Minkowski Tensor Shape Analysis of Cellular, Granular and Porous Structures

Schröder‐Turk, Gerd E.; Mickel, Walter; Kapfer, Sebastian C.; Klatt, Michael A.; Schaller, Fabian M.; Hoffmann, Matthias J.F.; Kleppmann, N.; Armstrong, P.; Inayat, Amer; Hug, Daniel; Reichelsdorfer, M.; Peukert, Wolfgang; Schwieger, Wilhelm; Mecke, Klaus

doi:10.1002/adma.201100562

Cited by 141 publications

(191 citation statements)

References 134 publications

(92 reference statements)

Supporting

Mentioning

191

Contrasting

Order By: Relevance

“…Recently, the Minkowski tensors have been proposed as an elegant a way to integrate boundary-and volume-based techniques [84,83]. Six linearly independent Minkowski tensors are defined in 3D:…”

Section: Alternative Methodsmentioning

confidence: 99%

“…These tensors are called the moment tensor solid, moment tensor hollow, moment tensor wireframe, moment tensor vertices, normal distribution and curvature distribution tensors respectively [84]. Notice that the moment tensor solid and the normal distribution tensor are closely related to the inertia tensor and the GST respectively.…”

Section: Alternative Methodsmentioning

confidence: 99%

“…This value is inversely proportional to the number of intercepts between a set of parallel lines and the interface between phases (see Figure 2). The MIL tensor is obtained either by applying ellipse/ellipsoid fitting [84,83] Diffusion tensor imaging (DTI) [80,8] Texture tensor [23] Skeleton-driven [41] Assessment of the power spectrum [7] algorithms to polar plots of the MIL computed in different orientations, also known as rose diagrams, or by computing a covariance matrix [64,86,38]. Although the orientation distribution of the MIL can also be approximated through higher-order fabric tensors [38], microstructural architecture of most materials can be accurately modeled by means of second-order tensors [93,49].…”

Section: Mean Intercept Length Tensormentioning

confidence: 99%

See 2 more Smart Citations

Techniques for Computing Fabric Tensors: A Review

Moreno

Borga

Smedby

2014

Mathematics and Visualization

View full text Add to dashboard Cite

The aim of this chapter is to review different approaches that have been proposed to compute fabric tensors with emphasis on trabecular bone research. Fabric tensors aim at modeling through tensors both anisotropy and orientation of a material with respect to another one. Fabric tensors are widely used in fields such as trabecular bone research, mechanics of materials and geology. These tensors can be seen as semi-global measurements since they are computed in relatively large neighborhoods, which are assumed quasi-homogeneous. Many methods have been proposed to compute fabric tensors. We propose to classify fabric tensors into two categories: mechanics-based and morphology-based. The former computes fabric tensors from mechanical simulations, while the latter computes them by analyzing the morphology of the materials. In addition to pointing out advantages and drawbacks for each method, current trends and challenges in this field are also summarized.

show abstract

Section: Alternative Methodsmentioning

confidence: 99%

Section: Alternative Methodsmentioning

confidence: 99%

Section: Mean Intercept Length Tensormentioning

confidence: 99%

See 1 more Smart Citation

Techniques for Computing Fabric Tensors: A Review

Moreno

Borga

Smedby

2014

Mathematics and Visualization

View full text Add to dashboard Cite

show abstract

“…The sizes, positions and orientations of the ellipsoids can be extracted from the volume, centers of mass and the moment tensors W 2,0 0 = grain r ⊗ r dV (similar to the tensor of inertia) where r is the position vector [18] of the labelled clusters.…”

Section: Tomography and Image Processingmentioning

confidence: 99%

Tomographic analysis of jammed ellipsoid packings

Schaller

Neudecker

Saadatfar

et al. 2013

AIP Conference Proceedings

View full text Add to dashboard Cite

“…The shape analysis based on the Minkowski functionals area A, perimeter P and Euler characteristic χ has been successfully applied in statistical physics [6][7][8][9], for pattern analysis [10][11][12] and in astronomy for point processes in cosmology [13][14][15] and the cosmic microwave background [16]. A fundamental theorem by Hadwiger ensures robustness and comprehensiveness of a morphology analysis based on Minkowski functionals, in the following sense [17]: any functional which is defined on unions of convex sets and which is motion invariant, additive and at least continuous on convex sets is a linear combination of Minkowski functionals; black and white pixel images can for example be represented as the union of quadratic bins, i.e convex sets.…”

mentioning

confidence: 99%

Shape analysis of counts maps

Klatt

Göring

Stegmann³

et al. 2012

AIP Conference Proceedings

Self Cite

View full text Add to dashboard Cite

Abstract. A novel approach for source detection via structural deviations from the typical features of a random background counts map is presented. Minkowski functionals, powerful tools from integral geometry, quantify the shape of level sets of a counts map. Compared to standard techniques, which use the total number of counts only, additional morphometric information is incorporated without the need for any prior knowledge about the source. Minkowski sky maps quantify local structural deviations; they localize and visualize potential sources.

show abstract

Minkowski Tensor Shape Analysis of Cellular, Granular and Porous Structures

Cited by 141 publications

References 134 publications

Techniques for Computing Fabric Tensors: A Review

Techniques for Computing Fabric Tensors: A Review

Tomographic analysis of jammed ellipsoid packings

Shape analysis of counts maps

Contact Info

Product

Resources

About