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200 00$aLearning and memory of knowledge and skills$b[electronic resource] $edurability and specificity /$f[edited by Alice F. Healy, Lyle E. Bourne, Jr.]
210   $aThousand Oaks, Calif. $cSAGE$dc1995
215   $a1 online resource (xiv, 358 p.) $cill
300   $aDescription based upon print version of record.
311   $a0-8039-5758-0 
311   $a0-8039-5759-9 
320   $aIncludes bibliographical references and indexes.
327   $aCover; Contents; Preface: Durability and Specificity of Knowledge and Skills; Chapter 1 - Optimizing the Long-Term Retention of Skills; Chapter 2 - The Long-Term Retention of a Complex Skill; Chapter 3 - The Contribution of Procedural Reinstatement to Implicit and Explicit Memory Effects in a Motor Task; Chapter 4 - The Effects of Contextual Interference on the Acquisition and Retention of Logical Rules; Chapter 5 - A Generation Advantage for Multiplication Skill Training and Nonword Vocabulary Acquisition
327   $aChapter 6 - A Long-Term Retention Advantage for Spatial Information Learned Naturally and in the LaboratoryChapter 7 - Long-Term Performance in Autobiographical Event Dating: Patterns of Accuracy and Error Across a Two-and-a-Half-Year Time Span; Chapter 8 - Training and Retention of the Classic Stroop Task: Specificity of Practice Effects; Chapter 9 - An Identical-Elements Model of Basic Arithmetic Skills; Chapter 10 - Acquisition and Retention of Skilled Letter Detection; Chapter 11 - Acquisition and Transfer of Response Selection Skill
327   $aChapter 12 - The Specificity and Durability of Rajan's MemoryAuthor Index; Subject Index; About the Authors and Editors
330   $aWhy do people forget some skills faster than others? What kind of training is most effective at getting people to retain new skills over a longer period of time?    Cognitive psychologists address these questions in this volume by analyzing the results of experiments which used a wide variety of perceptual, cognitive and motoric training tasks. Studies reported on include: the Stroop effect; mental calculation; vocabulary retention; contextual interference effects; autobiographical memory; target detection; and specificity and transfer in choice reaction time tasks. Each chapter expl
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615  0$aLong-term memory.
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200 10$aDiffraction, fourier optics, and imaging /$fOkan K. Ersoy
210   $aHoboken, N.J. $cWiley-Interscience$dc2007
215   $a1 online resource (433 p.)
225 1 $aWiley Series in Pure and Applied Optics ;$vv.30
300   $aDescription based upon print version of record.
311 08$a9780471238164 
311 08$a0471238163 
320   $aIncludes bibliographical references (p. 397-402) and index.
327   $aDiffraction, Fourier Optics and Imaging; Contents; Preface; 1. Diffraction, Fourier Optics and Imaging; 1.1 Introduction; 1.2 Examples of Emerging Applications with Growing Significance; 1.2.1 Dense Wavelength Division Multiplexing/Demultiplexing (DWDM); 1.2.2 Optical and Microwave DWDM Systems; 1.2.3 Diffractive and Subwavelength Optical Elements; 1.2.4 Nanodiffractive Devices and Rigorous Diffraction Theory; 1.2.5 Modern Imaging Techniques; 2. Linear Systems and Transforms; 2.1 Introduction; 2.2 Linear Systems and Shift Invariance; 2.3 Continuous-Space Fourier Transform
327   $a2.4 Existence of Fourier Transform2.5 Properties of the Fourier Transform; 2.6 Real Fourier Transform; 2.7 Amplitude and Phase Spectra; 2.8 Hankel Transforms; 3. Fundamentals of Wave Propagation; 3.1 Introduction; 3.2 Waves; 3.3 Electromagnetic Waves; 3.4 Phasor Representation; 3.5 Wave Equations in a Charge-Free Medium; 3.6 Wave Equations in Phasor Representation in a Charge-Free Medium; 3.7 Plane EM Waves; 4. Scalar Diffraction Theory; 4.1 Introduction; 4.2 Helmholtz Equation; 4.3 Angular Spectrum of Plane Waves
327   $a4.4 Fast Fourier Transform (FFT) Implementation of the Angular Spectrum of Plane Waves4.5 The Kirchoff Theory of Diffraction; 4.5.1 Kirchoff Theory of Diffraction; 4.5.2 Fresnel-Kirchoff Diffraction Formula; 4.6 The Rayleigh-Sommerfeld Theory of Diffraction; 4.6.1 The Kirchhoff Approximation; 4.6.2 The Second Rayleigh-Sommerfeld Diffraction Formula; 4.7 Another Derivation of the First Rayleigh-Sommerfeld Diffraction Integral; 4.8 The Rayleigh-Sommerfeld Diffraction Integral For Nonmonochromatic Waves; 5. Fresnel and Fraunhofer Approximations; 5.1 Introduction
327   $a5.2 Diffraction in the Fresnel Region5.3 FFT Implementation of Fresnel Diffraction; 5.4 Paraxial Wave Equation; 5.5 Diffraction in the Fraunhofer Region; 5.6 Diffraction Gratings; 5.7 Fraunhofer Diffraction By a Sinusoidal Amplitude Grating; 5.8 Fresnel Diffraction By a Sinusoidal Amplitude Grating; 5.9 Fraunhofer Diffraction with a Sinusoidal Phase Grating; 5.10 Diffraction Gratings Made of Slits; 6. Inverse Diffraction; 6.1 Introduction; 6.2 Inversion of the Fresnel and Fraunhofer Representations; 6.3 Inversion of the Angular Spectrum Representation; 6.4 Analysis
327   $a7. Wide-Angle Near and Far Field Approximations for Scalar Diffraction7.1 Introduction; 7.2 A Review of Fresnel and Fraunhofer Approximations; 7.3 The Radial Set of Approximations; 7.4 Higher Order Improvements and Analysis; 7.5 Inverse Diffraction and Iterative Optimization; 7.6 Numerical Examples; 7.7 More Accurate Approximations; 7.8 Conclusions; 8. Geometrical Optics; 8.1 Introduction; 8.2 Propagation of Rays; 8.3 The Ray Equations; 8.4 The Eikonal Equation; 8.5 Local Spatial Frequencies and Rays; 8.6 Matrix Representation of Meridional Rays; 8.7 Thick Lenses
327   $a8.8 Entrance and Exit Pupils of an Optical System
330   $aThis book presents current theories of diffraction, imaging, and related topics based on Fourier analysis and synthesis techniques, which are essential for understanding, analyzing, and synthesizing modern imaging, optical communications and networking, as well as micro/nano systems. Applications covered include tomography; magnetic resonance imaging; synthetic aperture radar (SAR) and interferometric SAR; optical communications and networking devices; computer-generated holograms and analog holograms; and wireless systems using EM waves.
410  0$aWiley Series in Pure and Applied Optics
606   $aDiffraction
606   $aFourier transform optics
606   $aImaging systems
615  0$aDiffraction.
615  0$aFourier transform optics.
615  0$aImaging systems.
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