Your search keyword '"Xiang, Shang"' showing total 12 results

1. Node-Aligned Graph-to-Graph: Elevating Template-free Deep Learning Approaches in Single-Step Retrosynthesis.

Author

Yao, Lin, Yao, Lin, Guo, Wentao, Wang, Zhen, Xiang, Shang, Liu, Wentan, Ke, Guolin, Yao, Lin, Yao, Lin, Guo, Wentao, Wang, Zhen, Xiang, Shang, Liu, Wentan, and Ke, Guolin

Abstract

Single-step retrosynthesis in organic chemistry increasingly benefits from deep learning (DL) techniques in computer-aided synthesis design. While template-free DL models are flexible and promising for retrosynthesis prediction, they often ignore vital 2D molecular information and struggle with atom alignment for node generation, resulting in lower performance compared to the template-based and semi-template-based methods. To address these issues, we introduce node-aligned graph-to-graph (NAG2G), a transformer-based template-free DL model. NAG2G combines 2D molecular graphs and 3D conformations to retain comprehensive molecular details and incorporates product-reactant atom mapping through node alignment, which determines the order of the node-by-node graph outputs process in an autoregressive manner. Through rigorous benchmarking and detailed case studies, we have demonstrated that NAG2G stands out with its remarkable predictive accuracy on the expansive data sets of USPTO-50k and USPTO-FULL. Moreover, the models practical utility is underscored by its successful prediction of synthesis pathways for multiple drug candidate molecules. This proves not only NAG2Gs robustness but also its potential to revolutionize the prediction of complex chemical synthesis processes for future synthetic route design tasks.

Published

2024

2. Node-Aligned Graph-to-Graph (NAG2G): Elevating Template-Free Deep Learning Approaches in Single-Step Retrosynthesis

Author

Yao, Lin, Guo, Wentao, Wang, Zhen, Xiang, Shang, Liu, Wentan, Ke, Guolin, Yao, Lin, Guo, Wentao, Wang, Zhen, Xiang, Shang, Liu, Wentan, and Ke, Guolin

Abstract

Single-step retrosynthesis (SSR) in organic chemistry is increasingly benefiting from deep learning (DL) techniques in computer-aided synthesis design. While template-free DL models are flexible and promising for retrosynthesis prediction, they often ignore vital 2D molecular information and struggle with atom alignment for node generation, resulting in lower performance compared to the template-based and semi-template-based methods. To address these issues, we introduce Node-Aligned Graph-to-Graph (NAG2G), a transformer-based template-free DL model. NAG2G combines 2D molecular graphs and 3D conformations to retain comprehensive molecular details and incorporates product-reactant atom mapping through node alignment which determines the order of the node-by-node graph outputs process in an auto-regressive manner. Through rigorous benchmarking and detailed case studies, we have demonstrated that NAG2G stands out with its remarkable predictive accuracy on the expansive datasets of USPTO-50k and USPTO-FULL. Moreover, the model's practical utility is underscored by its successful prediction of synthesis pathways for multiple drug candidate molecules. This not only proves NAG2G's robustness but also its potential to revolutionize the prediction of complex chemical synthesis processes for future synthetic route design tasks.

Published

2023

3. A Low-Profile Wideband Dual-Resonance Tri-Port MIMO Antenna

Author

Nie, Liying, Lau, Buon Kiong, Aliakbari Abar, Hanieh, Xiang, Shang, Wang, Bao, Lin, Xianqi, Nie, Liying, Lau, Buon Kiong, Aliakbari Abar, Hanieh, Xiang, Shang, Wang, Bao, and Lin, Xianqi

Abstract

A low-profile wideband tri-polarized MIMO antenna is proposed in this paper. Based on characteristic mode analysis of a circular patch, four slots are etched symmetrically on the patch to transform the high-order monopole-like modes into broadside modes with lower resonant frequencies. Four sets of shorting pins are also applied to simultaneously adjust the resonant frequencies of the monopole-like modes and broadside fundamental modes of the patch. The effects of the slots and the shorting pins on these modes are analyzed in detail. Three dual-resonance ports with high isolation are achieved by exciting three pairs of orthogonal modes of the patch. The proposed antenna is wideband with respect to its profile (bandwidth/height = 216), as facilitated by the dual-resonance property of each port. Experimental results show that the proposed antenna features high port isolation (> 35 dB) and high gain (> 5.58 dB). The proposed low-profile wideband tri-port antenna can be applied in highly integrated MIMO systems.

