A numerical formulation is proposed to integrate the set of parabolized Navier-Stokes equations using SUPG FEM. This method introduces a time-dependent relaxation effect that suppresses all divergent or departure solu...A numerical formulation is proposed to integrate the set of parabolized Navier-Stokes equations using SUPG FEM. This method introduces a time-dependent relaxation effect that suppresses all divergent or departure solutions. The new scheme is termed QPNS / SUPG, which leads to a well-posed initial value problem and therefore is stable for forward integration. In order to test the capabilities concerning the shock capture and calculating the boundary layer flow, the supersonic laminar flows over a wedge and a flat plate have been evaluated using the present method.展开更多
Bayesian network (BN) is a well-accepted framework for representing and inferring uncertain knowledge. As the qualitative abstraction of BN, qualitative probabilistic network (QPN) is introduced for probabilistic infe...Bayesian network (BN) is a well-accepted framework for representing and inferring uncertain knowledge. As the qualitative abstraction of BN, qualitative probabilistic network (QPN) is introduced for probabilistic inferences in a qualitative way. With much higher efficiency of inferences, QPNs are more suitable for real-time applications than BNs. However, the high abstraction level brings some inference conflicts and tends to pose a major obstacle to their applications. In order to eliminate the inference conflicts of QPN, in this paper, we begin by extending the QPN by adding a mutual-information-based weight (MI weight) to each qualitative influence in the QPN. The extended QPN is called MI-QPN. After obtaining the MI weights from the corresponding BN, we discuss the symmetry, transitivity and composition properties of the qualitative influences. Then we extend the general inference algorithm to implement the conflict-free inferences of MI-QPN. The feasibility of our method is verified by the results of the experiment.展开更多
文摘A numerical formulation is proposed to integrate the set of parabolized Navier-Stokes equations using SUPG FEM. This method introduces a time-dependent relaxation effect that suppresses all divergent or departure solutions. The new scheme is termed QPNS / SUPG, which leads to a well-posed initial value problem and therefore is stable for forward integration. In order to test the capabilities concerning the shock capture and calculating the boundary layer flow, the supersonic laminar flows over a wedge and a flat plate have been evaluated using the present method.
文摘Bayesian network (BN) is a well-accepted framework for representing and inferring uncertain knowledge. As the qualitative abstraction of BN, qualitative probabilistic network (QPN) is introduced for probabilistic inferences in a qualitative way. With much higher efficiency of inferences, QPNs are more suitable for real-time applications than BNs. However, the high abstraction level brings some inference conflicts and tends to pose a major obstacle to their applications. In order to eliminate the inference conflicts of QPN, in this paper, we begin by extending the QPN by adding a mutual-information-based weight (MI weight) to each qualitative influence in the QPN. The extended QPN is called MI-QPN. After obtaining the MI weights from the corresponding BN, we discuss the symmetry, transitivity and composition properties of the qualitative influences. Then we extend the general inference algorithm to implement the conflict-free inferences of MI-QPN. The feasibility of our method is verified by the results of the experiment.
