inplace=False) * phi2).maximize(['B'], inplace=False) np_test.assert_array_almost_equal(clique_belief[('A', 'B')].values, b_A_B.values) np_test.assert_array_almost_equal(clique_belief[('B', 'C')].values, b_B_C.values) np_test.assert_array_almost_equal(clique_belief[('C', 'D')].values, b_C_D.values)
def test_max_calibrate_sepset_belief(self): belief_propagation = BeliefPropagation(self.junction_tree) belief_propagation.max_calibrate() sepset_belief = belief_propagation.get_sepset_beliefs() phi1 = DiscreteFactor(['A', 'B'], [2, 3], range(6)) phi2 = DiscreteFactor(['B', 'C'], [3, 2], range(6)) phi3 = DiscreteFactor(['C', 'D'], [2, 2], range(4)) b_B = (phi1 * (phi3.maximize(['D'], inplace=False) * phi2).maximize(['C'], inplace=False)).maximize(['A'], inplace=False) b_C = (phi2 * (phi1.maximize(['A'], inplace=False) * phi3.maximize(['D'], inplace=False))).maximize(['B'], inplace=False) np_test.assert_array_almost_equal(sepset_belief[frozenset((('A', 'B'), ('B', 'C')))].values, b_B.values) np_test.assert_array_almost_equal(sepset_belief[frozenset((('B', 'C'), ('C', 'D')))].values, b_C.values)
def test_max_calibrate_sepset_belief(self): belief_propagation = BeliefPropagation(self.junction_tree) belief_propagation.max_calibrate() sepset_belief = belief_propagation.get_sepset_beliefs() phi1 = DiscreteFactor(["A", "B"], [2, 3], range(6)) phi2 = DiscreteFactor(["B", "C"], [3, 2], range(6)) phi3 = DiscreteFactor(["C", "D"], [2, 2], range(4)) b_B = (phi1 * (phi3.maximize(["D"], inplace=False) * phi2).maximize( ["C"], inplace=False)).maximize(["A"], inplace=False) b_C = (phi2 * (phi1.maximize(["A"], inplace=False) * phi3.maximize(["D"], inplace=False))).maximize( ["B"], inplace=False) np_test.assert_array_almost_equal( sepset_belief[frozenset((("A", "B"), ("B", "C")))].values, b_B.values) np_test.assert_array_almost_equal( sepset_belief[frozenset((("B", "C"), ("C", "D")))].values, b_C.values)
def test_max_calibrate_clique_belief(self): belief_propagation = BeliefPropagation(self.junction_tree) belief_propagation.max_calibrate() clique_belief = belief_propagation.get_clique_beliefs() phi1 = DiscreteFactor(["A", "B"], [2, 3], range(6)) phi2 = DiscreteFactor(["B", "C"], [3, 2], range(6)) phi3 = DiscreteFactor(["C", "D"], [2, 2], range(4)) b_A_B = phi1 * (phi3.maximize(["D"], inplace=False) * phi2).maximize( ["C"], inplace=False) b_B_C = phi2 * (phi1.maximize(["A"], inplace=False) * phi3.maximize(["D"], inplace=False)) b_C_D = phi3 * (phi1.maximize(["A"], inplace=False) * phi2).maximize( ["B"], inplace=False) np_test.assert_array_almost_equal(clique_belief[("A", "B")].values, b_A_B.values) np_test.assert_array_almost_equal(clique_belief[("B", "C")].values, b_B_C.values) np_test.assert_array_almost_equal(clique_belief[("C", "D")].values, b_C_D.values)