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図書
図書
1. Principles of signals and systems : deterministic signals
Bernard Picinbono
出版情報: Norwood, Ma. : Artech House, c1988  xiii, 243 p. ; 24 cm
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Preface
Introduction to Signals and Systems / Chapter 1:
The concept of signals / 1.1:
The concept of a linear system / 1.2:
The concept of linear filters / 1.3:
The concept of signal representation and transform / 1.4:
Problems
Representations of Continuous-time Signals / Chapter 2:
Energy and power; scalar product of signals / 2.1:
Fourier series / 2.2:
Time-limited signals / 2.2.1:
Periodic signals / 2.2.2:
Principal properties of Fourier series of periodic signals / 2.2.3:
Fourier transforms of signals of finite energy / 2.3:
Definitions and notation / 2.3.1:
Examples of Fourier transforms / 2.3.2:
Principal properties of Fourier transforms / 2.3.3:
Examples / 2.3.4:
Fourier representation of signals with infinite energy / 2.4:
The unit impulse function / 2.4.1:
Fourier transforms of periodic signals / 2.4.2:
The Dirac comb signal / 2.4.3:
Fourier transform of the unit step signal / 2.4.4:
Real narrowband signals: instantaneous amplitude and phase, duration and bandwidth / 2.5:
Analytic signal of a real signal / 2.5.1:
Instantaneous amplitude and phase of a signal / 2.5.2:
Application to the case of narrowband signals / 2.5.3:
Laplace representation / 2.6:
Definition and notation / 2.6.1:
Region of convergence / 2.6.2:
Inversion of the Laplace transform / 2.6.3:
Inverse Laplace transform of rational functions / 2.6.4:
Principal properties of the Laplace transform / 2.6.5:
From Continuous Time to Discrete Time by Sampling / Chapter 3:
The principle of sampling: the sampling theorem / 3.1:
The sampling formula and consequences / 3.2:
Sampling and signal representation / 3.2.1:
Sampling and interpolation / 3.2.2:
Sampling and linear spaces / 3.2.3:
Minimum sampling rate / 3.2.4:
Exact position of the sampling time instants / 3.2.5:
Exact position of the frequency band / 3.2.6:
Some practical comments / 3.2.7:
Sampling and filtering / 3.3:
The sampling transformation T / 3.3.1:
Physical structure of the transformation T / 3.3.2:
Interpretation of the sampling theorem / 3.3.3:
Aliasing; undersampling and oversampling / 3.3.4:
Duality between sampling and periodicity / 3.3.5:
Sampling and Fourier representation / 3.4:
Geometrical interpretation of sampling / 3.5:
Discrete Fourier transform of a continuous signal / 3.6:
Principle of the discrete Fourier transform / 3.6.1:
Calculation of the discrete Fourier transform / 3.6.2:
Relation between the Fourier transform and the discrete Fourier transform / 3.6.3:
Representations of Discrete-time Signals / Chapter 4:
Time-limited and periodic signals: the discrete Fourier transform / 4.1:
Fourier transform of discrete-time signals / 4.2:
The z transform / 4.3:
Inversion of the z transform / 4.3.1:
Principal properties of the z transform / 4.3.4:
The z transform of sampled signals / 4.3.5:
Some algebraic properties of discrete-time signals: the fast Fourier transform / 4.4:
The discrete Fourier transform as an eigenvalue problem: circulant matrices / 4.4.1:
The discrete Fourier transform as a linear problem: the fast Fourier algorithm / 4.4.2:
Linear Filtering / Chapter 5:
Definitions and examples / 5.1:
Some basic properties of filters / 5.2:
Causality of linear filters / 5.3:
Causality and impulse response / 5.3.1:
Causality and the transfer function / 5.3.2:
Causality and frequency response / 5.3.3:
Multidimensional filters / 5.4:
Dynamical Filters / Chapter 6:
Definitions and basic properties / 6.1:
Representations of dynamical filters / 6.2:
The continuous-time case / 6.2.1:
The discrete-time case / 6.2.2:
Stability problems / 6.3:
Impulse and unit step responses / 6.3.1:
Internal Representation of Dynamical Filters / 6.4.1:
Introduction / 7.1:
Principles of the internal representation of linear systems / 7.2:
Canonical internal representation of dynamical filters / 7.3:
First continuous-time canonical representation / 7.3.1:
Second continuous-time canonical representation / 7.3.2:
First discrete-time canonical representation / 7.3.3:
Diagonal and quasi-diagonal representations / 7.3.4:
Solution of the state equation in the discrete-time case / 7.4:
Solution of the state equation in the continuous-time case / 7.5:
Free system: transition matrix / 7.5.1:
Driven system / 7.5.2:
Input-output relationship / 7.6:
Modes of a dynamical filter / 7.7:
On the Routh criterion / Appendix A:
Reflection coefficients and stability / Appendix B:
Bibliography
Glossary
Index
Preface
Introduction to Signals and Systems / Chapter 1:
The concept of signals / 1.1:
2.

図書
図書
2. Molecular genetics of bacteria
Jeremy Dale
出版情報: Chichester ; New York : Wiley, c1989  vii, 222 p. ; 23 cm
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Nucleic Acid Structure and Function / 1:
Structure of nucleic acids / 1.1:
DNA / 1.1.1:
Mutation and Variation
Regulation and Gene Expression / 1.1.2:
RNA
Genetics of Bacteriophages / 4:
Hydrophobic interactions / 5:
Plasmids
Gene Transfer / 1.1.4:
Different forms of the double helix
Genomic Plasticity: Movable Genes and Phase Variation / 7:
Supercoiling / 8:
Genetic Modification: Exploiting the Potential of Bacteria
Genetic Methods for Investigating Bacteria / 1.1.6:
Denaturation and hybridization
Gene Mapping to Genomics / 10:
Orientation of nucleic acid strands / Appendix A:
Further Reading
Abbreviations / 1.2:
Replication of DNA
Glossary / Appendix C:
Unwinding and rewinding / Appendix D:
Enzymes
Genes / 1.2.2:
Fidelity of replication: proof-reading
Standard Genetic Code / Appendix F:
Chromosome replication and cell division / Appendix G:
Bacterial Species
Index / 1.4:
DNA repair
Mismatch repair / 1.4.1:
Excision repair / 1.4.2:
Recombination (post-replication) repair / 1.4.3:
SOS repair / 1.4.4:
Gene expression / 1.5:
Transcription / 1.5.1:
Translation / 1.5.2:
Post-translational events / 1.5.3:
Gene organization / 1.6:
Variation and evolution / 2.1:
Fluctuation test / 2.1.1:
Directed mutation in bacteria? / 2.1.2:
Types of mutations / 2.2:
Point mutations / 2.2.1:
Conditional mutants / 2.2.2:
Variation due to larger scale DNA alterations / 2.2.3:
Extrachromosomal agents and horizontal gene transfer / 2.2.4:
Phenotypes / 2.3:
Restoration of phenotype / 2.4:
Reversion and suppression / 2.4.1:
Complementation / 2.4.2:
Recombination / 2.5:
Mechanisms of mutation / 2.6:
Spontaneous mutation / 2.6.1:
Chemical mutagens / 2.6.2:
Ultraviolet irradiation / 2.6.3:
Isolation and identification of mutants / 2.7:
Mutation and selection / 2.7.1:
Replica plating / 2.7.2:
Penicillin enrichment / 2.7.3:
Isolation of other mutants / 2.7.4:
Molecular methods / 2.7.5:
Regulation of Gene Expression
Gene copy number / 3.1:
Transcriptional control / 3.2:
Promoters / 3.2.1:
Terminators, attenuators and anti-terminators / 3.2.2:
Induction and repression: regulatory proteins / 3.2.3:
Attenuation: trp operon / 3.2.4:
Two-component regulatory systems / 3.2.5:
Global regulatory systems / 3.2.6:
Feast or famine and the RpoS regulon / 3.2.7:
Quorum sensing / 3.2.8:
Translational control / 3.3:
Ribosome binding / 3.3.1:
Codon usage / 3.3.2:
Stringent response / 3.3.3:
Regulatory RNA / 3.3.4:
Phase variation / 3.3.5:
Single-stranded DNA bacteriophages / 4.1:
oX174 / 4.1.1:
M13 / 4.1.2:
RNA-containing phages: MS2 / 4.2:
Double-stranded DNA phages / 4.3:
Bacteriophage T4 / 4.3.1:
Bacteriophage lambda / 4.3.2:
Lytic and lysogenic regulation of bacteriophage lambda / 4.3.3:
Restriction and modification / 4.4:
Complementation and recombination / 4.5:
Why are bacteriophages important? / 4.6:
Phage typing / 4.6.1:
Phage therapy / 4.6.2:
Phage display / 4.6.3:
Bacterial virulence and phage conversion / 4.6.4:
Some bacterial characteristics are determined by plasmids / 5.1:
Antibiotic resistance / 5.1.1:
Colicins and bacteriocins / 5.1.2:
Virulence determinants / 5.1.3:
Plasmids in plant-associated bacteria / 5.1.4:
Metabolic activities / 5.1.5:
Molecular properties of plasmids / 5.2:
Plasmid replication and control / 5.2.1:
Plasmid stability / 5.3:
Plasmid integrity / 5.3.1:
Partitioning / 5.3.2:
Differential growth rate / 5.3.3:
Methods for studying plasmids / 5.4:
Associating a plasmid with a phenotype / 5.4.1:
Classification of plasmids / 5.4.2:
Transformation / 6.1:
Conjugation / 6.2:
Mechanism of conjugation / 6.2.1:
The F plasmid / 6.2.2:
Conjugation in other bacteria / 6.2.3:
Transduction / 6.3:
Specialized transduction / 6.3.1:
General (homologous) recombination / 6.4:
Site-specific and non-homologous (illegitimate) recombination / 6.4.2:
Mosaic genes and chromosome plasticity / 6.5:
Insertion sequences / 7.1:
Structure of insertion sequences / 7.1.1:
Occurrence of insertion sequences / 7.1.2:
Transposons / 7.2:
Structure of transposons / 7.2.1:
Integrons / 7.2.2:
Mechanisms of transposition / 7.3:
Replicative transposition / 7.3.1:
Non-replicative (conservative) transposition / 7.3.2:
Regulation of transposition / 7.3.3:
Activation of genes by transposable elements / 7.3.4:
Mu: a transposable bacteriophage / 7.3.5:
Conjugative transposons and other transposable elements / 7.3.6:
Variation mediated by simple DNA inversion / 7.4:
Variation mediated by nested DNA inversion / 7.4.2:
Antigenic variation in the gonococcus / 7.4.3:
Phase variation by slipped strand mispairing / 7.4.4:
Phase variation mediated by differential DNA methylation / 7.4.5:
Strain development / 8.1:
Generation of variation / 8.1.1:
Selection of desired variants / 8.1.2:
Overproduction of primary metabolites / 8.2:
Simple pathways / 8.2.1:
Branched pathways / 8.2.2:
Overproduction of secondary metabolites / 8.3:
Gene cloning / 8.4:
Cutting and joining DNA / 8.4.1:
Plasmid vectors / 8.4.2:
Bacteriophage lambda vectors / 8.4.3:
Cloning larger fragments / 8.4.5:
Bacteriophage M13 vectors / 8.4.6:
Gene libraries / 8.5:
Construction of genomic libraries / 8.5.1:
Screening a gene library / 8.5.2:
Construction of a cDNA library / 8.5.3:
Products from cloned genes / 8.6:
Expression vectors / 8.6.1:
Making new genes / 8.6.2:
Other bacterial hosts / 8.6.3:
Novel vaccines / 8.6.4:
Other uses of gene technology / 8.7:
Metabolic pathways / 9.1:
Cross-feeding / 9.1.1:
Microbial physiology / 9.2:
Reporter genes / 9.2.1:
Lysogeny / 9.2.2:
Cell division / 9.2.3:
Motility and chemotaxis / 9.2.4:
Cell differentiation / 9.2.5:
Bacterial virulence / 9.3:
Wide range mechanisms of bacterial pathogenesis / 9.3.1:
Detection of virulence genes / 9.3.2:
Specific mutagenesis / 9.4:
Gene replacement / 9.4.1:
Antisense RNA / 9.4.2:
Taxonomy, evolution and epidemiology / 9.5:
Molecular taxonomy / 9.5.1:
Diagnostic use of PCR / 9.5.2:
Molecular epidemiology / 9.5.3:
Gene mapping / 10.1:
Conjugational analysis / 10.1.1:
Co-transformation and co-transduction / 10.1.2:
Molecular techniques for gene mapping / 10.1.3:
Gene sequencing / 10.2:
DNA sequence determination / 10.2.1:
Genome sequencing / 10.2.2:
Comparative genomics / 10.2.3:
Bioinformatics / 10.2.4:
Physical and genetic maps / 10.3:
Deletions and insertions / 10.3.1:
Transposon mutagenesis / 10.3.2:
Site-directed mutagenesis / 10.3.3:
Analysis of gene expression / 10.4:
Transcriptional analysis / 10.4.1:
Translational analysis / 10.4.2:
Systematic analysis of gene function / 10.4.3:
Conclusion / 10.5:
Nucleic Acid Structure and Function / 1:
Structure of nucleic acids / 1.1:
DNA / 1.1.1:
3.

