Fractal Cuts

Fractal Cuts

Author: Diego Uribe

Publisher:

Published: 1993

Total Pages: 0

ISBN-13: 9780906212882

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Endlessly developing pop-up designs which belong to the class of curious geometrical objects called fractals.


Fractal Cuts

Fractal Cuts

Author: Diego Uribe

Publisher:

Published: 1994-03-01

Total Pages:

ISBN-13: 9781417603411

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The fractal cuts in this book are used to create a collection of ten attractive pop-up cards. Each is made from a single sheet of white paper cut and folded according to a fractal rule and glued within its brightly colored cover. Just as fractal images gain evermore beauty and complexity by the repetition of a simple rule, so it is fascinating to see how each pop-up fractal cut develops step by step. Combining theory and practice in a satisfying way, this book will be of interest to all who have ever wondered about the significance of the ideas suggested by fractals.


Gaussian Self-Affinity and Fractals

Gaussian Self-Affinity and Fractals

Author: Benoit Mandelbrot

Publisher: Springer Science & Business Media

Published: 2002

Total Pages: 672

ISBN-13: 9780387989938

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This third volume of the Selected Works focusses on a detailed study of fraction Brownian motions. The fractal themes of "self-affinity" and "globality" are presented, while extensive introductory material, written especially for this book, precedes the papers and presents a number of striking new observations and conjectures. The mathematical tools so discussed will be valuable to diverse scientific communities.


Kitchen Science Fractals: A Lab Manual For Fractal Geometry

Kitchen Science Fractals: A Lab Manual For Fractal Geometry

Author: Michael Frame

Publisher: World Scientific

Published: 2021-10-04

Total Pages: 468

ISBN-13: 9811218471

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This book provides a collection of 44 simple computer and physical laboratory experiments, including some for an artist's studio and some for a kitchen, that illustrate the concepts of fractal geometry. In addition to standard topics — iterated function systems (IFS), fractal dimension computation, the Mandelbrot set — we explore data analysis by driven IFS, construction of four-dimensional fractals, basic multifractals, synchronization of chaotic processes, fractal finger paints, cooking fractals, videofeedback, and fractal networks of resistors and oscillators.


Dynamics of Fractal Surfaces

Dynamics of Fractal Surfaces

Author: Fereydoon Family

Publisher: World Scientific

Published: 1991

Total Pages: 500

ISBN-13: 9789810207205

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In the last few years there has been an explosion of activity in the field of the dynamics of fractal surfaces, which, through the convergence of important new results from computer simulations, analytical theories and experiments, has led to significant advances in our understanding of nonequilibrium surface growth phenomena. This interest in surface growth phenomena has been motivated largely by the fact that a wide variety of natural and industrial processes lead to the formation of rough surfaces and interfaces. This book presents these developments in a single volume by bringing together the works containing the most important results in the field.The material is divided into chapters consisting of reprints related to a single major topic. Each chapter has a general introduction to a particular aspect of growing fractal surfaces. These introductory parts are included in order to provide a scientific background to the papers reproduced in the main part of the chapters. They are written in a pedagogical style and contain only the most essential information. The contents of the reprints are made more accessible to the reader as they are preceded by a short description of what the editors find to be the most significant results in the paper.


Multifractal Volatility

Multifractal Volatility

Author: Laurent E. Calvet

Publisher: Academic Press

Published: 2008-10-13

Total Pages: 273

ISBN-13: 0080559964

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Calvet and Fisher present a powerful, new technique for volatility forecasting that draws on insights from the use of multifractals in the natural sciences and mathematics and provides a unified treatment of the use of multifractal techniques in finance. A large existing literature (e.g., Engle, 1982; Rossi, 1995) models volatility as an average of past shocks, possibly with a noise component. This approach often has difficulty capturing sharp discontinuities and large changes in financial volatility. Their research has shown the advantages of modelling volatility as subject to abrupt regime changes of heterogeneous durations. Using the intuition that some economic phenomena are long-lasting while others are more transient, they permit regimes to have varying degrees of persistence. By drawing on insights from the use of multifractals in the natural sciences and mathematics, they show how to construct high-dimensional regime-switching models that are easy to estimate, and substantially outperform some of the best traditional forecasting models such as GARCH. The goal of Multifractal Volatility is to popularize the approach by presenting these exciting new developments to a wider audience. They emphasize both theoretical and empirical applications, beginning with a style that is easily accessible and intuitive in early chapters, and extending to the most rigorous continuous-time and equilibrium pricing formulations in final chapters. - Presents a powerful new technique for forecasting volatility - Leads the reader intuitively from existing volatility techniques to the frontier of research in this field by top scholars at major universities - The first comprehensive book on multifractal techniques in finance, a cutting-edge field of research


Organizational Change and Global Standardization

Organizational Change and Global Standardization

Author: David M. Boje

Publisher: Routledge

Published: 2015-05-15

Total Pages: 315

ISBN-13: 1317633105

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Organizational Change and Global Standardization: Solutions to Standards and Norms Overwhelming Organizations takes an organizational change approach to the overflow of standards and norms, looking at how to deal effectively and ethically with four kinds of standards and norms businesses face when they go global: (1) accounting & finance (2) international & world trade,(3) social and (4) safety & quality & environment. It is part of a larger problem faced by not only business, but every sort of organization - how to live with the epidemic of standards and norms, often in conflict, many just unnecessary, and a few that are quite helpful and important. There are good reasons to have International Standards Organization (ISO), International Labor Organization (ILO), World Trade Organization (WTO), North Atlantic Treaty Association (NAFTA), International accounting Standards Boards (IASB), International Financial Reporting Standards (IFRS)), and many more standard-setting organizations issuing, auditing, proposing codes of ethics, and certifying standards and norms. However, there are important, poorly understood organizational change consequences to the contagion of standards and norms. This volume brings together a unique group of authors who are working on a pragmatic way for organizations to deal with an overflow of standards and norms that are often at heads, ambiguous, or simply created to produce more work for a burgeoning standards setting industry. The aim of Organizational Change and Global Standardization is to stimulate a critical analysis within the framework of analytical and pragmatic approach to an overwhelming bureaucratization of the managed and organized global activities.


Applying Fractals in Astronomy

Applying Fractals in Astronomy

Author: Andre HECK

Publisher: Springer Science & Business Media

Published: 1991-10-11

Total Pages: 217

ISBN-13: 3540543538

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'Fractal geometry addressesitselfto questions that many people have been asking themselves. It con cerns an aspect of Nature that almost everybody had been conscious of, but could not address in a formal fashion. ' 'Fractal geometry seems to be the proper language to describe the complezity of many very compli cated shapes around us. ' (Mandelbrot, 1990a) 'I believe that fractals respond to a profound un easiness in man. ' (Mandelbrot, 1990b) The catchword fractal, ever since it was coined by Mandelbrot (1975) to refer to a class of abstract mathematical objects that were already known at the turn ofthe 19th century, has found an unprecedented resonance both inside and outside the scientific community. Fractal concepts, far more than the concepts of catastrophe theory introduced a few years earlier, are currently being applied not only in the physical sciences, but also in biology and medicine (Goldberger and West 1987). In the mid-eighties, Kadanoff (1986) asked the question: 'Why all the fuss about /ractals'! '. He offered a twofold answer: in the first place, it is 'because of the practical, technological importance of fractal objects'. Indeed he emphasised the relevance of these structures for materials scientists and oil drilling engineers, in search of structures with novel properties, or models for the flow of oil through the soil. His second answer was: 'Because of the intellectual interest of fractals '.