00959nam a2200265 i 450099100082437970753620020506124842.0960310s1986 de ||| | eng b10134797-39ule_instLE00637461ExLDip.to Fisicaita52.9.523523.01QC801Atreya, S.461178Atmospheres and ionospheres of the outer planets and their satellites /S. AtreyaBerlin :Springer-Verlag,1986224 p. :ill. (some color.) ;24 cmOuter planets.b1013479725-06-1227-06-02991000824379707536LE006 52.9.52 ATR12006000027960le006-E0.00-l- 00000.i1015877727-06-02Atmospheres and ionospheres of the outer planets and their satellites185333UNISALENTOle00601-01-96ma -engde 0105677nam 22007095 450 991095862490332120250811101107.01-4613-9757-X10.1007/978-1-4613-9757-1(CKB)3400000000093660(SSID)ssj0001007239(PQKBManifestationID)11523001(PQKBTitleCode)TC0001007239(PQKBWorkID)10935312(PQKB)10799025(DE-He213)978-1-4613-9757-1(MiAaPQ)EBC3079448(PPN)238075923(EXLCZ)99340000000009366020121227d1993 u| 0engurnn|008mamaatxtccrAdvanced Topics in Shannon Sampling and Interpolation Theory /edited by Robert J.II Marks1st ed. 1993.New York, NY :Springer New York :Imprint: Springer,1993.1 online resource (XIII, 360 p.) Springer Texts in Electrical EngineeringBibliographic Level Mode of Issuance: Monograph0-387-97906-9 1-4613-9759-6 Includes bibliographical references and index.1 Gabor’s Signal Expansion and Its Relation to Sampling of the Sliding-Window Spectrum -- 1.1 Introduction -- 1.2 Sliding-Window Spectrum -- 1.3 Sampling Theorem for the Sliding-Window Spectrum -- 1.4 Examples of Window Functions -- 1.5 Gabor’s Signal Expansion -- 1.6 Examples of Elementary Signals -- 1.7 Degrees of Freedom of a Signal -- 1.8 Optical Generation of Gabor’s Expansion Coefficients for Rastered Signals -- 1.9 Conclusion -- 2 Sampling in Optics -- 2.1 Introduction -- 2.2 Historical Background -- 2.3 The von Laue Analysis -- 2.4 Degrees of Freedom of an Image -- 2.5 Superresolving Pupils -- 2.6 Fresnel SampHng -- 2.7 Exponential SampHng -- 2.8 Partially Coherent Fields -- 2.9 Optical Processing -- 2.10 Conclusion -- 3 A Multidimensional Extension of Papoulis’ Generalized Sampling Expansion with the Application in Minimum Density Sampling -- I: A Multidimensional Extension of Papoulis’ Generalized Sampling Expansion -- 3.1 Introduction -- 3.2 GSE Formulation -- 3.3 M-D Extension -- 3.4 Extension Generalization -- 3.5 Conclusion -- II: Sampling Multidimensional Band-Limited Functions At Minimum Densities -- 3.6 Sample Interdependency -- 3.7 Sampling Density Reduction Using M-D GSE -- 3.8 Computational Complexity of the Two Formulations -- 3.9 Sampling at the Minimum Density -- 3.10 Discussion -- 3.11 Conclusion -- 4 Nonuniform Sampling -- 4.1 Preliminary Discussions -- 4.2 General Nonuniform Sampling Theorems -- 4.3 Spectral Analysis of Nonuniform Samples and Signal Recovery -- 4.4 Discussion on Reconstruction Methods -- 5 Linear Prediction by Samples from the Past -- 5.1 Preliminaries -- 5.2 Prediction of Deterministic Signals -- 5.3 Prediction of Random Signals -- 6 Polar, Spiral, and Generalized Sampling and Interpolation -- 6.1 Introduction -- 6.2 Sampling in Polar Coordinates -- 6.3 SpiralSampling -- 6.4 Reconstruction from Non-Uniform Samples by Convex Projections -- 6.5 Experimental Results -- 6.6 Conclusions -- Appendix A -- Appendix B -- 7 Error Analysis in Application of Generalizations of the Sampling Theorem -- Foreword: Welcomed General Sources for the Sampling Theorems -- 7.1 Introduction — Sampling Theorems -- 7.2 Error Bounds of the Present Extension of the Sampling Theorem -- 7.3 Applications -- Appendix A -- A.1 Analysis of Gibbs’ Phenomena.Advanced Topics in Shannon Sampling and Interpolation Theory is the second volume of a textbook on signal analysis solely devoted to the topic of sampling and restoration of continuous time signals and images. Sampling and reconstruction are fundamental problems in any field that deals with real-time signals or images, including communication engineering, image processing, seismology, speech recognition, and digital signal processing. This second volume includes contributions from leading researchers in the field on such topics as Gabor's signal expansion, sampling in optical image formation, linear prediction theory, polar and spiral sampling theory, interpolation from nonuniform samples, an extension of Papoulis's generalized sampling expansion to higher dimensions, and applications of sampling theory to optics and to time-frequency representations. The exhaustive bibliography on Shannon sampling theory will make this an invaluable research tool as well as an excellent text for students planning further research in the field.Springer Texts in Electrical EngineeringElectrical engineeringComputer scienceChemometricsComputational intelligenceElectrical and Electronic EngineeringModels of ComputationMathematical Applications in ChemistryComputational IntelligenceElectrical engineering.Computer science.Chemometrics.Computational intelligence.Electrical and Electronic Engineering.Models of Computation.Mathematical Applications in Chemistry.Computational Intelligence.621.3Marks Robert J.IIedthttp://id.loc.gov/vocabulary/relators/edtMiAaPQMiAaPQMiAaPQBOOK9910958624903321Advanced Topics in Shannon Sampling and Interpolation Theory2673198UNINA