図書
図書
3. Nonlinear fiber optics
Govind P. Agrawal
出版情報: Boston ; Tokyo : Academic Press, c1989  xii, 342 p. ; 24 cm
シリーズ名: Quantum electronics : principles and applications
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Preface
Introduction / 1:
Historical Perspective / 1.1:
Fiber Characteristics / 1.2:
Material and Fabrication / 1.2.1:
Fiber Losses / 1.2.2:
Chromatic Dispersion / 1.2.3:
Polarization-Mode Dispersion / 1.2.4:
Fiber Nonlinearities / 1.3:
Nonlinear Refraction / 1.3.1:
Stimulated Inelastic Scattering / 1.3.2:
Importance of Nonlinear Effects / 1.3.3:
Overview / 1.4:
Problems
References
Pulse Propagation in Fibers / 2:
Maxwell's Equations / 2.1:
Fiber Modes / 2.2:
Eigenvalue Equation / 2.2.1:
Single-Mode Condition / 2.2.2:
Characteristics of the Fundamental Mode / 2.2.3:
Pulse-Propagation Equation / 2.3:
Nonlinear Pulse Propagation / 2.3.1:
Higher-Order Nonlinear Effects / 2.3.2:
Numerical Methods / 2.4:
Split-Step Fourier Method / 2.4.1:
Finite-Difference Methods / 2.4.2:
Group-Velocity Dispersion / 3:
Different Propagation Regimes / 3.1:
Dispersion-Induced Pulse Broadening / 3.2:
Gaussian Pulses / 3.2.1:
Chirped Gaussian Pulses / 3.2.2:
Hyperbolic-Secant Pulses / 3.2.3:
Super-Gaussian Pulses / 3.2.4:
Experimental Results / 3.2.5:
Third-Order Dispersion / 3.3:
Changes in Pulse Shape / 3.3.1:
Broadening Factor / 3.3.2:
Arbitrary-Shape Pulses / 3.3.3:
Ultrashort-Pulse Measurements / 3.3.4:
Dispersion Management / 3.4:
GVD-Induced Limitations / 3.4.1:
Dispersion Compensation / 3.4.2:
Compensation of Third-Order Dispersion / 3.4.3:
Self-Phase Modulation / 4:
SPM-Induced Spectral Broadening / 4.1:
Nonlinear Phase Shift / 4.1.1:
Changes in Pulse Spectra / 4.1.2:
Effect of Pulse Shape and Initial Chirp / 4.1.3:
Effect of Partial Coherence / 4.1.4:
Effect of Group-Velocity Dispersion / 4.2:
Pulse Evolution / 4.2.1:
Optical Wave Breaking / 4.2.2:
Effect of Third-Order Dispersion / 4.2.4:
Self-Steepening / 4.3:
Effect of GVD on Optical Shocks / 4.3.2:
Intrapulse Raman Scattering / 4.3.3:
Optical Solitons / 5:
Modulation Instability / 5.1:
Linear Stability Analysis / 5.1.1:
Gain Spectrum / 5.1.2:
Experimental Observation / 5.1.3:
Ultrashort Pulse Generation / 5.1.4:
Impact on Lightwave Systems / 5.1.5:
Fiber Solitons / 5.2:
Inverse Scattering Method / 5.2.1:
Fundamental Soliton / 5.2.2:
Higher-Order Solitons / 5.2.3:
Experimental Confirmation / 5.2.4:
Soliton Stability / 5.2.5:
Other Types of Solitons / 5.3:
Dark Solitons / 5.3.1:
Dispersion-Managed Solitons / 5.3.2:
Bistable Solitons / 5.3.3:
Perturbation of Solitons / 5.4:
Perturbation Methods / 5.4.1:
Soliton Amplification / 5.4.2:
Soliton Interaction / 5.4.4:
Higher-Order Effects / 5.5:
Propagation of Femtosecond Pulses / 5.5.1:
Polarization Effects / 6:
Nonlinear Birefringence / 6.1:
Origin of Nonlinear Birefringence / 6.1.1:
Coupled-Mode Equations / 6.1.2:
Elliptically Birefringent Fibers / 6.1.3:
Nondispersive XPM / 6.2:
Optical Kerr Effect / 6.2.2:
Pulse Shaping / 6.2.3:
Evolution of Polarization State / 6.3:
Analytic Solution / 6.3.1:
Poincare-Sphere Representation / 6.3.2:
Polarization Instability / 6.3.3:
Polarization Chaos / 6.3.4:
Vector Modulation Instability / 6.4:
Low-Birefringence Fibers / 6.4.1:
High-Birefringence Fibers / 6.4.2:
Isotropic Fibers / 6.4.3:
Birefringence and Solitons / 6.4.4:
Soliton-Dragging Logic Gates / 6.5.1:
Vector Solitons / 6.5.4:
Random Birefringence / 6.6:
Polarization State of Solitons / 6.6.1:
Cross-Phase Modulation / 7:
XPM-Induced Nonlinear Coupling / 7.1:
Nonlinear Refractive Index / 7.1.1:
Coupled NLS Equations / 7.1.2:
Propagation in Birefringent Fibers / 7.1.3:
XPM-Induced Modulation Instability / 7.2:
XPM-Paired Solitons / 7.2.1:
Bright-Dark Soliton Pair / 7.3.1:
Bright-Gray Soliton Pair / 7.3.2:
Other Soliton Pairs / 7.3.3:
Spectral and Temporal Effects / 7.4:
Asymmetric Spectral Broadening / 7.4.1:
Asymmetric Temporal Changes / 7.4.2:
Applications of XPM / 7.4.3:
XPM-Induced Pulse Compression / 7.5.1:
XPM-Induced Optical Switching / 7.5.2:
XPM-Induced Nonreciprocity / 7.5.3:
Stimulated Raman Scattering / 8:
Basic Concepts / 8.1:
Raman-Gain Spectrum / 8.1.1:
Raman Threshold / 8.1.2:
Coupled Amplitude Equations / 8.1.3:
Quasi-Continuous SRS / 8.2:
Single-Pass Raman Generation / 8.2.1:
Raman Fiber Lasers / 8.2.2:
Raman Fiber Amplifiers / 8.2.3:
Raman-Induced Crosstalk / 8.2.4:
SRS with Short Pump Pulses / 8.3:
Pulse-Propagation Equations / 8.3.1:
Nondispersive Case / 8.3.2:
Effects of GVD / 8.3.3:
Synchronously Pumped Raman Lasers / 8.3.4:
Soliton Effects / 8.4:
Raman Solitons / 8.4.1:
Raman Soliton Lasers / 8.4.2:
Soliton-Effect Pulse Compression / 8.4.3:
Effect of Four-Wave Mixing / 8.5:
Stimulated Brillouin Scattering / 9:
Physical Process / 9.1:
Brillouin-Gain Spectrum / 9.1.2:
Quasi-CW SBS / 9.2:
Coupled Intensity Equations / 9.2.1:
Brillouin Threshold / 9.2.2:
Gain Saturation / 9.2.3:
Dynamic Aspects / 9.2.4:
Relaxation Oscillations / 9.3.1:
Modulation Instability and Chaos / 9.3.3:
Transient Regime / 9.3.4:
Brillouin Fiber Lasers / 9.4:
CW Operation / 9.4.1:
Pulsed Operation / 9.4.2:
SBS Applications / 9.5:
Brillouin Fiber Amplifiers / 9.5.1:
Fiber Sensors / 9.5.2:
Parametric Processes / 10:
Origin of Four-Wave Mixing / 10.1:
Theory of Four-Wave Mixing / 10.2:
Approximate Solution / 10.2.1:
Effect of Phase Matching / 10.2.3:
Ultrafast FWM / 10.2.4:
Phase-Matching Techniques / 10.3:
Physical Mechanisms / 10.3.1:
Phase Matching in Multimode Fibers / 10.3.2:
Phase Matching in Single-Mode Fibers / 10.3.3:
Phase Matching in Birefringent Fibers / 10.3.4:
Parametric Amplification / 10.4:
Gain and Bandwidth / 10.4.1:
Pump Depletion / 10.4.2:
Parametric Amplifiers / 10.4.3:
Parametric Oscillators / 10.4.4:
FWM Applications / 10.5:
Wavelength Conversion / 10.5.1:
Phase Conjugation / 10.5.2:
Squeezing / 10.5.3:
Supercontinuum Generation / 10.5.4:
Second-Harmonic Generation / 10.6:
Physical Mechanism / 10.6.1:
Simple Theory / 10.6.3:
Quasi-Phase-Matching Technique / 10.6.4:
Decibel Units / Appendix A:
Acronyms / Appendix B:
Index
Preface
Introduction / 1:
Historical Perspective / 1.1:
4.