Published

2022

4. A low-profile wideband dual-resonance tri-port MIMO antenna

Author

Nie, Liying, Lau, Buon Kiong, Aliakbari Abar, Hanieh, Xiang, Shang, Wang, Bao, Lin, Xianqi, Nie, Liying, Lau, Buon Kiong, Aliakbari Abar, Hanieh, Xiang, Shang, Wang, Bao, and Lin, Xianqi

Abstract

A low-profile wideband tri-polarized MIMO antenna is proposed in this paper. Based on characteristic mode analysis of a circular patch, four slots are etched symmetrically on the patch to transform the high-order monopole-like modes into broadside modes with lower resonant frequencies. Four sets of shorting pins are also applied to simultaneously adjust the resonant frequencies of the monopole-like modes and broadside fundamental modes of the patch. The effects of the slots and the shorting pins on these modes are analyzed in detail. Three dual-resonance ports with high isolation are achieved by exciting three pairs of orthogonal modes of the patch. The proposed antenna is wideband with respect to its profile (bandwidth/height = 216), as facilitated by the dual-resonance property of each port. Experimental results show that the proposed antenna features high port isolation (> 35 dB) and high gain (> 5.58 dB). The proposed low-profile wideband tri-port antenna can be applied in highly integrated MIMO systems.

Published

2022

5. Fast Electromagnetic Validations of Large-Scale Digital Coding Metasurfaces Accelerated by Recurrence Rebuild and Retrieval Method

Author

Zhao, Yu, Xiang, Shang, Li, Long, Zhao, Yu, Xiang, Shang, and Li, Long

Abstract

The recurrence rebuild and retrieval method (R3M) is proposed in this paper to accelerate the electromagnetic (EM) validations of large-scale digital coding metasurfaces (DCMs). R3M aims to accelerate the EM validations of DCMs with varied codebooks, which involves the analysis of a group of similar but not identical structures. The method transforms general DCMs to rigorously periodic arrays by replacing each coding unit with the macro unit, which comprises all possible coding states. The system matrix corresponding to the rigorously periodic array is globally shared for DCMs with arbitrary codebooks via implicit retrieval. The discrepancy of the interactions for edge and corner units are precluded by the basis extension of periodic boundaries. Moreover, the hierarchical pattern exploitation (HPE) algorithm is leveraged to efficiently assemble the system matrix for further acceleration. Due to the fully utilization of the rigid periodicity, the computational complexity of R3M-HPE is theoretically lower than that of $\mathcal{H}$-matrix within the same paradigm. Numerical results for two types of DCMs indicate that R3M-HPE is accurate in comparison with commercial software. Besides, R3M-HPE is also compatible with the preconditioning for efficient iterative solutions. The efficiency of R3M-HPE for DCMs outperforms the conventional fast algorithms in both the storage and CPU time cost., Comment: under review

Published

2021

6. Black Bamboo Rhizome Extract Improves Cognitive Dysfunction by Upregulating the Expression of Hippocampal BDNF and CREB in Rats with Cerebral Ischaemia-Reperfusion Injury

Author

Yi,Chuan-An, Jiang,Yu-Hong, Wang,Ye, Li,Yu-Xian, Cai,Shi-Chang, Wu,Xiu-Yu, Hu,Xiang-Shang, Wan,Xing-Guang, Yi,Chuan-An, Jiang,Yu-Hong, Wang,Ye, Li,Yu-Xian, Cai,Shi-Chang, Wu,Xiu-Yu, Hu,Xiang-Shang, and Wan,Xing-Guang

