Modeling heterogeneous materials via two-point correlation functions: basic principles.
about
Stretch-induced network reconfiguration of collagen fibres in the human facet capsular ligamentStalking the Materials Genome: A Data-Driven Approach to the Virtual Design of Nanostructured Polymers.Modeling heterogeneous materials via two-point correlation functions. II. Algorithmic details and applications.Geometrical ambiguity of pair statistics. II. Heterogeneous media.Modeling clustered activity increase in amyloid-beta positron emission tomographic images with statistical descriptors.Universal spatial correlation functions for describing and reconstructing soil microstructure.Quantitative computerized two-point correlation analysis of lung CT scans correlates with pulmonary function in pulmonary sarcoidosisUniversal Stochastic Multiscale Image Fusion: An Example Application for Shale Rock.A superior descriptor of random textures and its predictive capacity.A brief introduction to computer-intensive methods, with a view towards applications in spatial statistics and stereology.Microstructural Analysis and Rheological Modeling of Asphalt Mixtures Containing Recycled Asphalt Materials.Efficient three-phase reconstruction of heterogeneous material from 2D cross-sections via phase-recovery algorithm.Two-Point Correlation as a Feature for Histology Images: Feature Space Structure and Correlation Updating.Efficient 3D porous microstructure reconstruction via Gaussian random field and hybrid optimization.Reconstruction of nonstationary disordered materials and media: Watershed transform and cross-correlation function.Three-dimensional reconstruction of statistically optimal unit cells of polydisperse particulate composites from microtomography.Structure development of resorcinol-formaldehyde gels: microphase separation or colloid aggregation.Evaluating the morphological completeness of a training image.Characterization and reconstruction of 3D stochastic microstructures via supervised learning.Inferring low-dimensional microstructure representations using convolutional neural networks.Microstructure and mechanical properties of hyperuniform heterogeneous materials.Gold nanorod length controls dispersion, local ordering, and optical absorption in polymer nanocomposite films.Lattice Boltzmann formulation for conjugate heat transfer in heterogeneous media.Collagen Organization in Facet Capsular Ligaments Varies With Spinal Region and With Ligament Deformation.Stochastic reconstruction using multiple correlation functions with different-phase-neighbor-based pixel selection.Cross-correlation function for accurate reconstruction of heterogeneous media.Microstructural degeneracy associated with a two-point correlation function and its information content.Statistics of highly heterogeneous flow fields confined to three-dimensional random porous media.Multigrid hierarchical simulated annealing method for reconstructing heterogeneous media.Biopolymer network geometries: characterization, regeneration, and elastic properties.Fractal heterogeneous media.Geometrical ambiguity of pair statistics: point configurations.Dynamic reconstruction of heterogeneous materials and microstructure evolution.Stochastic theory of dynamic permeability in poroelastic mediaPrediction and Evaluation of Time-Dependent Effective Self-diffusivity of Water and Other Effective Transport Properties Associated with Reconstructed Porous Solids
P2860
Q30366883-94B2F0DC-D248-4C7F-8365-BE370146BF1CQ31121706-4915A464-E4E6-4671-A4C1-F481E22B1113Q33339490-A21B64F7-C4E8-4A39-BA1E-B22C24CC7CA5Q33702192-0C7B807A-8843-4E17-98A6-F4764D21C274Q35535470-90D177A7-F741-421A-8AE1-63A3F75482F5Q35641552-5FCD7F2C-18F5-48D3-9ED8-B968CB23201EQ35879613-3613D1D4-4860-4667-90E6-C3F0158E0409Q36237631-BFC4C958-E57B-4AEC-A278-5A728DA5DD64Q37394365-3947C16D-BF1C-4D6B-B2A1-9E077C73ECE0Q37813795-D28E5136-835F-44E9-8357-578029D6E649Q38434615-874ECAE6-9B50-4750-A5F2-5157523BCEF5Q40397232-B94E9CFF-92FA-4183-8993-79629FF88CE1Q42941211-A270E16A-5F8F-493B-ACAE-3B4EA3373FE6Q45411764-FB3BE605-443A-4716-BB26-AA8E12B34065Q46172288-B4E7C42B-A1C2-4593-9B7F-89B0FCB2C885Q46342397-DF8A52F7-3A2F-4E23-BB7B-54CE401FF614Q46563479-9111E9D4-737F-46D5-AB7F-6ADAB244FE96Q47800279-49501B30-BB2D-4BE4-B691-53D4CCD1B612Q48521941-E6932E63-7940-4155-8CB7-6F1349C6B656Q49957530-71232927-1C5A-4FB6-B7BF-57140BDA4ED1Q49959085-C7467B75-F882-4B9C-A1B3-DF7841C77956Q50224452-8A167C4F-7F60-463C-AE1E-F6F206DBB95BQ50948616-0AC1B876-0EE5-48E4-A273-951BD899896CQ50988143-768962DB-2552-426C-9BEF-E4CEBC39C693Q51038757-C815569A-D85A-40B6-9743-9BB1571B3D8CQ51258888-60FCD326-1FBF-45CF-A944-4528B1E1A322Q51320114-F7BD56DE-2C69-4753-93B1-0DE59AA20DE9Q51527000-3AB0FC70-89B7-4A0F-B9BC-B1BB904B59E3Q51562763-B96D4750-67E2-4EF4-A8AB-8936B49602EFQ51614465-AF81CABC-77D0-4297-99AD-9FAC74446B3FQ51708074-72C03E42-64C4-47D2-88D4-10B17B5E7BC0Q51708535-854A5056-9F09-4DDC-9F08-1E2D75D56FC8Q51716015-93937A21-F72D-4347-9A4E-07F1482A3E22Q57853071-57B025DE-1D5F-4D6B-B132-107ADB23D667Q58006558-BC40B410-D00D-44D7-ACDF-D0D405B1699B
P2860
Modeling heterogeneous materials via two-point correlation functions: basic principles.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Modeling heterogeneous materials via two-point correlation functions: basic principles.
@en
Modeling heterogeneous materials via two-point correlation functions: basic principles.
@nl
type
label
Modeling heterogeneous materials via two-point correlation functions: basic principles.
@en
Modeling heterogeneous materials via two-point correlation functions: basic principles.
@nl
prefLabel
Modeling heterogeneous materials via two-point correlation functions: basic principles.
@en
Modeling heterogeneous materials via two-point correlation functions: basic principles.
@nl
P2860
P1433
P1476
Modeling heterogeneous materials via two-point correlation functions: basic principles.
@en
P2093
P2860
P304
P356
10.1103/PHYSREVE.76.031110
P407
P433
P577
2007-09-11T00:00:00Z