Your search keyword '"Yang, Judy"' showing total 9 results

1. Time-dependent nonlinear collocation method and stability analysis for natural convection problems.

Author

Yang, Judy P. and Chen, Yu-Ruei

Subjects

*NATURAL heat convection, *COLLOCATION methods, *DARCY'S law, *MESHFREE methods, *STREAM function, *NEWTON-Raphson method, *RUNGE-Kutta formulas

Abstract

A time-dependent nonlinear framework based on meshfree collocation is proposed for solving natural convection problems involving multi-phases, in which the third-order Runge-Kutta method is introduced for temporal discretization while the two-step Newton-Raphson method is adopted for nonlinear iteration. To reduce the number of field variables, the common stream function-velocity equation is not directly used; instead, Darcy's law is introduced so that a three-phase coupling system describing natural convection can be established in terms of the stream function, vorticity, and temperature. As the resulting system is highly nonlinear, especially with vorticity involved, obtaining satisfactory solutions remains a challenging task. In view of flexibility and local nature of the reproducing kernel shape functions, they are adopted as the foundation of the proposed framework. Additionally, the corresponding stability analysis is carried out. The efficacy of the framework is demonstrated by the benchmark examples. To further explore the avenue to solve more complicated nonlinear problems, a four-phase coupling system involving concentration in addition to the aforementioned three variables is investigated. It is shown that the proposed solution strategy is capable of untangling the multi-phase coupling problems with and without double-diffusion. [ABSTRACT FROM AUTHOR]

Published

2024

2. Meshfree Collocation Framework for Multi-Phase Coupling Nonlinear Dynamic System in a Porous Enclosure.

Author

Yang, Judy P. and Chang, Heng-Chun

Subjects

*NONLINEAR dynamical systems, *NEWTON-Raphson method, *COLLOCATION methods, *MESHFREE methods, *NONLINEAR systems

Abstract

This study is aimed at establishing an effective incremental-iterative framework, for the first time, using reproducing kernel collocation method for solving multi-phase dynamic coupling problems in a porous enclosure. The central difference method is utilized in the temporal discretization while direct collocation with reproducing kernel approximation is adopted in the spatial discretization, in particular, with Newton–Raphson method for nonlinear iteration. Under the proposed numerical framework, a determined and well-conditioned nonlinear system is ensured during nonlinear iteration. In addition to the traditional mesh-based weak-form methods, it is shown that the present study provides an alternative effective approach to solve unsteady-state double-diffusive convection problems. [ABSTRACT FROM AUTHOR]

Published

2022

3. Gradient Enhanced Localized Radial Basis Collocation Method for Inverse Analysis of Cauchy Problems.

Author

Yang, Judy P. and Chen, Yuan-Chia

Subjects

CAUCHY problem, COLLOCATION methods, RADIAL basis functions, LINEAR differential equations, BOUNDARY value problems, INVERSE problems

Published

2020

4. Investigation of Multiply Connected Inverse Cauchy Problems by Efficient Weighted Collocation Method.

Author

Yang, Judy P. and Lin, Qizheng

Subjects

INVERSE problems, CAUCHY problem, COLLOCATION methods, BOUNDARY value problems, LINEAR differential equations, INVESTIGATIONS

Published

2020

5. Weighted reproducing kernel collocation method based on error analysis for solving inverse elasticity problems.

Author

Yang, Judy P. and Hsin, Wen-Chims

Subjects

*INVERSE problems, *COLLOCATION methods, *MATHEMATICAL errors, *ERROR analysis in mathematics, *CAUCHY problem, *KERNEL functions

Abstract

For inverse problems equipped with incomplete boundary conditions, a simple solution strategy to obtain approximations remains a challenge in the fields of engineering and science. Based on our previous study, the weighted reproducing kernel collocation method (W-RKCM) shows optimal convergence in solving inverse Cauchy problems. As such, this work further introduces the W-RKCM to solve inverse problems in elasticity. From mathematical error estimate and numerical convergence study, it is shown that the weighted least-squares formulation can properly balance the errors in the domain and on the boundary. By comparing the approximations obtained by W-RKCM with those obtained by the direct collocation method, the reproducing kernel shape function can retain the locality without using a large support size, and the corresponding approximations exhibit extremely high solution accuracy. The stability of the W-RKCM is demonstrated by adding noise on the boundary conditions. This work shows the efficacy of the proposed W-RKCM in solving inverse elasticity problems as no additional technique is involved to reach the desired solution accuracy in comparison with the existing methods in the literature. [ABSTRACT FROM AUTHOR]

