Your search keyword '"GUANGQIANG XIAO"' showing total 5 results

1. AONN: AN ADJOINT-ORIENTED NEURAL NETWORK METHOD FOR ALL-AT-ONCE SOLUTIONS OF PARAMETRIC OPTIMAL CONTROL PROBLEMS.

Author

PENGFEI YIN, GUANGQIANG XIAO, KEJUN TANG, and CHAO YANG

Subjects

*ARTIFICIAL neural networks, *PARTIAL differential equations, *PARAMETRIC modeling, *LIFTING & carrying (Human mechanics)

Abstract

Parametric optimal control problems governed by partial differential equations (PDEs) are widely found in scientific and engineering applications. Traditional grid-based numerical methods for such problems generally require repeated solutions of PDEs with different parameter settings, which is computationally prohibitive, especially for problems with high-dimensional parameter spaces. Although recently proposed neural network methods make it possible to obtain the optimal solutions simultaneously for different parameters, challenges still remain when dealing with problems with complex constraints. In this paper, we propose the AONN, an adjoint-oriented neural network method, to overcome the limitations of existing approaches in solving parametric optimal control problems. In an AONN, the neural networks are served as parametric surrogate models for the control, adjoint, and state functions to get the optimal solutions all at once. In order to reduce the training difficulty and handle complex constraints, we introduce an iterative training framework inspired by the classical direct-adjoint looping method so that penalty terms arising from the Karush--Kuhn--Tucker system can be avoided. Once the training is done, parameter-specific optimal solutions can be quickly computed through the forward propagation of the neural networks, which may be further used for analyzing the parametric properties of the optimal solutions. The validity and efficiency of the AONN is demonstrated through a series of numerical experiments with problems involving various types of parameters. [ABSTRACT FROM AUTHOR]

Published

2024

2. Flammability and thermal analysis of thermoplastic polyurethane/DOPO derivative/sepiolite composites

Author

He Weidi, Hongming Wu, Ying Zhou, Xu Dinghong, Guangqiang Xiao, Jianbing Guo, Shuhao Qin, Lan Xie, and Min He

Subjects

chemistry.chemical_classification, Materials science, Sepiolite, Polymer, Condensed Matter Physics, Combustion, Fire performance, Thermoplastic polyurethane, chemistry, Flexural strength, Physical and Theoretical Chemistry, Composite material, Thermal analysis, Flammability

Abstract

Thermoplastic polyurethane was an important polymer and widely used in many fields. However, poor fire performance significantly inhibits its further application. In this study, the flammability, thermal and mechanical properties of thermoplastic polyurethane (TPU)/DOPO derivative (DiDOPO)/sepiolite composites, fabricated by a melt blending process, were examined based on the sepiolite content. TPUSEP3 has achieved UL-94 V0 classes and LOI 34.4%. Micro-scale combustion calorimeter shows that TPU/DiDOPO/sepiolite composites possess an excellent fire performance. Flexural strength of TPUSEP3 has enhanced to 48.3 MPa which indicated the rigidity of composites has significantly improved. In addition, the scanning electronic microscopy images of the external surface of the carbon layer of composites show a very compact structure. Sepiolite and DiDOPO change the decomposition process of composites lead to the decrease of Ea values of TPU/DiDOPO/sepiolite composites.

Published

2021

3. The combined plasticization of jute and tung oil anhydride for jute fiber reinforced poly(lactic acid) composites

Author

Lan Xie, Xiaolang Chen, Ying Zhou, Can Chen, Shuhao Qin, Yong He, Jianbing Guo, and Guangqiang Xiao

Subjects

chemistry.chemical_compound, Materials science, Polymers and Plastics, chemistry, Materials Chemistry, Ceramics and Composites, Plasticizer, Fiber, Composite material, Melt blending, Lactic acid

Abstract

In this work, novel plasticizing biodegradable poly (lactic acid) (PLA) composites were prepared by melt blending of jute and tung oil anhydride (TOA), and the physical and mechanical properties of PLA/jute/TOA composites were tested and characterized. The impact strength of PLA/jute/TOA composites significantly increases with increasing the content of TOA. The SEM images of fracture surface of PLA/jute/TOA composites become rough after the incorporation of TOA. In addition, TOA changes the crystallization temperature and decomposition process of PLA/jute/TOA composites. With increasing the amount of TOA, the value of storage modulus (E′) of PLA/jute/TOA composites gradually increases. The complex viscosity (η*) values for all samples reduce obviously with increasing the frequency, which means that the pure PLA and PLA/jute/TOA composites is typical pseudoplastic fluid. This is attributed to the formation of crosslinking, which restricts the deformation of the composites.

Published

2021

4. An Enhanced Ikeda System by Modifying Nonlinear Function

Author

Bo Li, Yan Jiang, Songlin Wu, Guangqiang Xiao, and Tinghong Yang

Published

2022

5. An Improved Ikeda System and Its Application in Image Encryption

Author

Bo Li, Yan Jiang, Guangqiang Xiao, Tinghong Yang, Songlin Wu, and Rulan Zhao

Published

2022