Sampling Theory in Fourier and Signal Analysis

- 1: An introduction to sampling theory

- 1.1: General introduction

- 1.2: Introduction - continued

- 1.3: The seventeenth to the mid twentieth century - a brief review

- 1.4: Interpolation and sampling from the seventeenth century to the mid twentieth century - a brief review

- 1.5: Introduction - concluding remarks

- 2: Background in Fourier analysis

- 2.1: The Fourier Series

- 2.2: The Fourier transform

- 2.3: Poisson's summation formula

- 2.4: Tempered distributions - some basic facts

- 3: Hilbert spaces, bases and frames

- 3.1: Bases for Banach and Hilbert spaces

- 3.2: Riesz bases and unconditional bases

- 3.3: Frames

- 3.4: Reproducing kernel Hilbert spaces

- 3.5: Direct sums of Hilbert spaces

- 3.6: Sampling and reproducing kernels

- 4: Finite sampling

- 4.1: A general setting for finite sampling

- 4.2: Sampling on the sphere

- 5: From finite to infinite sampling series

- 5.1: The change to infinite sampling series

- 5.2: The Theorem of Hinsen and Kloösters

- 6: Bernstein and Paley-Weiner spaces

- 6.1: Convolution and the cardinal series

- 6.2: Sampling and entire functions of polynomial growth

- 6.3: Paley-Weiner spaces

- 6.4: The cardinal series for Paley-Weiner spaces

- 6.5: The space ReH1

- 6.6: The ordinary Paley-Weiner space and its reproducing kernel

- 6.7: A convergence principle for general Paley-Weiner spaces

- 7: More about Paley-Weiner spaces

- 7.1: Paley-Weiner theorems - a review

- 7.2: Bases for Paley-Weiner spaces

- 7.3: Operators on the Paley-Weiner space

- 7.4: Oscillatory properties of Paley-Weiner functions

- 8: Kramer's lemma

- 8.1: Kramer's Lemma

- 8.2: The Walsh sampling therem

- 9: Contour integral methods

- 9.1: The Paley-Weiner theorem

- 9.2: Some formulae of analysis and their equivalence

- 9.3: A general sampling theorem

- 10: Ireggular sampling

- 10.1: Sets of stable sampling, of interpolation and of uniqueness

- 10.2: Irregular sampling at minimal rate

- 10.3: Frames and over-sampling

- 11: Errors and aliasing

- 11.1: Errors

- 11.2: The time jitter error

- 11.3: The aliasing error

- 12: Multi-channel sampling

- 12.1: Single channel sampling

- 12.3: Two channels

- 13: Multi-band sampling

- 13.1: Regular sampling

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- 13.3: An algorithm for the optimal regular sampling rate

- 13.4: Selectively tiled band regions

- 13.5: Harmonic signals

- 13.6: Band-ass sampling

- 14: Multi-dimensional sampling

- 14.1: Remarks on multi-dimensional Fourier analysis

- 14.2: The rectangular case

- 14.3: Regular multi-dimensional sampling

- 15: Sampling and eigenvalue problems

- 15.1: Preliminary facts

- 15.2: Direct and inverse Sturm-Liouville problems

- 15.3: Further types of eigenvalue problem - some examples

- 16: Campbell's generalised sampling theorem

- 16.1: L.L. Campbell's generalisation of the sampling theorem

- 16.2: Band-limited functions

- 16.3: Non band-limited functions - an example

- 17: Modelling, uncertainty and stable sampling

- 17.1: Remarks on signal modelling

- 17.2: Energy concentration

- 17.3: Prolate Spheroidal Wave functions

- 17.4: The uncertainty principle of signal theory

- 17.5: The Nyquist-Landau minimal sampling rate