図書
図書
4. Introduction to electronic warfare
D. Curtis Schleher
出版情報: Dedham, Mass. : Artech House, c1986  xii, 559 p. ; 24 cm
シリーズ名: The Artech House radar library
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Electronic Warfare (EW) Principles and Overview / Chapter 1:
Electronic Warfare Taxonomy / 1.1:
Electronic Warfare Definitions and Areas / 1.1.1:
Electronic Warfare Support Measures (ESM) / 1.1.1.1:
Signals Intelligence (SIGINT) / 1.1.1.2:
Electronic Countermeasures (ECM) / 1.1.1.3:
Electronic Counter Countermeasures (ECCM) / 1.1.1.4:
Electronic Warfare Simulators / 1.1.1.5:
Defense Suppression / 1.1.1.6:
Signal Security (SIGSEC) / 1.1.1.7:
Electronic Warfare Frequency Bands and Channels / 1.1.1.8:
EW Missions and Scenarios / 1.2:
The EW Radar Threat Scenario / 1.2.1:
The EW Communications Threat Scenario / 1.2.2:
Electronic Support Measures (ESM) Receivers / Chapter 2:
Radar Warning Receivers (RWR) / 2.1:
Current ESM Receivers / 2.2:
The Crystal Video Receiver / 2.2.1:
The Superheterodyne Receiver / 2.2.2:
Instantaneous Frequency Measurement (IFM) Receiver / 2.2.3:
Advanced ESM Receivers / 2.3:
The Channelized Receiver / 2.3.1:
The Compressive Receiver / 2.3.2:
The Acousto-Optic Bragg Cell Receiver / 2.3.3:
Passive Direction Finding and Emitter Location / 2.4:
Noise Jamming / Chapter 3:
Noise Jammer Effectiveness / 3.1.1:
Jammer Look-Through / 3.1.2:
Power Management / 3.1.3:
Deception Electronic Countermeasures (DECM) / 3.2:
Range Gate Deception / 3.2.1:
Angle Deception / 3.2.2:
ECM against Conical Scanning Tracking Radars / 3.2.2.1:
ECM against Monopulse Tracking Radars / 3.2.2.2:
Velocity Deception / 3.2.3:
Modern ECM Systems / 3.3:
ECM against Pulse Compression and Low Probability of Intercept (LPI) Radars / 3.3.1:
Expendable Electronic Countermeasures / 3.4:
Chaff / 3.4.1:
Radar and Electronic Counter-Countermeasures (ECCM) / Chapter 4:
Radar Applications in Weapon Systems / 4.1:
Surveillance Radars / 4.2:
Surveillance Radar Design Principles / 4.2.1:
Surveillance Radar Detection Range--Clear and Jamming Environments / 4.2.1.1:
Low Altitude Detection--Radar Clutter / 4.2.1.2:
Surveillance Radar--Data Rate and Accuracy / 4.2.1.3:
Surveillance Radar Frequency Trade-Offs / 4.2.1.4:
Surveillance Radars--ECCM Considerations / 4.2.1.5:
Target Acquisition Radars / 4.3:
Weapon Control Radars / 4.4:
Tracking Radar Design Principles / 4.4.1:
Target Tracking Radar / 4.4.2:
Track-While-Scan Tracking Systems / 4.4.3:
Phased Array Tracking Radars / 4.4.4:
Tracking Radar--ECCM Considerations / 4.4.5:
Aircraft Control Radars / 4.5:
Weapon Location Radars / 4.6:
Missile Guidance Radars / 4.7:
Navigation and Mapping Radars / 4.8:
Radar Types and Characteristics / 4.9:
2-D Search Radars / 4.9.1:
3-D Search Radars / 4.9.2:
Moving Target Indicator (MTI) Radar / 4.9.3:
Pulsed Doppler Radar / 4.9.4:
Special Purpose Radar Types / 4.9.5:
Millimeter-Wave (MMW) Radar / 4.9.5.1:
Low Probability of Intercept (LPI) Radar / 4.9.5.2:
Over-the-Horizon (OTH) Radar / 4.9.5.3:
Bistatic Radar / 4.9.5.4:
Automatic Detection Radar / 4.9.5.5:
Command, Control, and Communications (C[superscript 3]) Systems / Chapter 5:
Strategic C[superscript 3] Systems / 5.1:
Tactical C[superscript 3] Systems / 5.2:
Naval Tactical Data System (NTDS) / 5.2.1:
Tactical Air Control System (TACS) / 5.2.2:
Rapid Deployment Force C[superscript 3]I / 5.2.3:
Tactical Data Links / 5.2.4:
Tactical Communication Radio Nets / 5.2.5:
C[superscript 3] Navigation Systems / 5.2.6:
Command, Control, and Communications Countermeasures (C[superscript 3]CM) / 5.3:
Air Defense Systems / 5.4:
Early Warning Radars / 5.4.1:
Airborne Early Warning Radars / 5.4.2:
Ground Control Intercept Radars / 5.4.3:
Air-to-Air Missile Guidance Systems / 5.4.4:
Surface-to-Air Missile (SAM) Systems / 5.4.5:
Missile Control Laws / 5.4.5.1:
Modern SAM System / 5.4.5.2:
Radar and ECM Performance Analysis / Chapter 6:
Radar Detection Performance / 6.1:
Search Radar Detection Performance / 6.1.1:
Propagation Absorption Loss (L[subscript a]) / 6.1.1.1:
Beam Shape Loss (L[subscript b]) / 6.1.1.2:
Pattern Propagation Factor (F[subscript t],F[subscript r]) / 6.1.1.3:
System Noise Temperature (T[subscript s]) / 6.1.1.4:
Transmission Line Loss (L[subscript t]) / 6.1.1.5:
Receiver Matching Loss (C[subscript B]) / 6.1.1.6:
Collapsing Loss (L[subscript c]) / 6.1.1.7:
MTI Processing Loss / 6.1.1.8:
Signal-to-Noise Power Ratio / 6.1.1.9:
Search Radar Detection Range Calculation / 6.1.1.10:
The Cumulative Probability of Detection / 6.1.2:
ECM Jamming Equations / 6.2:
Repeater Jammer Equations / 6.2.1:
EW Receiver Sensitivity / 6.3:
Scanning Superheterodyne Receiver Sensitivity / 6.3.1:
EW Signal Processing / Chapter 7:
Input Signal Processing / 7.1:
Signal Environment / 7.1.1:
Processing of Multiple-Pulse Emitters / 7.1.1.1:
EM Sensor Subsystems / 7.1.2:
Large Aperture Antennas for ESM / 7.1.2.1:
Low Radar Cross Section (RCS) Antenna Systems / 7.1.2.2:
Sparse Arrays / 7.1.2.3:
The Receiver Subsystem / 7.1.3:
Transform Receivers / 7.1.3.1:
Conventional Channelizers / 7.1.3.2:
Digital Transforms / 7.1.3.3:
Parameter Encoding / 7.1.3.4:
Intrapulse Parameters
The Preprocessor / 7.1.4:
Mapping, Binning, or Histogramming / 7.1.4.1:
Associative Memories / 7.1.4.2:
Window Addressable Memories
Content Addressable Memories
Random Accessible Memories (RAMs)
The Data Servo Loop / 7.1.4.3:
Single-Instruction Multiple Data Arrays / 7.1.4.4:
Agile Parameter Tracking / 7.1.4.5:
High Duty Factor Emitters
Agile Pulse Repetition Interval (PRI) Emitters
Agile RF Emitters
Wideband Intrapulse RF Emitters
Output Signal Processing / 7.2:
The Computer / 7.2.1:
Jamming Logic / 7.2.2:
Advanced Fully Power-Managed Jamming / 7.2.2.1:
Time-Managed Jamming
RF Management
Coherent RF
Digital Exciters
Coherent Repetition
Amplitude Management
Direction Management
Generating Control Signals / 7.2.2.2:
Programmable Techniques Generator / 7.2.2.3:
Time-Ordered File / 7.2.2.4:
EW Technology and Future Trends / Chapter 8:
Antenna Technology / 8.1:
Fixed-Beam EW Antennas / 8.1.1:
Spiral Antennas / 8.1.1.1:
Horn Antennas / 8.1.1.2:
Helical Antennas / 8.1.1.3:
Log-Periodic Dipole Array Antennas / 8.1.1.4:
ECM Phased Array Antennas / 8.1.2:
Lens-Fed Multiple Beam Array / 8.1.3:
ECM Transmitter Power Source Technology / 8.2:
ECM Traveling Wave Tubes (TWTs) / 8.2.1:
Gallium Arsenide (GaAs) FET Amplifiers / 8.2.2:
Voltage Controlled Oscillators / 8.2.3:
Digital Radio Frequency Memories / 8.2.4:
EW Receiver Technology / 8.3:
Low-Noise Receivers / 8.3.1:
Surface Acoustic Wave (SAW) Delay Lines / 8.3.2:
EW at Millimeter Wavelengths / 8.4:
Low Observability EW Technology / 8.5:
Very High Speed Integrated Circuits (VHSIC) / 8.6:
Artificial Intelligence / 8.7:
Index
Electronic Warfare (EW) Principles and Overview / Chapter 1:
Electronic Warfare Taxonomy / 1.1:
Electronic Warfare Definitions and Areas / 1.1.1:
5.

図書
図書
5. Statistical theory of extended radar targets : a translation from the Russian of Statisticheskaya teoriya radiolokatsii protyazhennyz [sic] tselei ((cover))
by R.V. Ostrovityanov & F.A. Basalov ; translated by William F. Barton and David K. Barton
出版情報: Dedham, MA : Artech House, 1985  xviii, 364 p. ; 24 cm
所蔵情報: loading…
目次情報: 続きを見る
Introduction / 1.0:
Purpose
Objective / 1.2:
Orientation / 1.3:
Scope / 1.4:
Sources and Coupling of Em Energy / 2.0:
The Environment / 2.1:
Environment Sources / 2.2:
General Signal Characteristics / 2.2.1:
Pulse Signal / 2.2.2:
Signal Transmission / 2.2.3:
Radiated Energy / 2.3:
The Radiation Field / 2.3.1:
Distinction Between Induction and Radiation Fields / 2.3.2:
Nonlinear Environmental Effects / 2.3.3:
Propagation Effects / 2.3.4:
The GSE Radiated Environments / 2.3.5:
Conducted Energy / 2.4:
Conducted Routes / 2.4.1:
The GSE Conducted Environment / 2.4.2:
Combined Effects / 2.5:
Design Considerations / 3.0:
General Guidelines / 3.1:
Electrical Design / 3.1.1:
Physical Layout of Components / 3.1.2:
Mechanical Factors / 3.1.3:
Safety / 3.2:
The Effects of High RF Fields / 3.2.1:
Safety Procedures and Design Criteria / 3.2.2:
Factors Influencing Gse Emc / 3.3:
EMC Maintenance Considerations / 3.3.1:
Cost Benefit Considerations / 3.3.2:
Microprocessors and Digital Systems / 3.3.3:
Examples of Avionic and Gse Designs / 3.4:
Flight or Hangar Deck Operation / 3.4.1:
Shop Testing / 3.4.2:
Control and Test Planning / 4.0:
General / 4.1:
The Emc Control Plan / 4.2:
The Role of the Control Plan / 4.2.1:
The Contents of the Control Plan / 4.2.2:
Control Plan Checklist / 4.2.3:
The Emc Test Plan / 4.3:
Shielding / 5.0:
General Shield Design Considerations / 5.1:
Solid Shielding Materials / 5.2:
Shielding Analysis / 5.2.1:
Additional Comments on Magnetic Shielding / 5.2.2:
Multiple Solid Shields / 5.2.3:
Coating and Thin-Film Shielding / 5.2.4:
Non-Solid Shielding Materials / 5.3:
Types of Discontinuities / 5.3.1:
Composite Materials / 5.3.2:
Cables and Connectors / 5.4:
Cable Shielding / 5.4.1:
Cable Shield Terminations and Connectors / 5.4.2:
New Connector Technology / 5.4.3:
Fiber Optics / 5.4.4:
Other Design Techniques to Maintain Shielding Effectiveness / 5.5:
Seams Without Gaskets / 5.5.1:
Seams With Gaskets / 5.5.2:
Use of Waveguide Attenuators / 5.5.3:
Panel Openings / 5.5.4:
Required Visual Openings / 5.5.5:
Shielding Tests / 5.6:
Low Impedance Magnetic Field Testing Using Small Loops / 5.6.1:
Low Impedance Magnetic Field Testing Using a Helmholtz Coil / 5.6.3:
High Impedance Electric Field Testing Using Rod Antennas / 5.6.4:
High Impedance Electric Field Testing Using a Parallel Line Radiator / 5.6.5:
Plane Wave Testing Using Antennas / 5.6.6:
Plane Wave Testing Using a Parallel Plate Transmission Line / 5.6.7:
MIL-STD-1377 Testing / 5.6.8:
Summary of Good Shielding Practices / 5.7:
Bonding / 6.0:
Surface Treatment / 6.1:
Corrosion / 6.3:
Bonding Effectiveness Characteristics / 6.4:
Bond Jumper Equivalent Circuit / 6.4.1:
Equipment Effects on Indirect Bonds / 6.4.2:
Bonding Resistance / 6.4.3:
Bonding Tests / 6.5:
DC Resistance Measurement / 6.5.1:
Swept Frequency/Shunt-T Insertion Loss Measurement / 6.5.3:
Single Vs. Multi-Point Bonding / 6.6:
Bonding Design Guidelines / 6.7:
Grounding / 7.0:
Grounding Techniques / 7.1:
Circuit Grounding Considerations / 7.3:
Power Supply Considerations / 7.4:
Prime Power Considerations / 7.5:
Cabling Considerations / 7.6:
Grounding Design Guidelines / 7.7:
Fil Tering / 8.0:
Filter Desing / 8.1:
Low-Pass Filters / 8.2.1:
High Pass Filters / 8.2.2:
Bandpass Filters / 8.2.3:
Band-Rejection Filters / 8.2.4:
Transient Suppression / 8.3:
Inductive Loads / 8.3.1:
Mechanical Switches / 8.3.2:
Transformer Switching / 8.3.3:
Semiconductor Transients / 8.3.4:
Active Power Line Filters / 8.4:
Noise Blanking, Cancelling, And Limiting circuits / 8.5:
Noise Blanking / 8.5.1:
Cancellation / 8.5.2:
Limiting / 8.5.3:
Filter Tests / 8.6:
MIL-STD-220A Insertion Loss Test / 8.6.1:
Filter Admittance Transfer Test / 8.6.3:
Parallel Signal Injection Test / 8.6.4:
Series Signal Injection Test / 8.6.5:
Current Injection Probes / 8.6.6:
Leakage Current Test / 8.6.7:
Filter Installation And Mounting / 8.7:
Specifying Fil Ters / 8.8:
Testing Requirements and Techniques / 9.0:
Shielded Enclosure Requirements / 9.1:
Enclosure Limitations / 9.2.1:
Enclosure Design Considerations / 9.2.2:
Microwave Absorbers / 9.2.3:
Testing Guidelines / 9.3:
Signal Sources / 9.3.1:
Sweep Generators and Oscillators / 9.3.3:
Attenuators / 9.3.4:
Detectors / 9.3.5:
Radiated And Conducted Equipment Testing / 9.4:
Emission Tests / 9.4.1:
Susceptibility Tests / 9.4.3:
Transient Testing / 9.4.4:
Specifications and Standards / 10.0:
Applicable Specifications / 10.1:
Obtaining Specifications / 10.3:
Tables And Nomographs / 11.0:
Order Of Contents / 11.1:
Introduction / 1.0:
Purpose
Objective / 1.2:
6.

