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Faculties & Institutes
Faculty of Scien... [3]
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KOU KIT IAN [1]
SU YAN [1]
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Journal article [3]
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2024 [1]
2020 [2]
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英語English [3]
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Chemical Enginee... [2]
IEEE Signal Proc... [1]
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Hypercomplex Signal Processing in Digital Twin of the Ocean: Theory and application [Hypercomplex Signal and Image Processing]
Journal article
Yu, Zhaoyuan, Li, Dongshuang, Du, Pei, Luo, Wen, Kou, Kit Ian, Bhatti, Uzair Aslam, Benger, Werner, Lv, Guonian, Yuan, Linwang. Hypercomplex Signal Processing in Digital Twin of the Ocean: Theory and application [Hypercomplex Signal and Image Processing][J]. IEEE Signal Processing Magazine, 2024, 41(3), 33-48.
Authors:
Yu, Zhaoyuan
;
Li, Dongshuang
;
Du, Pei
;
Luo, Wen
;
Kou, Kit Ian
; et al.
Favorite
|
TC[WOS]:
0
TC[Scopus]:
0
IF:
9.4
/
18.0
|
Submit date:2024/09/03
Analytical Models
Computational Modeling
Data Visualization
Geoscience
Signal Processing
Predictive Models
Hypercomplex
Digital Twins
Oceanography
Artificial Intelligence
High Performance Computing
Sparse scattered high performance computing data driven artificial neural networks for multi-dimensional optimization of buoyancy driven heat and mass transfer in porous structures
Journal article
Su,Yan, Ng,Tiniao, Li,Zhigang, Davidson,Jane H.. Sparse scattered high performance computing data driven artificial neural networks for multi-dimensional optimization of buoyancy driven heat and mass transfer in porous structures[J]. Chemical Engineering Journal, 2020, 397, 125257.
Authors:
Su,Yan
;
Ng,Tiniao
;
Li,Zhigang
;
Davidson,Jane H.
Favorite
|
TC[WOS]:
11
TC[Scopus]:
11
IF:
13.3
/
13.2
|
Submit date:2021/03/11
Artificial Neural Network
Controllable Structure Generation Scheme
High Performance Computing
Objective Function
Parallel Non-dimensional Lattice Boltzmann Method
Sparse scattered high performance computing data driven artificial neural networks for multi-dimensional optimization of buoyancy driven heat and mass transfer in porous structures
Journal article
Su, Y., Ng, T.I., Li, Z.G., Davidson, J.H.. Sparse scattered high performance computing data driven artificial neural networks for multi-dimensional optimization of buoyancy driven heat and mass transfer in porous structures[J]. Chemical Engineering Journal, 2020, 125257-125257.
Authors:
Su, Y.
;
Ng, T.I.
;
Li, Z.G.
;
Davidson, J.H.
Favorite
|
IF:
13.3
/
13.2
|
Submit date:2023/08/16
Artificial neural network
Controllable structure generation scheme
High performance computing
Objective function
Parallel non-dimensional lattice Boltzmann method
