Fractal Surfaces: Measurement and Applications in the Earth Sciences

Cox, B.L.; Wang, J. S. Y.

doi:10.1142/s0218348x93000125

Cited by 146 publications

(66 citation statements)

References 42 publications

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“…Thus the use of specifi c language by a group establishes an identity for this group with a specialist domain of knowledge and expertise. (2) Those with a solid knowledge base in other disciplines and an understanding of mathematics or physics [3,[16][17][18] ; those that bridge the gap between (1) and (2), that is, those that develop tools for fractal analyses and aim at describing these clearly [19] . Category 3 should primarily consist of category 1 researchers that aim to make the theoretical basis more accessible to applied research.…”

Section: How Can Fractal Analysis Be Better Understood?mentioning

confidence: 99%

“…Roughness is a measure of the average variation about a mean and is not related to scale or changes in scale of measurement. D quantifi es the variation in length, area or volume with changes in the size of the measuring scale [16] .…”

Section: How Can a Fractal Be Described?mentioning

confidence: 99%

“…There exists disagreement among physicists and mathematicians about what constitutes a dimension and what measures can be included in this term. Apart from the Hausdorff dimension other so-called fractal dimensions such as the Minkowski and the Kolmogorov dimension are not really dimensions in a mathematical sense [3,7,16,41] . However, in the literature authors often refer to these two measures as dimensions possibly because of trying to simplify what is really quite a complex area in mathematics.…”

Section: The Black Boxmentioning

confidence: 99%

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Understanding Fractal Analysis? The Case of Fractal Linguistics

Jelinek

Jones

Warfel³

et al. 2006

ComPlexUs

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Terms such as ‘self-similarity’, ‘space filling’, ‘fractal dimension’, and associated concepts have different meanings to different people depending on their background. We examine how methodology in fractal analysis is influenced by diverse definitions of fundamental concepts that lead to difficulties in understanding fundamental issues. The meaning of terms associated with fractal analysis needs to be clarified if this method is to be useful in diverse disciplines. It is our premise that communications that are result focused constitute a danger in perpetuating misconceptions of terms due to the concise nature of the writing and the reliance on references to fill in the procedural and conceptual gaps. Communicating effectively requires a sound understanding of the terminology and a clear and meaningful presentation. We address here communication and the nature of scientific discourse, ‘fractal linguistics’.

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Section: How Can Fractal Analysis Be Better Understood?mentioning

confidence: 99%

Section: How Can a Fractal Be Described?mentioning

confidence: 99%

Section: The Black Boxmentioning

confidence: 99%

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Understanding Fractal Analysis? The Case of Fractal Linguistics

Jelinek

Jones

Warfel³

et al. 2006

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“…Therefore, multifractal behavior implies that a statistically self-similar measure can be represented as a combination of interwoven fractal dimensions with corresponding scaling exponents. The multifractal parameters are generally independent of the size of the studied objects [41] and do not assume any specific distribution in the data [42]. Multifractal analysis can transform irregular data into a compact form and amplify small differences among the variables [43,44].…”

mentioning

confidence: 99%

Application of Multifractal and Joint Multifractal Analysis in Examining Soil Spatial Variation: A Review

Biswas¹,

Cresswell²,

Bing³

2012

Fractal Analysis and Chaos in Geosciences

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“…One main evidence of the fluctuating front propagation is the roughness of fracture surfaces. Numerous works have shown the self-affine properties of crack surfaces (BROWN and SCHOLZ, 1985;BOUCHAUD et al, 1990;MA˚LØY et al, 1992;COX and WANG, 1993;SCHMITTBUHL et al, 1995b;BOUCHAUD, 1997). The out-plane roughness exponent (f % 0:80) is found to be very robust over different materials, different fracture modes and a broad range of length scales (BROWN and SCHOLZ, 1985;POWER et al, 1987;SCHMITTBUHL et al, 1993;SCHOLZ, 1990).…”

Section: Introductionmentioning

confidence: 98%

Slow Crack Propagation and Slip Correlations

Schmittbuhl

Delaplace

Måløy

et al. 2003

Thermo-Hydro-Mechanical Coupling in Fractured Rock

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-The propagation of an interfacial crack through a weak plane of a transparent Plexiglas block is studied experimentally. The toughness is controlled artificially by a sand blasting procedure, and fluctuates locally in space like uncorrelated random noise. The block is fractured in mode I at low speed (10 À7 À 10 À4 m/s). The crack front is observed optically with a microscope and a high resolution digital camera. During the propagation, the front is pinned by micro-regions of high toughness and becomes rough. Roughness of the crack front is analyzed in terms of self-affinity. The in-plane roughness exponent is shown to be 0:63 AE 0:05. Experimental results are compared to a numerical model. The model reproduces the self-affine behavior of the crack front, i.e., long-range correlations of the roughness. Analogies between mode I and mode III are presented in order to discuss implications of the experimental results for creeping faults. Accordingly, correlations of the slip pattern are shown to exist over scales substantially larger than the asperity sizes.

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Fractal Surfaces: Measurement and Applications in the Earth Sciences

Cited by 146 publications

References 42 publications

Understanding Fractal Analysis? The Case of Fractal Linguistics

Understanding Fractal Analysis? The Case of Fractal Linguistics

Application of Multifractal and Joint Multifractal Analysis in Examining Soil Spatial Variation: A Review

Slow Crack Propagation and Slip Correlations

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