図書
図書
6. Analysis and performance of fiber composites
Bhagwan D. Agarwal, Lawrence J. Broutman
出版情報: New York : J. Wiley, c1980  ix, 355 p. ; 24 cm
シリーズ名: SPE monographs
所蔵情報: loading…
目次情報: 続きを見る
Preface
Introduction. / 1:
Definition / 1.1:
Characteristics / 1.2:
Classification / 1.3:
Particulate Composites / 1.4:
Fiber-Reinforced Composites / 1.5:
Applications of Fiber Composites / 1.6:
Exercise Problems
References
Fibers, Matrices, and Fabrication of Composites. / 2:
Advanced Fibers / 2.1:
Glass Fibers / 2.1.1:
Carbon and Graphite Fibers / 2.1.2:
Aramid Fibers / 2.1.3:
Boron Fibers / 2.1.4:
Other Fibers / 2.1.5:
Matrix Materials / 2.2:
Polymers / 2.2.1:
Metals / 2.2.2:
Fabrication of Composites / 2.3:
Fabrication of Thermosetting Resin Matrix Composites / 2.3.1:
Fabrication of Thermoplastic-Resin Matrix Composites (Short-Fiber Composites / 2.3.2:
Fabrication of Metal Matrix Composites / 2.3.3:
Fabrication of Ceramic Matrix Composites / 2.3.4:
Suggested Reading
Behavior of Unidirectional Composites. / 3:
Introduction / 3.1:
Nomenclature / 3.1.1:
Volume and Weight Fractions / 3.1.2:
Longitudinal Behavior of Unidirectional Composites / 3.2:
Initial Stiffness / 3.2.1:
Load Sharing / 3.2.2:
Behavior beyond Initial Deformation / 3.2.3:
Failure Mechanism and Strength / 3.2.4:
Factors Influencing Longitudinal Strength and Stiffness / 3.2.5:
Transverse Stiffness and Strength / 3.3:
Constant-Stress Model / 3.3.1:
Elasticity Methods of Stiffness Prediction / 3.3.2:
Halpin-Tsai Equations for Transverse Modulus / 3.3.3:
Transverse Strength / 3.3.4:
Prediction of Shear Modulus / 3.4:
Prediction of Poisson's Ratio / 3.5:
Failure Modes / 3.6:
Failure under Longitudinal Tensile Loads / 3.6.1:
Failure under Longitudinal Compressive Loads / 3.6.2:
Failure under Transverse Tensile Loads / 3.6.3:
Failure under Transverse Compressive Loads / 3.6.4:
Failure under In-Plane Shear Loads / 3.6.5:
Expansion Coefficients and Transport Properties / 3.7:
Thermal Expansion Coefficients / 3.7.1:
Moisture Expansion Coefficients / 3.7.2:
Transport Properties / 3.7.3:
Mass Diffusion / 3.7.4:
Typical Unidirectional Fiber Composite Properties / 3.8:
Short-Fiber Composites. / 4:
Theories of Stress Transfer / 4.1:
Approximate Analysis of Stress Transfer / 4.2.1:
Stress Distributions from Finite-Element Analysis / 4.2.2:
Average Fiber Stress / 4.2.3:
Modulus and Strength of Short-Fiber Composites / 4.3:
Prediction of Modulus / 4.3.1:
Prediction of Strength / 4.3.2:
Effect of Matrix Ductility / 4.3.3:
Ribbon-Reinforced Composites / 4.4:
Analysis of an Orthotropic Lamina. / 5:
Orthotropic Materials / 5.1:
Stress-Strain Relations and Engineering Constants / 5.2:
Stress-Strain Relations for Specially Orthotropic Lamina / 5.2.1:
Stress-Strain Relations for Generally Orthotropic Lamina / 5.2.2:
Transformation of Engineering Constants / 5.2.3:
Hooke's Law and Stiffness and Compliance Matrices / 5.3:
General Anisotropic Material / 5.3.1:
Specially Orthotropic Material / 5.3.2:
Transversely Isotropic Material / 5.3.3:
Isotropic Material / 5.3.4:
Specially Orthotropic Material under Plane Stress / 5.3.5:
Compliance Tensor and Compliance Matrix / 5.3.6:
Relations between Engineering Constants and Elements of Stiffness and Compliance Matrices / 5.3.7:
Restrictions on Elastic Constants / 5.3.8:
Transformation of Stiffness and Compliance Matrices / 5.3.9:
Invariant Forms of Stiffness and Compliance Matrices / 5.3.10:
Strengths of an Orthotropic Lamina / 5.4:
Maximum-Stress Theory / 5.4.1:
Maximum-Strain Theory / 5.4.2:
Maximum-Work Theory / 5.4.3:
Importance of Sign of Shear Stress on Strength of Composites / 5.4.4:
Analysis of Laminated Composites. / 6:
Laminate Strains / 6.1:
Variation of Stresses in a Laminate / 6.3:
Resultant Forces and Moments: Synthesis of Stiffness Matrix / 6.4:
Laminate Description System / 6.5:
Construction and Properties of Special Laminates / 6.6:
Symmetric Laminates / 6.6.1:
Unidirectional, Cross-Ply, and Angle-Ply Laminates / 6.6.2:
Quasi-isotropic Laminates / 6.6.3:
Determination of Laminae Stresses and Strains / 6.7:
Analysis of Laminates after Initial Failure / 6.8:
Hygrothermal Stresses in Laminates / 6.9:
Concepts of Thermal Stresses / 6.9.1:
Hygrothermal Stress Calculations / 6.9.2:
Laminate Analysis Through Computers / 6.10:
Analysis of Laminated Plates and Beams. / 7:
Governing Equations for Plates / 7.1:
Equilibrium Equations / 7.2.1:
Equilibrium Equations in Terms of Displacements / 7.2.2:
Application of Plate Theory / 7.3:
Bending / 7.3.1:
Buckling / 7.3.2:
Free Vibrations / 7.3.3:
Deformations Due to Transverse Shear / 7.4:
First-Order Shear Deformation Theory / 7.4.1:
Higher-Order Shear Deformation Theory / 7.4.2:
Analysis of Laminated Beams / 7.5:
Governing Equations for Laminated Beams / 7.5.1:
Application of Beam Theory / 7.5.2:
Advanced Topics in Fiber Composites. / 8:
Interlaminar Stresses and Free-Edge Effects / 8.1:
Concepts of Interlaminar Stresses / 8.1.1:
Determination of Interlaminar Stresses / 8.1.2:
Effect of Stacking Sequence on Interlaminar Stresses / 8.1.3:
Approximate Solutions for Interlaminar Stresses / 8.1.4:
Summary / 8.1.5:
Fracture Mechanics of Fiber Composites / 8.2:
Fracture Mechanics Concepts and Measures of Fracture Toughness / 8.2.1:
Fracture Toughness of Composite Laminates / 8.2.3:
Whitney-Nuismer Failure Criteria for Notched Composites / 8.2.4:
Joints for Composite Structures / 8.3:
Adhesively Bonded Joints / 8.3.1:
Mechanically Fastened Joints / 8.3.2:
Bonded-Fastened Joints / 8.3.3:
Performance of Fiber Composites: Fatigue, Impact, and Environmental Effects. / 9:
Fatigue / 9.1:
Fatigue Damage / 9.1.1:
Factors Influencing Fatigue Behavior of Composites / 9.1.3:
Empirical Relations for Fatigue Damage and Fatigue Life / 9.1.4:
Fatigue of High-Modulus Fiber-Reinforced Composites / 9.1.5:
Fatigue of Short-Fiber Composites / 9.1.6:
Impact / 9.2:
Introduction and Fracture Process / 9.2.1:
Energy-Absorbing Mechanisms and Failure Models / 9.2.2:
Effect of Materials and Testing Variables on Impact Properties / 9.2.3:
Hybrid Composites and Their Impact Strength / 9.2.4:
Damage Due to Low-Velocity Impact / 9.2.5:
Environmental-Interaction Effects / 9.3:
Fiber Strength / 9.3.1:
Matrix Effects / 9.3.2:
Experimental Characterization of Composites. / 10:
Measurement of Physical Properties / 10.1:
Density / 10.2.1:
Constituent Weight and Volume Fractions / 10.2.2:
Void Volume Fraction / 10.2.3:
Moisture Absorption and Diffusivity / 10.2.4:
Measurement of Mechanical Properties / 10.2.6:
Properties in Tension / 10.3.1:
Properties in Compression / 10.3.2:
In-Place Shear Properties / 10.3.3:
Flexural Properties / 10.3.4:
Measures of In-Plane Fracture Toughness / 10.3.5:
Interlaminar Shear Strength and Fracture Toughness / 10.3.6:
Impact Properties / 10.3.7:
Damage Identification Using Nondestructive Evaluation Techniques / 10.4:
Ultrasonics / 10.4.1:
Acoustic Emission / 10.4.2:
x-Radiography / 10.4.3:
Thermography / 10.4.4:
Laser Shearography / 10.4.5:
General Remarks on Characterization / 10.5:
Emerging Composite Materials. / 11:
Nanocomposites / 11.1:
Carbon-Carbon Composites / 11.2:
Biocomposites / 11.3:
Biofibers / 11.3.1:
Wood-Plastic Composites (WPCs / 11.3.2:
Biopolymers / 11.3.3:
Composites in ''Smart'' Structures / 11.4:
Matrices and Tensors. / Appendix 1:
Equations of Theory of Elasticity. / Appendix 2:
Laminate Orientation Code. / Appendix 3:
Properties of Fiber Composites. / Appendix 4:
Computer Programs for Laminate Analysis. / Appendix 5:
Index.
Preface
Introduction. / 1:
Definition / 1.1:
7.

図書
図書
7. SO[2], NO, and NO[2] oxidation mechanisms : atmospheric considerations
edited by Jack G. Calvert
出版情報: Boston : Butterworth Publishers, c1984  xiv, 254 p. ; 25 cm
シリーズ名: Acid precipitation series ; v. 3
所蔵情報: loading…
8.

図書
図書
8. Bibliographic guide to technology (1975 - 1989)
G.K. Hall & Company
出版情報: Boston, Mass. : G.K. Hall & Co., 1983-1988  v. ; 29 cm
所蔵情報: loading…
9.

