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200 10$aIntergenerative Verteilungswirkung beim Uebergang zu einer nachgelagerten Rentenbesteuerung
210   $aBern$cPeter Lang International Academic Publishers$d2018
215   $a1 online resource (266) 
311   $a3-631-52769-1 
330   $aZum 01.01.2005 muss der Gesetzgeber einen Konflikt beilegen, der seit nunmehr 50 Jahren besteht und seit über 20 Jahren das Bundesverfassungsgericht beschäftigt. Das hierzu notwendige Gesetz soll Gleichheit bei der Besteuerung der Altersvorsorge von Beamten und gesetzlich Rentenversicherten herbeiführen. Die Arbeit nähert sich der Reformaufgabe sowohl aus juristischer wie aus volkswirtschaftlicher Sicht. Den Schwerpunkt bildet die Entwicklung eines deterministischen, mikroökonomischen Gruppensimulationsmodells. Gestützt auf Einkommensverlaufsschätzungen werden die Verteilungswirkungen des Gesetzesentwurfes offen gelegt. Die ausgearbeitete Alternative verdeutlicht, wie eine Überhöhung der Steuerbelastung von Zwischengenerationen sowie Doppelbesteuerung vermieden werden kann.
517   $aSozialoekonomische Schriften vol. 25
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606   $aEconomic theory & philosophy$2bicssc
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606   $aWelfare economics$2bicssc
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200 10$aAnalysis of geophysical potential fields $ea digital signal processing approach /$fPrabhakar S. Naidu and M. P. Mathew
210   $aNew York $cElsevier$d1998
215   $a1 online resource (311 p.)
225 1 $aAdvances in exploration geophysics ;$vv. 5
300   $aDescription based upon print version of record.
311   $a0-444-82801-X 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Analysis of Geophysical Potential Fields: A Digital Signal Processing Approach; Copyright Page; Contents; Preface; Chapter 1. Geophysical Potential Fields; 1.1. Potential field surveys for mineral and hydrocarbon exploration; 1.2. Role of digital signal processing (dsp); 1.3. A comparison with seismic signal processing; 1.4. Prologue; 1.5. Notation; References; Chapter 2. Potential Field Signals and Models; 2.1. Potential field in source free space; 2.2. Potential field in source filled space; 2.3. 2D source models; 2.4. 3D source models
327   $a2.5. Stochastic models I: random interface2.6. Stochastic model II: random medium; References; Chapter 3. Power Spectrum and its Applications; 3.1. Introduction; 3.2. Spectrum of random fields; 3.3. Discrete potential fields; 3.4. Estimation of power spectrum; 3.5. Depth estimation from radial spectrum; 3.6. Angular spectrum; 3.7. Coherence analysis; References; Chapter 4. Digital Filtering of Maps I; 4.1. Two-dimensional digital filters; 4.2. Implementation of digital filters; 4.3. Filtering for signal enhancement; 4.4. Digital filters for analytical operations
327   $a4.5. Reduction to pole and equator4.6. Reduction to a plane surface; 4.7. Removal of the terrain effect; 4.8. Wiener filters; References; Chapter 5. Digital Filtering of Maps II; 5.1. Inverse filtering; 5.2. Least squares inversion (2D distribution); 5.3. Least squares inversion (3D distribution); 5.4. Texture analysis; References; Chapter 6. Parameter Estimation; 6.1. Maximum likelihood (ML) estimation; 6.2. ML estimation source parameters; 6.3. Least squares inverse (non-linear); References; Subject index
330   $aWhen some useful information is hidden behind a mass of unwanted information we often resort to information processing used in its broad sense or specifically to signal processing when the useful information is a waveform. In geophysical surveys, in particular in aeromagnetic and gravity surveys, from the measured field it is often difficult to say much about any one specific target unless it is close to the surface and well isolated from the rest. The digital signal processing approach would enable us to bring out the underlying model of the source, that is, the geological structure. Some of 
410  0$aAdvances in exploration geophysics ;$v5.
606   $aProspecting$xGeophysical methods$xMathematics
606   $aSignal processing$xDigital techniques
615  0$aProspecting$xGeophysical methods$xMathematics.
615  0$aSignal processing$xDigital techniques.
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