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PubMed Publications| Keyword search (4,163 papers available) |  |
"Cheng G" Authored Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Management of brain-heart multimorbidity: a clinical practice guideline | Edwards JD; Li Z; McFarlane P; Rabi DM; Gilbert J; Bajaj HS; MacIntosh BJ; Bittman J; Feldman RD; Dresser G; Terenzi K; Swartz R; Gabor J; Pearson GJ; Selby P; Wharton S; Warburton DER; Pakhalé S; Styra R; Baker B; Tu K; Hawkins M; Stone JA; Vaillancourt T; Poon S; Virani SA; Jain R; Jones PH; Sandhu RK; Ganesh A; Andrade JG; Stern S; Habert J; Rivard L; Roumeliotis P; Udell JA; Campbell T; Bacon SL; Trudeau L; Keshavjee K; Pham T; Cheng G; Lewis KB; Maar M; Stacey D; Oldenburg B; Dhukai AR; Pasricha SV; Sh | 41912243 HKAP |
| 2 | Ligne directrice C-CHANGE pour l’harmonisation des lignes directrices nationales de prévention et de prise en charge des maladies cardiovasculaires en contexte de soins primaires au Canada: mise à jour 2022 | Jain R; Stone JA; Agarwal G; Andrade JG; Bacon SL; Bajaj HS; Baker B; Cheng G; Dannenbaum D; Gelfer M; Habert J; Hickey J; Keshavjee K; Kitty D; Lindsay P; L' Abbé MR; Lau DCW; Macle L; McDonald M; Nerenberg K; Pearson GJ; Pham T; Poppe AY; Rabi DM; Sherifali D; Selby P; Smith E; Stern S; Thanassoulis G; Terenzi K; Tu K; Udell J; Virani SA; Ward RA; Warburton DER; Wharton S; Zymantas J; Hua-Stewart D; Liu PP; Tobe SW; | 36623864 HKAP |
| 3 | Reinforcement learning for automatic quadrilateral mesh generation: A soft actor-critic approach | Pan J; Huang J; Cheng G; Zeng Y; | 36375347 ENCS |
| 4 | Canadian Cardiovascular Harmonized National Guideline Endeavour (C-CHANGE) guideline for the prevention and management of cardiovascular disease in primary care: 2022 update | Jain R; Stone JA; Agarwal G; Andrade JG; Bacon SL; Bajaj HS; Baker B; Cheng G; Dannenbaum D; Gelfer M; Habert J; Hickey J; Keshavjee K; Kitty D; Lindsay P; L' Abbé MR; Lau DCW; Macle L; McDonald M; Nerenberg K; Pearson GJ; Pham T; Poppe AY; Rabi DM; Sherifali D; Selby P; Smith E; Stern S; Thanassoulis G; Terenzi K; Tu K; Udell J; Virani SA; Ward RA; Warburton DER; Wharton S; Zymantas J; Hua-Stewart D; Liu PP; Tobe SW; | 36343954 HKAP |
| 5 | Wastewater treatment in amine-based carbon capture. | Dong C, Huang G, Cheng G, An C, Yao Y, Chen X, Chen J | 30738317 ENCS |
| 6 | Analyzing the Biochemical Alteration of Green Algae During Chronic Exposure to Triclosan Based on Synchrotron-Based Fourier Transform Infrared Spectromicroscopy. | Xin X, Huang G, An C, Weger H, Cheng G, Shen J, Rosendahl S | 31117408 ENCS |
| Title: | Reinforcement learning for automatic quadrilateral mesh generation: A soft actor-critic approach | ||||
| Authors: | Pan J, Huang J, Cheng G, Zeng Y | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/36375347/ | ||||
| DOI: | 10.1016/j.neunet.2022.10.022 | ||||
| Publication: | Neural networks : the official journal of the International Neural Network Society | ||||
| Keywords: | Computational geometry; Mesh generation; Neural networks; Quadrilateral mesh; Reinforcement learning; Soft actor-critic; | ||||
| PMID: | 36375347 | Category: | Date Added: | 2022-11-15 | |
| Dept Affiliation: |
ENCS
1 Concordia Institute for Information Systems Engineering, Concordia University, Montreal, H3G 1M8, Quebec, Canada. 2 Department of Engineering Management & Systems Engineering, Old Dominion University, Norfolk, 23529, Virginia, United States. 3 Department of Engineering Mechanics, Dalian University of Technology, Dalian, 116023, Liaoning, China. 4 Concordia Institute for Information Systems Engineering, Concordia University, Montreal, H3G 1M8, Quebec, Canada. Electronic address: yong.zeng@concordia.ca. |
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Description: |
This paper proposes, implements, and evaluates a reinforcement learning (RL)-based computational framework for automatic mesh generation. Mesh generation plays a fundamental role in numerical simulations in the area of computer aided design and engineering (CAD/E). It is identified as one of the critical issues in the NASA CFD Vision 2030 Study. Existing mesh generation methods suffer from high computational complexity, low mesh quality in complex geometries, and speed limitations. These methods and tools, including commercial software packages, are typically semiautomatic and they need inputs or help from human experts. By formulating the mesh generation as a Markov decision process (MDP) problem, we are able to use a state-of-the-art reinforcement learning (RL) algorithm called "soft actor-critic" to automatically learn from trials the policy of actions for mesh generation. The implementation of this RL algorithm for mesh generation allows us to build a fully automatic mesh generation system without human intervention and any extra clean-up operations, which fills the gap in the existing mesh generation tools. In the experiments to compare with two representative commercial software packages, our system demonstrates promising performance with respect to scalability, generalizability, and effectiveness. |