図書
図書
9. Numerical solution of partial differential equations in science and engineering
Leon Lapidus, George F. Pinder
出版情報: New York : Wiley, c1982  677 p. ; 24 cm
所蔵情報: loading…
目次情報: 続きを見る
Fundamental Concepts / Chapter 1.:
Notation / 1.0.:
First-Order Partial Differential Equations / 1.1.:
First-Order Quasilinear Partial Differential Equations / 1.1.1.:
Initial Value or Cauchy Problem / 1.1.2.:
Application of Characteristic Curves / 1.1.3.:
Nonlinear First-Order Partial Differential Equations / 1.1.4.:
Second-Order Partial Differential Equations / 1.2.:
Linear Second-Order Partial Differential Equations / 1.2.1.:
Classification and Canonical Form of Selected Partial Differential Equations / 1.2.2.:
Quasilinear Partial Differential Equations and Other Ideas / 1.2.3.:
Systems of First-Order PDEs / 1.3.:
First-Order and Second-Order PDEs / 1.3.1.:
Characteristic Curves / 1.3.2.:
Applications of Characteristic Curves / 1.3.3.:
Initial and Boundary Conditions / 1.4.:
References
Basic Concepts in the Finite Difference and Finite Element Methods / Chapter 2.:
Introduction / 2.0.:
Finite Difference Approximations / 2.1.:
Taylor Series Expansions / 2.1.1.:
Operator Notation for u(x) / 2.1.3.:
Finite Difference Approximations in Two Dimensions / 2.1.4.:
Additional Concepts / 2.1.5.:
Introduction to Finite Element Approximations / 2.2.:
Method of Weighted Residuals / 2.2.1.:
Application of the Method of Weighted Residuals / 2.2.2.:
The Choice of Basis Functions / 2.2.3.:
Two-Dimensional Basis Functions / 2.2.4.:
Approximating Equations / 2.2.5.:
Relationship between Finite Element and Finite Difference Methods / 2.3.:
Finite Elements on Irregular Subspaces / Chapter 3.:
Triangular Elements / 3.0.:
The Linear Triangular Element / 3.1.1.:
Area Coordinates / 3.1.2.:
The Quadratic Triangular Element / 3.1.3.:
The Cubic Triangular Element / 3.1.4.:
Higher-Order Triangular Elements / 3.1.5.:
Isoparametric Finite Elements / 3.2.:
Transformation Functions / 3.2.1.:
Numerical Integration / 3.2.2.:
Isoparametric Serendipity Hermitian Elements / 3.2.3.:
Isoparametric Hermitian Elements in Normal and Tangential Coordinates / 3.2.4.:
Boundary Conditions / 3.3.:
Three-Dimensional Elements / 3.4.:
Parabolic Partial Differential Equations / Chapter 4.:
Partial Differential Equations / 4.0.:
Well-Posed Partial Differential Equations / 4.1.1.:
Model Difference Approximations / 4.2.:
Well-Posed Difference Forms / 4.2.1.:
Derivation of Finite Difference Approximations / 4.3.:
The Classic Explicit Approximation / 4.3.1.:
The Dufort-Frankel Explicit Approximation / 4.3.2.:
The Richardson Explicit Approximation / 4.3.3.:
The Backwards Implicit Approximation / 4.3.4.:
The Crank-Nicolson Implicit Approximation / 4.3.5.:
The Variable-Weighted Implicit Approximation / 4.3.6.:
Consistency and Convergence / 4.4.:
Stability / 4.5.:
Heuristic Stability / 4.5.1.:
Von Neumann Stability / 4.5.2.:
Matrix Stability / 4.5.3.:
Some Extensions / 4.6.:
Influence of Lower-Order Terms / 4.6.1.:
Higher-Order Forms / 4.6.2.:
Predictor-Corrector Methods / 4.6.3.:
Asymmetric Approximations / 4.6.4.:
Variable Coefficients / 4.6.5.:
Nonlinear Parabolic PDEs / 4.6.6.:
The Box Method / 4.6.7.:
Solution of Finite Difference Approximations / 4.7.:
Solution of Implicit Approximations / 4.7.1.:
Explicit versus Implicit Approximations / 4.7.2.:
Composite Solutions / 4.8.:
Global Extrapolation / 4.8.1.:
Some Numerical Results / 4.8.2.:
Local Combination / 4.8.3.:
Composites of Different Approximations / 4.8.4.:
Finite Difference Approximations in Two Space Dimensions / 4.9.:
Explicit Methods / 4.9.1.:
Irregular Boundaries / 4.9.2.:
Implicit Methods / 4.9.3.:
Alternating Direction Explicit (ADE) Methods / 4.9.4.:
Alternating Direction Implicit (ADI) Methods / 4.9.5.:
LOD and Fractional Splitting Methods / 4.9.6.:
Hopscotch Methods / 4.9.7.:
Mesh Refinement / 4.9.8.:
Three-Dimensional Problems / 4.10.:
ADI Methods / 4.10.1.:
Iterative Solutions / 4.10.2.:
Finite Element Solution of Parabolic Partial Differential Equations / 4.11.:
Galerkin Approximation to the Model Parabolic Partial Differential Equation / 4.11.1.:
Approximation of the Time Derivative / 4.11.2.:
Approximation of the Time Derivative for Weakly Nonlinear Equations / 4.11.3.:
Finite Element Approximations in One Space Dimension / 4.12.:
Formulation of the Galerkin Approximating Equations / 4.12.1.:
Linear Basis Function Approximation / 4.12.2.:
Higher-Degree Polynomial Basis Function Approximation / 4.12.3.:
Formulation Using the Dirac Delta Function / 4.12.4.:
Orthogonal Collocation Formulation / 4.12.5.:
Asymmetric Weighting Functions / 4.12.6.:
Finite Element Approximations in Two Space Dimensions / 4.13.:
Galerkin Approximation in Space and Time / 4.13.1.:
Galerkin Approximation in Space Finite Difference in Time / 4.13.2.:
Asymmetric Weighting Functions in Two Space Dimensions / 4.13.3.:
Lumped and Consistent Time Matrices / 4.13.4.:
Collocation Finite Element Formulation / 4.13.5.:
Treatment of Sources and Sinks / 4.13.6.:
Alternating Direction Formulation / 4.13.7.:
Finite Element Approximations in Three Space Dimensions / 4.14.:
Example Problem / 4.14.1.:
Summary / 4.15.:
Elliptic Partial Differential Equations / Chapter 5.:
Model Elliptic PDEs / 5.0.:
Specific Elliptic PDEs / 5.1.1.:
Further Items / 5.1.2.:
Finite Difference Solutions in Two Space Dimensions / 5.2.:
Five-Point Approximations and Truncation Error / 5.2.1.:
Nine-Point Approximations and Truncation Error / 5.2.2.:
Approximations to the Biharmonic Equation / 5.2.3.:
Boundary Condition Approximations / 5.2.4.:
Matrix Form of Finite Difference Equations / 5.2.5.:
Direct Methods of Solution / 5.2.6.:
Iterative Concepts / 5.2.7.:
Formulation of Point Iterative Methods / 5.2.8.:
Convergence of Point Iterative Methods / 5.2.9.:
Line and Block Iteration Methods / 5.2.10.:
Acceleration and Semi-Iterative Overlays / 5.2.11.:
Finite Difference Solutions in Three Space Dimensions / 5.3.:
Iteration Concepts / 5.3.1.:
Finite Element Methods for Two Space Dimensions / 5.3.3.:
Galerkin Approximation / 5.4.1.:
Collocation Approximation / 5.4.2.:
Mixed Finite Element Approximation / 5.4.4.:
Approximation of the Biharmonic Equation / 5.4.5.:
Boundary Integral Equation Methods / 5.5.:
Fundamental Theory / 5.5.1.:
Boundary Element Formulation / 5.5.2.:
Linear Interpolation Functions / 5.5.3.:
Poisson's Equation / 5.5.5.:
Nonhomogeneous Materials / 5.5.6.:
Combination of Finite Element and Boundary Integral Equation Methods / 5.5.7.:
Three-Dimensional Finite Element Simulation / 5.6.:
Hyperbolic Partial Differential Equations / 5.7.:
Equations of Hyperbolic Type / 6.0.:
Finite Difference Solution of First-Order Scalar Hyperbolic Partial Differential Equations / 6.2.:
Stability, Truncation Error, and Other Features / 6.2.1.:
Other Approximations / 6.2.2.:
Dissipation and Dispersion / 6.2.3.:
Hopscotch Methods and Mesh Refinement / 6.2.4.:
Finite Difference Solution of First-Order Vector Hyperbolic Partial Differential Equations / 6.3.:
Finite Difference Solution of First-Order Vector Conservative Hyperbolic Partial Differential Equations / 6.4.:
Finite Difference Solutions to Two- and Three-Dimensional Hyperbolic Partial Differential Equations / 6.5.:
Finite Difference Schemes / 6.5.1.:
Two-Step, ADI, and Strang-Type Algorithms / 6.5.2.:
Conservative Hyperbolic Partial Differential Equations / 6.5.3.:
Finite Difference Solution of Second-Order Model Hyperbolic Partial Differential Equations / 6.6.:
One-Space-Dimension Hyperbolic Partial Differential Equation / 6.6.1.:
Explicit Algorithms / 6.6.2.:
Implicit Algorithms / 6.6.3.:
Simultaneous First-Order Partial Differential Equations / 6.6.4.:
Mixed Systems / 6.6.5.:
Two- and Three-Space-Dimensional Hyperbolic Partial Differential Equations / 6.6.6.:
Implicit ADI and LOD Methods / 6.6.7.:
Finite Element Solution of First-Order Model Hyperbolic Partial Differential Equations / 6.7.:
Asymmetric Weighting Function Approximation / 6.7.1.:
An H[superscript -1] Galerkin Approximation / 6.7.3.:
Orthogonal Collocation with Asymmetric Bases / 6.7.4.:
Finite Element Solution of Two- and Three-Space-Dimensional First-Order Hyperbolic Partial Differential Equations / 6.7.6.:
Galerkin Finite Element Formulation / 6.8.1.:
Finite Element Solution of First-Order Vector Hyperbolic Partial Differential Equations / 6.8.2.:
Finite Element Solution of Two- and Three-Space-Dimensional First-Order Vector Hyperbolic Partial Differential Equations / 6.9.1.:
Finite Element Solution of One-Space-Dimensional Second-Order Hyperbolic Partial Differential Equations / 6.10.1.:
Time Approximations / 6.11.1.:
Finite Element Solution of Two- and Three-Space-Dimensional Second-Order Hyperbolic Partial Differential Equations / 6.11.3.:
Index / 6.12.1.:
Fundamental Concepts / Chapter 1.:
Notation / 1.0.:
First-Order Partial Differential Equations / 1.1.:
10.

図書
図書
10. Reaction modes and products (pt. 1 ; pt. 2)
Frimer, Aryeh A., 1946-
出版情報: Boca Raton, Fla. : CRC Press, c1985  2 v. ; 26 cm
シリーズ名: Singlet O[2] / editor, Aryeh A. Frimer ; v. 2-v. 3
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11.

図書
図書
11. Chemical graph theory (v. 1 ; v. 2)
Nenad Trinajstić
出版情報: Boca Raton, Fla. : CRC Press, c1983  2 v. ; 27 cm
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12.

図書
図書
12. Solar energy (1 ; 2)
出版情報: Washington : Hemisphere Pub. Corp., c1987  v. ; 25 cm
シリーズ名: Alternative energy sources VII / edited by T. Nejat Veziroğlu ; v. 1-v. 2
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13.

図書
図書
13. Inorganic species (part 1 ; part 2)
edited by Roger A. Minear, Lawrence H. Keith
出版情報: Orlando : Academic Press, 1982  2 v. ; 24 cm
シリーズ名: Water analysis ; v. 1-2
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14.

図書
図書
14. Progress in protein-lipid interactions (v. 1 ; v. 2)
editors, A. Watts and J.J.H.H.M. de Pont
出版情報: Amsterdam : Elsevier, 1985-  v. ; 25 cm
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15.

図書
図書
15. Encyclopedia of neuroscience (: set : us - v. 2)
edited by George Adelman ; foreword by Francis O. Schmitt
出版情報: Boston ; Basel : Birkhäuser, 1987  2 v. (1308 p.) ; 29 cm
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16.

図書
図書
16. Handbook of conducting polymers (v. 1 ; v. 2)
edited by Terje A. Skotheim
出版情報: New York : M. Dekker, c1986  2 v. ; 26 cm
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17.

図書
図書
17. Advances in the mechanics and the flow of granular materials. 1st ed (v. 1 : gw - v. 2 : us)
Mohsen Shahinpoor, editor
出版情報: Clausthal-Zellerfeld, Federal Republic of Germany : Trans Tech Publications , Houston : Gulf Pub. Co., 1983  2 v. (xxx, 975 p.) ; 25 cm
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18.

図書
図書
18. Brittle matrix composites 2 : Proceedings of the Second International symposium on Brittle Matrix Composites, (BMC2) held at Cedzyna, Poland, 20-22 Sept. 1988
edited by A.M. Brandt and I.H. Marshall
出版情報: London : Elsevier Applied Science, c1989  xvi, 674 p. ; 25 cm
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19.

図書
図書
19. 大漢和辞典. 修訂版 (: 上製 セット - 特装 索引)
諸橋轍次著 ; 鎌田正, 米山寅太郎修訂
出版情報: 東京 : 大修館書店, 1984.4-1986.7  13冊 ; 31cm
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20.