Abstract

Chuan-An Yi,1,* Yu-Hong Jiang,1,* Ye Wang,2 Yu-Xian Li,3 Shi-Chang Cai,4 Xiu-Yu Wu,4 Xiang-Shang Hu,4 Xing-Guang Wan4 1Medical Morphology Experimental Center, Hunan University of Medicine, Hunan, People’s Republic of China; 2Key Laboratory of Dong Medical Research Hunan Province, Hunan, People’s Republic of China; 3Department of Neurology, Hunan University of Medicine, Hunan, People’s Republic of China; 4Department of Anatomy, Hunan University of Medicine, Hunan, People’s Republic of China*These authors contributed equally to this workCorrespondence: Chuan-An YiMedical Morphology Experimental Center, Hunan University of Medicine, Huaihua, 418000, Hunan Province, People’s Republic of ChinaTel +86-18674537258Email 2271604137@qq.comXing-Guang WanDepartment of Anatomy, Hunan University of Medicine, Hunan, People’s Republic of ChinaTel +86 4752382481Email 414032018@qq.comIntroduction: The study aimed to explore the effects of treatment with black bamboo rhizome extracts on learning and memory and determine the underlying mechanisms in rats with cerebral ischaemia-reperfusion injury.Methods: Sprague-Dawley rats were randomly divided into the following four groups: control, middle cerebral artery occlusion (MCAO), low-dose drug, and high-dose drug groups. Rats underwent MCAO using a suture method before drug treatment. Then, neurological impairment was assessed using the Longa scoring method, and triphenyl tetrazolium chloride staining was used to analyse the cerebral infarction area. The Elliott formula was used to calculate water content in the brain tissue. A Morris water maze (MWM) was used to assess changes in learning and memory abilities, and Western blotting was used to detect cyclic adenosine phosphate response element-binding protein (CREB) and brain-derived neurotrophic factor (BDNF) expression in the hippocampus of MCAO rats.Results: After treatment with black bamboo rhizome extracts, the neurological dysfunction score was lo

Published

2021

7. Wideband design of compact monopole-Like circular patch antenna using modal analysis

Author

Nie, Liying, Lau, Buon Kiong, Xiang, Shang, Aliakbari Abar, Hanieh, Wang, Bao, Lin, Xian Qi, Nie, Liying, Lau, Buon Kiong, Xiang, Shang, Aliakbari Abar, Hanieh, Wang, Bao, and Lin, Xian Qi

Abstract

In this paper, we present a systematic approach to design a compact dual-mode monopole-like patch antenna using characteristic mode analysis (CMA). The modal analysis of a slotted circular patch structure incorporating a new shorting pin loading technique is presented. To achieve a compact monopole-like antenna with wideband operation, it is demonstrated that the first two significant modes with monopole-like patterns are the most suitable ones for dual-mode excitation. Based on the analysis of the modal currents and electric fields, four groups of shorting pins and four slots are introduced to individually tune the two modes, which facilitates the optimization. The effects of these slots and shorting pins on the resonant frequencies of the two modes are analyzed in detail. Finally, a CPW T-junction power divider is applied to simultaneously excite these two modes and suppress the undesired modes. Apart from a more compact form factor and higher gain than existing work, it also features a competitive gain-bandwidth per volume ratio.

Published

2021

8. Fit2Crash: Specialising Fitness Functions for Crash Reproduction

Author

Xiang, Shang (author) and Xiang, Shang (author)

Abstract

Software applications inevitably crash, and it is time-consuming to recreate the crash conditions for debugging. Recently, researchers have developed frameworks relying on genetic algorithms, e.g. Botsing, for automated crash reproduction. However, the existing approaches process exceptions of different types as if they were the same. In this thesis, we study how the four most common types of Java exceptions are thrown and define specialised fitness functions for them. We have extended Botsing and carried out an evaluation against 52 real-world crashes from seven various open-source software applications. Our results show that our proposed fitness functions influence both the effectiveness and efficiency, negatively or positively depending on the type of the target exception. This thesis demonstrates how tailoring the fitness functions according to the exception type can improve search-based crash reproduction., STAMP-project | Botsing, Computer Science

Published

2020

9. Fit2Crash: Specialising Fitness Functions for Crash Reproduction

Author

Xiang, Shang (author) and Xiang, Shang (author)

