close
1.

図書
図書
1. 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
所蔵情報: loading…
目次情報: 続きを見る
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:
2.

図書
図書
2. 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.:
3.

図書
図書
3. 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
所蔵情報: loading…
4.

図書
図書
4. 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
所蔵情報: loading…
5.

図書
図書
5. 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
所蔵情報: loading…
6.

図書
図書
6. 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
所蔵情報: loading…
7.

図書
図書
7. 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
所蔵情報: loading…
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:
8.

図書
図書
8. 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
所蔵情報: loading…
9.

図書
図書
9. 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
所蔵情報: loading…
10.

図書
図書
10. 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
所蔵情報: loading…
文献の複写および貸借の依頼を行う
 文献複写・貸借依頼