図書
図書
20. Software engineering. 2nd ed. (: pbk.)
I. Sommerville
出版情報: Wokingham, Eng. ; Reading, Mass. : Addison-Wesley, c1985  xi, 334 p. ; 24 cm
シリーズ名: International computer science series
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目次情報: 続きを見る
Preface
Overview / Part 1:
Introduction / Chapter 1:
FAQs about software engineering / 1.1:
Professional and ethical responsibility / 1.2:
Key points
Further reading
Exercises
Computer-based system engineering / Chapter 2:
Emergent system properties / 2.1:
Systems and their environment / 2.2:
System modelling / 2.3:
The system engineering process / 2.4:
System procurement / 2.5:
Software processes / Chapter 3:
Software process models / 3.1:
Process iteration / 3.2:
Software specification / 3.3:
Software design and implementation / 3.4:
Software validation / 3.5:
Software evolution / 3.6:
Automated process support / 3.7:
Project management / Chapter 4:
Management activities / 4.1:
Project planning / 4.2:
Project scheduling / 4.3:
Risk management / 4.4:
Requirements / Part 2:
Software requirements / Chapter 5:
Functional and non-functional requirements / 5.1:
User requirements / 5.2:
System requirements / 5.3:
The software requirements document / 5.4:
Requirements engineering processes / Chapter 6:
Feasibility studies / 6.1:
Requirements elicitation and analysis / 6.2:
Requirements validation / 6.3:
Requirements management / 6.4:
System models / Chapter 7:
Context models / 7.1:
Behavioural models / 7.2:
Data models / 7.3:
Object models / 7.4:
CASE workbenches / 7.5:
Software prototyping / Chapter 8:
Prototyping in the software process / 8.1:
Rapid prototyping techniques / 8.2:
User interface prototyping / 8.3:
Formal specification / Chapter 9:
Formal specification in the software process / 9.1:
Interface specification / 9.2:
Behavioural specification / 9.3:
Design / Part 3:
Architectural design / Chapter 10:
System structuring / 10.1:
Control models / 10.2:
Modular decomposition / 10.3:
Domain-specific architectures / 10.4:
Distributed systems architectures / Chapter 11:
Multiprocessor architectures / 11.1:
Client-server architectures / 11.2:
Distributed object architectures / 11.3:
CORBA / 11.4:
Object-oriented design / Chapter 12:
Objects and object classes / 12.1:
An object-oriented design process / 12.2:
Design evolution / 12.3:
Real-time software design / Chapter 13:
System design / 13.1:
Real-time executives / 13.2:
Monitoring and control systems / 13.3:
Data acquisition systems / 13.4:
Design with reuse / Chapter 14:
Component-based development / 14.1:
Application families / 14.2:
Design patterns / 14.3:
User interface design / Chapter 15:
User interface design principles / 15.1:
User interaction / 15.2:
Information presentation / 15.3:
User support / 15.4:
Interface evaluation / 15.5:
Critical Systems / Part 4:
Dependability / Chapter 16:
Critical systems / 16.1:
Availability and reliability / 16.2:
Safety / 16.3:
Security / 16.4:
Critical systems specification / Chapter 17:
Software reliability specification / 17.1:
Safety specification / 17.2:
Security specification / 17.3:
Critical systems development / Chapter 18:
Fault minimisation / 18.1:
Fault tolerance / 18.2:
Fault-tolerant architectures / 18.3:
Safe system design / 18.4:
Verification and Validation / Part 5:
Verification and validation / Chapter 19:
Verification and validation planning / 19.1:
Software inspections / 19.2:
Automated static analysis / 19.3:
Cleanroom software development / 19.4:
Software testing / Chapter 20:
Defect testing / 20.1:
Integration testing / 20.2:
Object-oriented testing / 20.3:
Testing workbenches / 20.4:
Critical systems validation / Chapter 21:
Formal methods and critical systems / 21.1:
Reliability validation / 21.2:
Safety assurance / 21.3:
Security assessment / 21.4:
Management / Part 6:
Managing people / Chapter 22:
Limits to thinking / 22.1:
Group working / 22.2:
Choosing and keeping people / 22.3:
The People Capability Maturity Model / 22.4:
Software cost estimation / Chapter 23:
Productivity / 23.1:
Estimation techniques / 23.2:
Algorithmic cost modelling / 23.3:
Project duration and staffing / 23.4:
Quality management / Chapter 24:
Quality assurance and standards / 24.1:
Quality planning / 24.2:
Quality control / 24.3:
Software measurement and metrics / 24.4:
Process improvement / Chapter 25:
Process and product quality / 25.1:
Process analysis and modelling / 25.2:
Process measurement / 25.3:
The SEI Process Capability Maturity Model / 25.4:
Process classification / 25.5:
Evolution / Part 7:
Legacy systems / Chapter 26:
Legacy system structures / 26.1:
Legacy system design / 26.2:
Legacy system assessment / 26.3:
Software change / Chapter 27:
Program evolution dynamics / 27.1:
Software maintenance / 27.2:
Architectural evolution / 27.3:
Software re-engineering / Chapter 28:
Source code translation / 28.1:
Reverse engineering / 28.2:
Program structure improvement / 28.3:
Program modularisation / 28.4:
Data re-engineering / 28.5:
Configuration management / Chapter 29:
Configuration management planning / 29.1:
Change management / 29.2:
Version and release management / 29.3:
System building / 29.4:
CASE tools for configuration management / 29.5:
References
Index
Preface
Overview / Part 1:
Introduction / Chapter 1:
21.

図書
図書
21. Principles of modern radar systems
Michel H. Carpentier
出版情報: London ; Boston : Artech House, c1988  xii, 303 p., [4] p. of plates ; 24 cm
シリーズ名: The Artech House radar library
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目次情報: 続きを見る
Preface
Introduction to Random Functions / Chapter 1:
General considerations. Steady state conditions / 1.1:
Amplitude distribution / 1.2:
Spectral distribution A[superscript 2](f) / 1.3:
Generalization / 1.3.1:
Response of a linear filter / 1.4:
Applications of the convolution theorem / 1.5:
Convolution theorem / 1.5.1:
The cross-correlation function / 1.5.2:
Autocorrelation function: Wiener's theorem / 1.5.3:
Differentiation of [varrho]([tau]) when x(t) is real / 1.5.4:
Examples of calculations of [varrho]([tau]) and A[superscript 2](f) / 1.6:
Autocorrelation function associated with a rectangular spectrum / 1.6.1:
Calculation of the autocorrelation function / 1.6.2:
Calculation of the spectral density of [upsilon](t) / 1.6.3:
Calculation of the autocorrelation function of w[subscript 1](t) / 1.6.4:
Filtering with an RC circuit / 1.6.5:
Optimization / 1.6.6:
Sampling theorem / 1.7:
Tendency to the normal distribution. Gaussian phenomena. Rayleigh distribution / 1.8:
Tendency to the normal distribution / 1.8.1:
Representations of gaussian random functions / 1.8.2:
Exercises / 1.9:
Signal and Noise. The Ideal Receiver / Chapter 2:
The radar problem / 2.1:
A priori and a posteriori probabilities / 2.2:
A posteriori probability of the presence or absence of a signal in gaussian noise after one experiment / 2.3:
A posteriori probability of the presence or absence of a signal in gaussian noise after several successive experiments / 2.4:
Probability of the presence or absence of a continuous signal in continuous gaussian noise. The ideal receiver / 2.5:
More rigorous definition of the ideal receiver / 2.6:
Assumptions / 2.6.2:
Properties of S(t), n(t) and S(t - t[subscript 0]) / 2.6.3:
Search for a basis of orthonormal vectors over E(t[subscript 0]) / 2.6.4:
Definition of an ideal receiver / 2.6.5:
White noise / 2.6.6:
Colored noise (approximate proof) / 2.6.7:
Performance of Radar Systems Equipped with Ideal Receivers / Chapter 3:
Two procedures for making an ideal receiver / 3.1:
The output signal of the ideal receiver / 3.2:
Properties of the useful signal / 3.2.1:
Properties of the parasitic signal / 3.2.2:
Conclusions / 3.2.3:
Probability of false alarm and detection. Range ambiguity / 3.3:
Probability of false alarm / 3.3.1:
Detection probability / 3.3.2:
Range ambiguity / 3.3.3:
Revision of the results when the useful signal is a microwave signal / 3.4:
Accuracy of range measurement / 3.5:
Range resolution / 3.6:
General considerations / 3.6.1:
First general rule / 3.6.2:
Analysis of the problem / 3.6.3:
Approximate formula / 3.6.4:
Accuracy of the measurement of radial speed / 3.7:
(Radial) velocity ambiguity / 3.8:
Resolving power in terms of (radial) velocity / 3.9:
General rule / 3.9.1:
Range-velocity ambiguity / 3.9.2:
Non-frequency-modulated square-wave pulse with duration T / 3.10.1:
Non-frequency-modulated gaussian signal / 3.10.3:
Gaussian signal with linear frequency modulation / 3.10.4:
Square-wave pulse trains / 3.10.5:
Square-wave pulse with linear frequency modulation / 3.10.6:
Range-velocity resolution / 3.11:
Square-wave pulse which is not frequency modulated / 3.11.1:
Random signal / 3.11.4:
Application of ambiguity to combat parasitic echoes / 3.12:
Choice of signal to be transmitted / 3.13:
Choice of receiver / 3.13.2:
Analysis of the Operating Principles of some Types of Radar / Chapter 4:
Noise radar / 4.1:
Target with a known velocity / 4.1.1:
Target with unknown velocity / 4.1.2:
Pulse Doppler radar / 4.2:
New algorithm for a radar receiver / 4.3:
Classical pulse radar / 4.4:
Classical concept / 4.4.1:
A new concept / 4.4.2:
Pulse compression radar / 4.5:
Introduction / 4.5.1:
Pulse compression procedures / 4.5.2:
General properties of pulse compression / 4.5.3:
Calculation of faults due to compression imperfection. Paired-echo method / 4.5.4:
Practical implementation of dispersive filters / 4.5.5:
Constant false alarm reception (CFAR) / 4.6:
Principles of constant false alarm receivers / 4.6.1:
Output levels of the useful signal and noise / 4.6.2:
Examples of applications / 4.6.3:
Elimination of clutter / 4.7:
Restriction of the level of parasitic signals entering the radar system / 4.7.1:
The main systems using Doppler filtering / 4.7.3:
Performance of a delay line moving target indicator / 4.7.4:
Behavior of Real Targets. Fluctuation of Targets / Chapter 5:
Radar cross-section of a planar plate / 5.1:
Radar cross-section of a metal sphere / 5.3:
Field reradiated by a hypothetical isotropic target / 5.4:
Target consisting of two identical point targets / 5.5:
Target consisting of two different point targets / 5.6:
Fluctuations in the Rayleigh distribution / 5.7:
Frequency diversity. Random radars / 5.8:
Random radars / 5.8.1:
Angle Measurement Using Radar / 5.9:
General comments / 6.1:
Two-dimensional search radar / 6.2:
Continuous-wave operation for cooperating targets / 6.2.1:
Pulse operation on a cooperating target / 6.2.2:
Operation on a noncooperating target / 6.2.3:
General principle of monopulse radars / 6.3:
Angular fluctuation of targets / 6.4:
Errors in angular measurement using radar / 6.4.1:
Description of monopulse radars / 6.5:
Amplitude monopulse and phase monopulse radars / 6.5.1:
Use of radio freqeuncy signals in monopulse radars / 6.5.2:
Effect of receiver noise on the accuracy of angular measurements made using a monopulse radar / 6.5.3:
Relationship between the monopulse procedures / 6.5.4:
Conical scanning radar / 6.6:
Effect of target fluctuation on the accuracy of radar measurements / 6.7:
General case / 6.7.1:
Accuracy of a radar system performing several consecutive measurements / 6.7.3:
Fluctuation of the radiant point. Angular target signature / 6.8:
Data Processing of Radar Information. Radar Coverage / Chapter 7:
Coherent integration / 7.1:
Integration after detection / 7.2:
Integration in a search radar / 7.3:
Integration after square-law detection / 7.3.1:
Use of digital extractors / 7.4:
Some variations on the radar equation / 7.5:
Tracking radar / 7.5.1:
Two-dimensional surveillance radar / 7.5.2:
Three-dimensional surveillance radar / 7.5.3:
Applications to Electronic Scanning Antennas to Radar / Chapter 8:
Basic principles of electronic scanning. Simplifications / 8.1:
First simplification / 8.2.1:
Second simplification / 8.2.2:
Third simplification / 8.2.3:
Fourth simplification / 8.2.4:
General description of an electronic scanning antenna / 8.3:
Radiating elements / 8.3.1:
Phase shifters / 8.3.2:
Feed systems / 8.3.3:
Types of patterns for electronic scanning radars / 8.4:
Centered pencil beam / 8.4.1:
Offset beam / 8.4.2:
Broadened beam / 8.4.3:
Monopulse difference beam / 8.4.4:
Antijamming antenna / 8.4.5:
Final remarks / 8.5:
Introduction to Hilbert spaces / Appendices:
Definition of an abelian group / A.1:
Definition of a ring / A.2:
Definition of a field / A.3:
Definition of a vector space / A.4:
Hilbert spaces / A.5:
Table of the function [Theta](x) / Appendix B:
References
Bibliography
Index
Preface
Introduction to Random Functions / Chapter 1:
General considerations. Steady state conditions / 1.1:
22.

図書
図書
22. Plastics, fibres, rubbers, resins : starting and auxiliary materials, degradation products. 2nd, completely rev. ed (pt. b, 1 ; pt. b, 2)
by Dieter O. Hummel ; in collaboration with Agnes Solti
出版情報: Munich : Hanser, c1988 , Weinheim : VCH Verlagsgesellschaft , New York : VCH Publishers  2 v. ; 31 cm
シリーズ名: Atlas of polymer and plastics analysis = Atlas der Polymer- und Kunststoffanalyse / Hummel, Scholl ; v. 2
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23.