Abstract

Software applications inevitably crash, and it is time-consuming to recreate the crash conditions for debugging. Recently, researchers have developed frameworks relying on genetic algorithms, e.g. Botsing, for automated crash reproduction. However, the existing approaches process exceptions of different types as if they were the same. In this thesis, we study how the four most common types of Java exceptions are thrown and define specialised fitness functions for them. We have extended Botsing and carried out an evaluation against 52 real-world crashes from seven various open-source software applications. Our results show that our proposed fitness functions influence both the effectiveness and efficiency, negatively or positively depending on the type of the target exception. This thesis demonstrates how tailoring the fitness functions according to the exception type can improve search-based crash reproduction., STAMP-project | Botsing, Computer Science

Published

2020

10. Preliminary study on differences between full-and sub-structure characteristic modes

Author

Xiang, Shang, Lau, Buon Kiong, Xiang, Shang, and Lau, Buon Kiong

Abstract

In this paper, full-and sub-structure characteristic modes (CMs) are explored through the effect of coupling between the target and background structures. The eigenvalues and eigen-current distributions of the first few modes are compared for different coupling levels in the numerical example. Similarities and differences between the two types of CMs in specific conditions are revealed, paving the way for further feasibility studies of the sub-structure method for antenna design.

Published

2019

11. A 36-Element Solution To Schneiders' Pyramid Hex-Meshing Problem And A Parity-Changing Template For Hex-Mesh Revision

Author

Xiang, Shang, Liu, Jianfei, Xiang, Shang, and Liu, Jianfei

Abstract

In this paper, we present a solution that uses the least number of hexahedra to build a pyramid, which is the key block required for one type of automatic hex-meshing method to be successful. When the initial result of a hex-meshing program is not appropriate for specific applications, some templates are used for revision. The templates reported thus far are parity-preserving, which means that the parity of the number of hexahedra in a mesh is unchanged after a revision following the templates. We present a parity-changing template that makes the template set integral and more effective. These two findings are obtained by a program that we developed for this study, which is a tool for researchers to observe the characteristics of small hexahedral packings., Comment: 7 pages, 12 figures

Published

2018

12. The prognostic role of Gas6/Axl axis in solid malignancies: a meta-analysis and literature review

Author

Zhang,Sheng, Xu,Xiang Shang, Yang,Jie Xi, Guo,Jian Hui, Chao,Teng Fei, Tong,YiXin, Zhang,Sheng, Xu,Xiang Shang, Yang,Jie Xi, Guo,Jian Hui, Chao,Teng Fei, and Tong,YiXin

Abstract

Sheng Zhang,1 Xiang Shang Xu,1 Jie Xi Yang,1 Jian Hui Guo,1 Teng Fei Chao,2 YiXin Tong1 1Department of Gastrointestinal Surgery, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China; 2Department of Oncology, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China Background: Axl is a receptor tyrosine kinase that is involved in many pathological conditions and carcinogenesis. Gas6 is the major ligand of Axl. Activation of Gas6/Axl pathway is essential for cancer development. However, its prognostic significance in solid tumors remains unclear. Therefore, we performed this meta-analysis to elucidate the prognostic impact of Axl.Methods: Published studies on Axl or Gas6 expression and overall survival (OS) and/or disease-free survival (DFS) were searched from databases. The outcome measurement is hazard ratio (HR) for OS or DFS related to Axl/Gas6 expression. Meta-analysis was performed using RevMan. The pooled HR was calculated by fixed-/random-effect models.Results: A total of 3,344 patients from 25 studies were included. The results of meta-analysis showed that Axl overexpression was correlated with shorter OS (HR: 2.03, p<0.0001) and DFS (HR: 1.85, p<0.0001). In subgroup analysis, Axl expression was significantly correlated with poor prognosis in hepatocellular, esophageal and lung cancer. Axl expression was associated with differentiation grade, TNM stage, lymph node and distant metastasis.Conclusion: These results suggest that Axl overexpression is correlated with poor prognosis in solid tumors. This correlation varies among different types of cancers. More studies are needed to further investigate the prognostic value of Axl. Keywords: Gas6/Axl, prognosis, solid tumor, biomarker, meta-analysis, overall survival, disease-free survival

Published

2018