Related references
Note: Only part of the references are listed.Optimized damage identification in CFRP plates by reduced mode shapes and GA-ANN methods
Guilherme Ferreira Gomes et al.
ENGINEERING STRUCTURES (2019)
Fatigue damage effect approach by artificial neural network
Moises Jimenez-Martinez et al.
INTERNATIONAL JOURNAL OF FATIGUE (2019)
The influence of laminate stacking sequence on ballistic limit using a combined Experimental/FEM/Artificial Neural Networks (ANN) methodology
J. A. Artero-Guerrero et al.
COMPOSITE STRUCTURES (2018)
Modelling and simulating of the compressive behavior of T-stiffened composite panels subjected to stiffener impact
Wei Sun et al.
COMPOSITE STRUCTURES (2018)
Numerical and experimental study of dynamic buckling behavior of a J-stiffened composite panel under in-plane shear
Ruixiang Bai et al.
COMPOSITE STRUCTURES (2017)
A nonlocal finite element model for progressive failure analysis of composite laminates
P. F. Liu et al.
COMPOSITES PART B-ENGINEERING (2016)
Experimental study on compressive behavior of GFRP stiffened panels using digital image correlation
Naresh Reddy Kolanu et al.
OCEAN ENGINEERING (2016)
Buckling load prediction of laminated composite stiffened panels subjected to in-plane shear using artificial neural networks
Upendra K. Mallela et al.
THIN-WALLED STRUCTURES (2016)
Experiment and analysis of hat-stringer-stiffened composite curved panels under axial compression
Yuming Mo et al.
COMPOSITE STRUCTURES (2015)
Future structural stability design for composite space and airframe structures
Richard Degenhardt et al.
THIN-WALLED STRUCTURES (2014)
Dynamic buckling of a laminated composite stringer-stiffened cylindrical panel
H. Less et al.
COMPOSITES PART B-ENGINEERING (2012)
Complex-valued autoencoders
Pierre Baldi et al.
NEURAL NETWORKS (2012)
Calculation of the collapse load of an axially compressed laminated composite stringer-stiffened curved panel - An engineering approach
P. Pevzner et al.
COMPOSITE STRUCTURES (2008)
Delamination analysis in high speed drilling of carbon fiber reinforced plastics (CFRP) using artificial neural network model
S. R. Karnik et al.
MATERIALS & DESIGN (2008)
Reducing the dimensionality of data with neural networks
G. E. Hinton et al.
SCIENCE (2006)
Modeling the mechanical behavior of fiber-reinforced polymeric composite materials using artificial neural networks - A review
H El Kadi
COMPOSITE STRUCTURES (2006)
Artificial neural network based delamination prediction in laminated composites
D Chakraborty
MATERIALS & DESIGN (2005)
Artificial neural networks applied to polymer composites: a review
Z Zhang et al.
COMPOSITES SCIENCE AND TECHNOLOGY (2003)