図書
図書
23. High resolution NMR : theory and chemical applications. 2nd ed (: pbk)
Edwin D. Becker
出版情報: New York : Academic Press, 1980  xiv, 354 p. ; 24 cm
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目次情報: 続きを見る
Preface to the Third Edition
Introduction / 1:
Origins and Early History of NMR / 1.1:
High Resolution NMR: An Overview / 1.2:
Additional Reading and Resources / 1.3:
The Theory of NMR / 2:
Nuclear Spin and Magnetic Moment / 2.1:
Theoretical Descriptions of NMR / 2.2:
Steady-State Quantum Mechanical Description / 2.3:
Effect of the Boltzmann Distribution / 2.4:
Spin-Lattice Relaxation / 2.5:
Precession of Nuclear Magnetic Moments / 2.6:
Classical Mechanical Description of NMR / 2.7:
Magnetization in the Rotating Frame / 2.8:
Methods of Obtaining NMR Spectra / 2.9:
Dynamic Processes / 2.10:
Terminology, Symbols, Units, and Conventions / 2.11:
Problems / 2.12:
Instrumentation and Techniques / 3:
Advantages of Pulse Fourier Transform NMR / 3.1:
Basic NMR Apparatus / 3.2:
Requirements for High Resolution NMR / 3.3:
Detection of NMR Signals / 3.4:
Phase Cycling / 3.5:
Fourier Transformation of the FID / 3.6:
Data Acquisition / 3.7:
Data Processing / 3.8:
Digital Filtering / 3.9:
Alternatives to Fourier Transformation / 3.10:
Sensitivity and Size of Sample / 3.11:
Useful Solvents / 3.12:
Chemical Shifts / 3.13:
The Origin of Chemical Shifts / 4.1:
Theory of Chemical Shifts / 4.2:
Measurement of Chemical Shifts / 4.3:
Empirical Correlations of Chemical Shifts / 4.4:
Some Aspects of Proton Chemical Shifts / 4.5:
Nuclei Other Than Hydrogen / 4.6:
Compilations of Spectral Data and Empirical Estimates of Chemical Shifts / 4.7:
Isotope Effects / 4.8:
Effects of Molecular Asymmetry / 4.9:
Paramagnetic Species / 4.10:
Coupling between Pairs of Spins / 4.11:
Origin of Spin Coupling Interactions / 5.1:
General Aspects of Spin-Spin Coupling / 5.2:
Theory of Spin-Spin Coupling / 5.3:
Correlation of Coupling Constants with Other Physical Properties / 5.4:
Effect of Exchange / 5.5:
Spin Decoupling and Double Resonance / 5.6:
Structure and Analysis of Complex Spectra / 5.7:
Symmetry and Equivalence / 6.1:
Notation / 6.2:
Energy Levels and Transitions in an AX System / 6.3:
Quantum Mechanical Treatment / 6.4:
The Two-Spin System without Coupling / 6.5:
Factoring the Secular Equation / 6.6:
Two Coupled Spins / 6.7:
The AB Spectrum / 6.8:
AX, AB, and A[subscript 2] Spectra / 6.9:
"First-Order" Spectra / 6.10:
Symmetry of Spin Wave Functions / 6.11:
General Procedures for Simulating Spectra / 6.12:
Three-Spin Systems / 6.13:
Relative Signs of Coupling Constants / 6.14:
Some Consequences of Strong Coupling and Chemical Equivalence / 6.15:
"Satellites" from Carbon-13 and Other Nuclides / 6.16:
The AA'BB' and AA'XX' Systems / 6.17:
Spectra of Solids / 6.18:
Spin Interactions in Solids / 7.1:
Dipolar Interactions / 7.2:
"Scalar Coupling" / 7.3:
The Heteronuclear Two-Spin System / 7.4:
Dipolar Decoupling / 7.5:
Cross Polarization / 7.6:
The Homonuclear Two-Spin System / 7.7:
Line Narrowing by Multiple Pulse Methods / 7.8:
Anisotropy of the Chemical Shielding / 7.9:
Magic Angle Spinning / 7.10:
Quadrupole Interactions and Line-Narrowing Methods / 7.11:
Other Aspects of Line Shapes / 7.12:
Orientation Effects in Liquids: Liquid Crystals / 7.13:
Relaxation / 7.14:
Molecular Motions and Processes for Relaxation in Liquids / 8.1:
Nuclear Magnetic Dipole Interactions / 8.2:
Nuclear Overhauser Effect / 8.3:
Relaxation via Chemical Shielding Anisotropy / 8.4:
Electric Quadrupole Relaxation / 8.5:
Scalar Relaxation / 8.6:
Spin-Rotation Relaxation / 8.7:
Relaxation by Paramagnetic Substances / 8.8:
Other Factors Affecting Relaxation / 8.9:
Pulse Sequences / 8.10:
The Spin Echo / 9.1:
The Carr-Purcell Pulse Sequence / 9.2:
Correcting for Pulse Imperfections / 9.3:
Spin Locking / 9.4:
Selective Excitation / 9.5:
Decoupling / 9.6:
Polarization Transfer Methods / 9.7:
Two-Dimensional NMR / 9.8:
General Aspects of 2D Spectra / 10.1:
A Survey of Basic 2D Experiments / 10.2:
Data Acquisition and Processing / 10.3:
Sensitivity Considerations / 10.4:
Density Matrix and Product Operator Formalisms / 10.5:
The Density Matrix / 11.1:
Transformations of the Density Matrix / 11.2:
The One-Spin System / 11.3:
The Two-Spin System / 11.4:
INEPT and Related Pulse Sequences / 11.5:
Product Operators / 11.6:
Coherence Transfer Pathways / 11.7:
Selected 1D, 2D, and 3D Experiments: A Further Look / 11.8:
Spectral Editing / 12.1:
Double Quantum Filtering Experiments / 12.2:
COSY / 12.3:
Heteronuclear Correlation by Indirect Detection / 12.4:
Three- and Four-Dimensional NMR / 12.5:
Elucidation of Molecular Structure and Macromolecular Conformation / 12.6:
Organic Structure Elucidation / 13.1:
Application of Some Useful 2D Methods / 13.2:
Structure and Configuration of Polymers / 13.3:
Three-Dimensional Structure of Biopolymers / 13.4:
NMR Imaging and Spatially Localized Spectroscopy / 13.5:
Use of Magnetic Field Gradients to Produce Images / 14.1:
Use of 2D NMR Methods in Imaging / 14.2:
k Space; Echo Planar Imaging / 14.3:
Factors Affecting Image Contrast / 14.4:
Chemical Shift Imaging and in Vivo Spectroscopy / 14.5:
NMR Imaging in Solids / 14.6:
Properties of Common Nuclear Spins / 14.7:
ABX and AA'XX' Spectra / Appendix B:
The ABX System / B.1:
The AA'XX' System / B.2:
Review of Relevant Mathematics / Appendix C:
Complex Numbers / C.1:
Trigonometric Identities / C.2:
Vectors / C.3:
Matrices / C.4:
Spin Matrices / Appendix D:
One Spin / D.1:
Two-Spin System / D.2:
Selected Answers to Problems / Appendix E:
References
Index
Preface to the Third Edition
Introduction / 1:
Origins and Early History of NMR / 1.1:
24.

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24. Machining data handbook. 3rd ed (set ; v. 1 ; v. 2)
compiled by the technical staff of the Machinability Data Center
出版情報: Cincinnati, Ohio : MDC, 1980  2 v. ; 29 cm
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25.

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25. Halophilic bacteria (set ; v. 1 ; v. 2)
editor, Francisco Rodriguez-Valera
出版情報: Boca Raton, Fla. : CRC Press, c1988  2 v. ; 27 cm
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26.

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26. Bioluminescence and chemiluminescence : instruments and applications (v. 1 ; v. 2)
editor, Knox Van Dyke
出版情報: Boca Raton, Fla : CRC Press, c1985  2 v. ; 26 cm
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27.

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27. Biology of carbohydrates (1 ; 2)
edited by Victor Ginsburg and Phillips Robbins
出版情報: New York : Wiley, c1981-c1984  2 v. ; 24 cm
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28.

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28. Structure and bonding in crystals (v. 1 ; v. 2)
edited by Michael O'Keeffe, Alexandra Navrotsky ; contributors, Aaron N. Bloch ... [et al.]
出版情報: New York : Academic Press, 1981  2 v. ; 23 cm
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29.

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29. Electron-molecule interactions and their applications (v. 1 : alk. paper ; v. 2)
edited by L.G. Christophorou
出版情報: New York : Academic Press, 1984  2 v. ; 24 cm
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30.

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30. Notebooks of Srinivasa Ramanujan (set:us - v. 2)
Ramanujan Aiyangar, Srinivasa, 1887-1920
出版情報: Berlin ; New York : Springer-Verlag , Bombay : Distributed for the Tata Institute of Fundamental Research, 1984  2 v. ; 31 cm
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31.

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31. Encyclopedia of environmental science and engineering. 2nd rev. and updated ed (: set - v. 3)
[edited by] J.R. Pfafflin, E.N. Ziegler
出版情報: New York ; Tokyo : Gordon and Breach Science Publishers, c1983  3 v. (xxiii, 1254 p.) ; 28 cm
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32.

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32. Inorganic reaction chemistry : systematic chemical separation (v. 1 : Halsted - v. 2, pt. B : Ellis Horwood)
D. T. Burns, A. Townshend, and A. G. Catchpole
出版情報: Chichester : E. Horwood , New York : Halsted Press, 1980-1981  2 v. in 3 ; 24 cm
シリーズ名: Ellis Horwood series in analytical chemistry
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目次情報:
[v. 1. Without special title]
v. 2. Reactions of the elements and their compounds. 2 v
pt. B : Osmium to zirconium
[v. 1. Without special title]
v. 2. Reactions of the elements and their compounds. 2 v
pt. B : Osmium to zirconium
33.

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33. Quantitative seismology : theory and methods (v. 1 ; v. 2)
Keiiti Aki, Paul G. Richards
出版情報: San Francisco : New York : W.H. Freeman, c1980  2 v. (xiv, 932, 16 p.) ; 24 cm
シリーズ名: A Series of books in geology
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34. Soil dynamics and earthquake engineering : proceedings of the 2nd International Conference, on board the liner, the Queen Elizabeth 2, New York to Southampton, June/July 1985 (: U.K ; : G.W ; : U.S)
editors, C.A. Brebbia, A.S. Cakmak, A.M. Abdel Ghaffar
出版情報: Southampton : Computational Mechanics , Berlin ; Tokyo : Springer-Verlag, c1985  633 p. in various pagings ; 24 cm
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35.

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35. Environmental consequences of nuclear war. 2nd ed (v. 1 ; v. 2)
Harwell, Mark A. ; Pittock, A. Barrie, 1938- ; Hutchinson, T. C. (Thomas C.), 1939- ; International Council of Scientific Unions. Scientific Committee on Problems of the Environment
出版情報: Chichester [England] ; New York : Published on behalf of the Scientific Committee on Problems of the Environment (SCOPE) of the International Council of Scientific Unions (ICSU), by J. Wiley, c1989-  2 v. ; 23 cm
シリーズ名: SCOPE report ; 28
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目次情報:
v. 2. Physical and atmospheric effects / A. Barrie Pittock ... [et al.]
v. 2. Physical and atmospheric effects / A. Barrie Pittock ... [et al.]
36.

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36. Frontiers in chemical reaction engineering (v. 1 ; v. 2)
editors, L.K. Doraiswamy and R.A. Mashelkar
出版情報: New York : Wiley, c1984  2 v. ; 29 cm
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37.

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37. Phase-transfer reactions : Fluka compendium (v. 1 ; v. 2 ; v. 3)
by Walter E. Keller
出版情報: Stuttgart ; New York : Thieme, 1986-  v. ; 23 cm
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38.

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38. 2nd International Conference on Bioreactor Fluid Dynamics
editor, R. King
出版情報: London ; New York : Elsevier Applied Science Publishers, c1988  ix, 441 p. ; 23 cm
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39.

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39. Euro-ceramics (: set - v.3)
edited by G. de With, R.A. Terpstra, and R. Metselaar
出版情報: London ; New York : Elsevier Applied Science, 1989  3 v. ; 25 cm.
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目次情報:
v. 1. Processing of ceramics
v. 2. Properties of ceramics
v. 3. Engineering ceramics
v. 1. Processing of ceramics
v. 2. Properties of ceramics
v. 3. Engineering ceramics
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40. Spectral analysis and time series (v. 1 ; v. 2)
M.B. Priestley
出版情報: London : New York : Academic Press, c1981  2 v. (xvii, [45], 890 p.) ; 24 cm
シリーズ名: Probability and mathematical statistics : a series of monographs and textbooks
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目次情報:
v. 1. Univariate series
v. 2. Multivariate series, prediction and control
v. 1. Univariate series
v. 2. Multivariate series, prediction and control
41.