Published

2019

6. Solving Inverse Laplace Equation with Singularity by Weighted Reproducing Kernel Collocation Method.

Author

Yang, Judy P., Guan, Pai-Chen, and Fan, Chia-Ming

Subjects

LAPLACE transformation, KERNEL (Mathematics), COLLOCATION methods, INVERSE problems, CAUCHY problem

Published

2017

7. Recovering Heat Source from Fourth-Order Inverse Problems by Weighted Gradient Collocation.

Author

Yang, Judy P. and Li, Hsiang-Ming

Subjects

*INVERSE problems, *COLLOCATION methods, *PARTIAL differential equations, *MATHEMATICAL models, *KERNEL functions

Abstract

The weighted gradient reproducing kernel collocation method is introduced to recover the heat source described by Poisson's equation. As it is commonly known that there is no unique solution to the inverse heat source problem, the weak solution based on a priori assumptions is considered herein. In view of the fourth-order partial differential equation (PDE) in the mathematical model, the high-order gradient reproducing kernel approximation is introduced to efficiently untangle the problem without calculating the high-order derivatives of reproducing kernel shape functions. The weights of the weighted collocation method for high-order inverse analysis are first determined. In the benchmark analysis, the unclear illustration in the literature is clarified, and the correct interpretation of numerical results is given particularly. Two mathematical formulations with four examples are provided to demonstrate the viability of the method, including the extreme cases of the limited accessible boundary. [ABSTRACT FROM AUTHOR]

Published

2022

8. Direct Collocation with Reproducing Kernel Approximation for Two-Phase Coupling System in a Porous Enclosure.

Author

Yang, Judy P., Liao, Yi-Shan, Kamil Żur, Krzysztof, Kim, Jinseok, and Reddy, J. N.

Subjects

*NATURAL heat convection, *NEWTON-Raphson method, *POROUS materials, *NONLINEAR analysis, *BENCHMARK problems (Computer science), *COLLOCATION methods

Abstract

The direct strong-form collocation method with reproducing kernel approximation is introduced to efficiently and effectively solve the natural convection problem within a parallelogrammic enclosure. As the convection behavior in the fluid-saturated porous media involves phase coupling, the resulting system is highly nonlinear in nature. To this end, the local approximation is adopted in conjunction with Newton–Raphson method. Nevertheless, to unveil the performance of the method in the nonlinear analysis, only single thermal natural convection is of major concern herein. A unit square is designated as the model problem to investigate the parameters in the system related to the convergence; several benchmark problems are used to verify the accuracy of the approximation, in which the stability of the method is demonstrated by considering various initial conditions, disturbance of discretization, inclination, aspect ratio, and reproducing kernel support size. It is shown that a larger support size can be flexible in approximating highly irregular discretized problems. The derivation of explicit operators with two-phase variables in solving the nonlinear system using the direct collocation is carried out in detail. [ABSTRACT FROM AUTHOR]

Published

2021

9. Detecting Inverse Boundaries by Weighted High-Order Gradient Collocation Method.

Author

Yang, Judy P. and Lam, Hon Fung Samuel

Subjects

*INVERSE problems, *GEOGRAPHIC boundaries, *COLLOCATION methods, *KERNEL functions

Abstract

The weighted reproducing kernel collocation method exhibits high accuracy and efficiency in solving inverse problems as compared with traditional mesh-based methods. Nevertheless, it is known that computing higher order reproducing kernel (RK) shape functions is generally an expensive process. Computational cost may dramatically increase, especially when dealing with strong-from equations where high-order derivative operators are required as compared to weak-form approaches for obtaining results with promising levels of accuracy. Under the framework of gradient approximation, the derivatives of reproducing kernel shape functions can be constructed synchronically, thereby alleviating the complexity in computation. In view of this, the present work first introduces the weighted high-order gradient reproducing kernel collocation method in the inverse analysis. The convergence of the method is examined through the weights imposed on the boundary conditions. Then, several configurations of multiply connected domains are provided to numerically investigate the stability and efficiency of the method. To reach the desired accuracy in detecting the outer boundary for two special cases, special treatments including allocation of points and use of ghost points are adopted as the solution strategy. From four benchmark examples, the efficacy of the method in detecting the unknown boundary is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2020