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41. Game theory : mathematical models of conflict
A.J. Jones
出版情報: Chichester [Eng.] : E. Horwood , New York : Halsted Press, 1980  309 p. ; 23 cm
シリーズ名: Ellis Horwood series in mathematics and its applications
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目次情報: 続きを見る
Author's Preface
Glossary of Symbols
The name of the game / 1:
Introduction / 1.1:
Extensive Forms And Pure Strategies / 1.2:
Normal Forms And Saddle Points / 1.3:
Mixed Strategies And The Minimax Theorem / 1.4:
Dominance Of Strategies / 1.5:
2 x n And Symmetric Games / 1.6:
Other Kinds Of Two Person Zero Sum Games / 1.7:
Problems For Chapter 1
Chapter References
Non-cooperative Games / 2:
Extensive Forms And Equilibrium N-Tuples / 2.1:
Normal Forms And Mixed Strategy Equlibria / 2.2:
Discussion Of Equilibria / 2.3:
Preliminary Results For 2-Person Zero Sum Games / 2.4:
The Minimax Theorem For Matrix Games / 2.5:
Properties Of Matrix Games / 2.6:
Simplified 2-Person Poker / 2.7:
Continuous Games On The Unit Square / 2.8:
Problems For Chapter 2
Linear Programming and Matrix Games / 3:
Preliminary Results / 3.1:
Duality Theory / 3.3:
The Geometric Situation / 3.4:
Extreme Points Of The Feasible Region / 3.5:
The Shapley-Snow Procedure For Games / 3.6:
Mixed Constraints, Slack Variables, And The Tableau / 3.7:
The Pivot Operation / 3.8:
Artificial Variables / 3.9:
Problems For Chapter 3
Cooperative games / 4:
Utilities And Scales Of Measurement / 4.1:
Characteristic Functions / 4.2:
Imputations / 4.3:
Strategic Equivalence / 4.4:
Dominance Of Imputations / 4.5:
von Neumann-Morgenstern Solutions / 4.6:
The Edgeworth Trading Model / 4.7:
The Shapley Value / 4.8:
Problems For Chapter 4
Bargaining Models / 5:
Graphical Representation Of Games And Status Quo Points / 5.1:
The Nash Bargaining Model / 5.3:
The Threat Game / 5.4:
Shapley And Nash Solutions For Bimatrix Games / 5.5:
Other Bargaining Models / 5.6:
Problems For Chapter 5
Fixed Point Theorems / Appendix I:
References
Some Poker Terminology / Appendix II:
Solutions to problems
Index / Chapter 1:
Author's Preface
Glossary of Symbols
The name of the game / 1:
42.

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東工大
目次DB
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東工大
目次DB
42. エネルギー施設
土木学会
出版情報: 東京 : 技報堂出版, 1989.7  234p ; 22cm
シリーズ名: 動的解析と耐震設計 / 土木学会編 ; 第3巻
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目次情報: 続きを見る
【Ⅴ編 ダムの耐震設計と動的解析】
1. 耐震設計基準と耐震設計法 3
   1.1 日本における考え方 3
   1.2 米国における考え方 4
   1.3 動的解析への移行 5
2. ダムの動的挙動の研究 7
   2.1 動的解析手法の変遷 7
   2.2 地震観測による研究 8
   2.2.1 ダムの地震応答特性 8
   2.2.2 日本のダムの地震時挙動 9
   2.2.3 外国のダムの地震時挙動 14
   2.3 振動実験による研究 17
   2.3.1 フィルダム 17
   2.3.2 重力ダム 18
   2.3.3 アーチダム 21
   2.4 動水圧・動的相互作用理論 23
   2.4.1 動水圧 23
   2.4.2 ダム-貯水-地盤系の動的解析 25
3. フィルダムの動的解析と実例 29
   3.1 概要 29
   3.2 静的初期状態解析 30
   3.2.1 築堤解析 30
   3.2.2 湛水解析 34
   3.3 動的解析 37
   3.3.1 入力地震動の選定 37
   3.3.2 動的物性 38
   3.3.3 動的解析の適用 47
   3.4 安全性の評価 52
   3.4.1 すべりに対する安全率 52
   3.4.2 Newmarkによる剛体すべり量 53
   3.4.3 Makdisi-Seedによる剛体すべり量 55
   3.4.4 渡辺・馬場によるすべり量 56
   3.4.5 液状化に対する検討 57
   3.5 動的解析の実例 61
   3.5.1 牧尾ダムの動的解析 61
   3.5.2 岩屋ダムの動的解析 65
4. コンクリートダムの動的解析と実例 72
   4.1 概要 72
   4.1.1 重力ダム 72
   4.1.2 アーチダム 73
   4.2 動的解析に用いる物性 74
   4.2.1 動的変形特性 74
   4.2.2 動的強度 77
   4.3 重力ダムの動的解析例 80
   4.3.1 コンクリートの非線形物性 80
   4.3.2 地震によるクラックの解析 84
   4.4 アーチダムの動的解析例 86
   4.4.1 Pacoimaダムの動的解析 86
   4.4.2 奈川渡ダムの動的解析 90
5. 今後の課題 98
文献 103
【Ⅵ編 産業施設の耐震設計と動的解析】
1. 原子力発電所の地盤および土木構造物 109
   1.1 耐震設計の基本的考え方 109
   1.2 地質および地盤調査 113
   1.3 安全性評価に必要な物性 116
   1.4 耐震安全性の評価手法 120
   1.4.1 原子炉建屋基礎地盤と周辺斜面 120
   1.4.2 屋外重要土木構造物 123
   1.5 耐震性評価の事例 125
   1.5.1 原子炉建屋基礎地盤 125
   1.5.2 周辺斜面 130
   1.5.3 屋外重要土木構造物 136
2. 送・変電施設 143
   2.1 変電施設 143
   2.1.1 耐震設計法 143
   2.1.2 動的解析の事例 147
   2.2 送電鉄塔 155
   2.2.1 耐震設計法 155
   2.2.2 動的解析の事例 159
   2.2.3 今後の検討課題 170
3. 地上貯槽および配管 171
   3.1 地上貯槽 171
   3.1.1 はじめに 171
   3.1.2 耐震設計法 174
   3.1.3 動的解析の方法と事例 185
   3.1.4 今後の検討課題 190
   3.2 配管 192
   3.2.1 はじめに 192
   3.2.2 耐震設計法 192
   3.2.3 動的解析の方法と事例 197
   3.2.4 今後の検討課題 203
4. 免震・防振構造 205
   4.1 免震構造 205
   4.1.1 免震設計法 205
   4.1.2 動的解析の方法と事例 209
   4.1.3 今後の課題 216
   4.2 防振設計と弾性支持法 217
   4.2.1 防振設計の考え方と振動絶縁理論 217
   4.2.2 弾性支持法 221
   4.2.3 弾性支持法の適用例 225
文献 227
【Ⅴ編 ダムの耐震設計と動的解析】
1. 耐震設計基準と耐震設計法 3
   1.1 日本における考え方 3
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43. タンパク質 (2: 構造と機能編 ; 3: 生物編)
勝部幸輝 [ほか] 編
出版情報: 東京 : 東京化学同人, 1987.10-1988.4  冊 ; 22cm
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44. DNA cloning : a practical approach (1 - 3 : Hardbound)
edited by D.M. Glover
出版情報: Oxford ; Washington, DC : IRL Press, c1985-  v. ; 23 cm
シリーズ名: The practical approach series
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目次情報: 続きを見る
Core Techniques / Volume 1:
Techniques for transformation of E.coli / 1:
Lambda replacement vectors in the construction of genomic DNA libraries / 2:
Procedures for cDNA cloning / 3:
Making probes / 4:
Using cloned DNAs to analyse gene organization and expression / 5:
Choices of single-stranded vectors and their application for in vitro mutagenesis / 6:
PCR and its applications / 7:
DNA sequencing / 8:
Expression Systems / Volume 2:
Screening expression libraries with antibody and protein probes
Expression of foreign proteins in E.coli using plasmid vectors and purification of specific polyclonal antibodies
Purification of over-produced proteins from E.coli cells
Production of monoclonal antibodies against proteins expressed in E.coli
Expression of cloned genes in yeast
Intraction trap cloning with yeast
The baculovirus expression system
Complex Genomes / VOLUME 3:
Cosmid clones and their application to genome studies
Chromosome-specific gridded cosmid libraries: construction, handling, and use in parallel and integrated mapping
Library construction in P1 phage vectors
Cloning into yeast artificial chromosomes
Amplification of DNA microdissected from mitotic and polytene chromosomes
Databases, computer networks, and molecular biology
Long-range restriction mapping
Genetic mapping with microsatellites
Mammalian Systems / Volume 4:
High efficiency gene transfer into mammalian cells
Construction and characterization of Vaccinia virus recombinants
Use of vectors based on gene amplification for the expression of cloned genes in mammalian cells
Retroviral vectors
Genetic manipulation of embryonic stem cells
Production of transgenic rodents by microinjection of cloned DNA into fertilized one-cell eggs
Genomic and expression analysis of transgenic animals
Expression using a defective Herpes simplex virus (HSV-1) vector system
Adenovirus vectors / 9:
Core Techniques / Volume 1:
Techniques for transformation of E.coli / 1:
Lambda replacement vectors in the construction of genomic DNA libraries / 2:
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45. Contemporary problems in carbonium ion chemistry (1-2 : us - 3 : gw)
editor, Ch. Rees
出版情報: Berlin ; New York : Springer-Verlag, 1984  2 v. ; 25 cm
シリーズ名: Topics in current chemistry = Fortschritte der chemischen Forschung ; 116/117, 122
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目次情報:
Nonclassical carbocations / V.A. Barkhash
Rearrangements of cabocations by 1,2-shifts / V.G. Shubin
Arenium ions / by V.A. Koptyug
Nonclassical carbocations / V.A. Barkhash
Rearrangements of cabocations by 1,2-shifts / V.G. Shubin
Arenium ions / by V.A. Koptyug
46.

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46. Biomimetic and bioorganic chemistry (1 (Ger.) - 3 (U.S.))
with contributions by K. Cammann ... [et al.]
出版情報: Berlin ; Tokyo : Springer-Verlag, c1985-1986  3 v. ; 25 cm
シリーズ名: Topics in current chemistry = Fortschritte der chemischen Forschung ; 128, 132, 136
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47. Artificial heart 2 : proceedings of the 2nd International Symposium on Artificial Heart and Assist Device, August 13-14, 1987, Tokyo, Japan
editor, Tetsuzo Akutsu ; associate editors, Hitoshi Koyanagi ... [et al.]
出版情報: Tokyo : Springer-Verlag, c1988  xv, 368 p. ; 28 cm
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48. Mixing and excess thermodynamic properties : a literature source book (suppl. 1 ; suppl. 2)
Jaime Wisniak and Abraham Tamir
出版情報: Amsterdam ; Tokyo : Elsevier, <1982- >  v. ; 25 cm
シリーズ名: Physical sciences data ; 11, 26
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49. Antibodies : a practical approach (v. 1 - v. 2 : soft)
edited by D. Catty
出版情報: Oxford ; Tokyo : IRL Press, 1988-1989  2 v. ; 23 cm
シリーズ名: The practical approach series
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目次情報: 続きを見る
Abbreviations Introduction / D. Catty
Properties of Antibodies and Antigens / 1:
Production and Quality Control of Polyclonal Antibodies / C. Raykundalia2:
Murine Monoclonal Antibodies / G. Brown ; N. R. Ling3:
Human Monoclonal Antibodies / J. Gordon4:
Immunoaffinity Chromatography / J. Arvieux ; A. F. Williams5:
Gel Immunodiffusion, Immunoelectrophoresis and Immunostaining Methods / 6:
Haemagglutination and Haemolysis Assays / 7:
Appendix
Index
Abbreviations Introduction / D. Catty
Properties of Antibodies and Antigens / 1:
Production and Quality Control of Polyclonal Antibodies / C. Raykundalia2:
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50. Nonlinear waves : dynamics and evolution (v. 1 : gw - v. 2 : us)
A.V. Gaponov-Grekhov, M.I. Rabinovich, J. Engelbrecht, (eds.)
出版情報: Berlin ; Tokyo : Springer-Verlag, c1989  2 v. ; 25 cm
シリーズ名: Research reports in physics
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