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1.

電子ブック
EB
1. A Tiny Handbook of R
Mike Allerhand
出版情報: SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 2011
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目次情報: 続きを見る
Introduction to R / 1:
Why Command Lines and Scripts? / 1.1:
The R Console / 1.1.1:
Variables / 1.1.2:
Functions / 1.1.3:
Finding Functions and Getting Help / 1.2:
Libraries / 1.2.1:
Packages / 1.2.2:
Finding Functions / 1.2.3:
Getting Help / 1.2.4:
R Projects / 1.3:
Saving Your Session / 1.3.1:
Scripts / 1.3.2:
Data Structures / 2:
Vectors, Matrices, and Arrays / 2.1:
Data Frames and Lists / 2.1.2:
Creating Data / 2.1.3:
Sampling Data / 2.1.4:
Reading Data / 2.1.5:
Operations on Vectors and Matrices / 2.2:
Arithmetic Functions / 2.2.1:
Descriptive Functions / 2.2.2:
Operators and Expressions / 2.2.3:
Factors / 2.3:
Making Factors / 2.3.1:
Operations on Factors / 2.3.2:
Re-ordering and Re-labelling / 2.3.3:
Indexing / 2.4:
Indexing by Name / 2.4.1:
Indexing by Number / 2.4.2:
Inserting and Deleting Rows or Columns / 2.4.3:
Indexing with Factors / 2.4.4:
Conditional Indexing / 2.4.5:
Sorting / 2.4.6:
Reshaping / 2.5:
Stacking and Unstacking? / 2.5.1:
Reshaping: Wide and Long / 2.5.2:
Merging / 2.5.3:
Missing Values / 2.6:
Recoding Missing Values / 2.6.1:
Operations with Missing Values / 2.6.2:
Counting and Sorting Missing Values / 2.6.3:
Handling Missing Values / 2.6.4:
Mapping Functions / 2.7:
Repeated Evaluation / 2.7.1:
Applying Functions / 2.7.2:
Writing Functions / 2.8:
Anonymous Functions / 2.8.1:
Optional Arguments / 2.8.2:
Tables and Graphs / 3:
Tables / 3.1:
Frequency Tables / 3.1.1:
Tables of Cell Means and Other Summaries / 3.1.2:
Saving Tables / 3.1.3:
Graphs / 3.2:
Base Graphics / 3.2.1:
Lattice Graphics / 3.2.2:
Multiple Plot Layout / 3.2.3:
Saving Graphics / 3.2.4:
Hypothesis Tests / 4:
Probability Distributions / 4.1:
How to Run a t test / 4.2:
Linear Models / 5:
Model Formulas / 5.1:
Formula and Data Frame / 5.1.1:
Updating Model Fits / 5.1.2:
General Linear Models / 5.2:
Regression Diagnostics / 5.2.1:
Testing the Regression Coefficients / 5.2.2:
Prediction / 5.2.3:
Stepwise Regression / 5.2.4:
Extracting Information from the Fit Object / 5.2.5:
Residualizing / 5.2.6:
ANOVA / 5.3:
ANOVA Tables / 5.3.1:
Comparisons / 5.3.2:
Learning R / 5.4:
Index
Introduction to R / 1:
Why Command Lines and Scripts? / 1.1:
The R Console / 1.1.1:
2.

電子ブック
EB
2. E-Librarian Service
Serge Linckels, Christoph Meinel
出版情報: Springer eBooks Computer Science , Springer Berlin Heidelberg, 2011
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目次情報: 続きを見る
Introduction to E-Librarian Services / 1:
From Ancient to Digital Libraries / 1.1:
From Searching to Finding / 1.2:
Searching the Web / 1.2.1:
Searching Multimedia Knowledge Bases / 1.2.2:
Exploratory Search / 1.2.3:
E-Librarian Services / 1.3:
Overview / 1.3.1:
Early Question-Answering Systems / 1.3.2:
Natural Language Interface / 1.3.3:
No Library without a Librarian / 1.3.4:
Characteristics of an E-Librarian Service / 1.3.5:
Overview and Organization of the Book / 1.4:
Key Technologies of E-Librarian Services / Part I:
Semantic Web and Ontologies / 2:
What is the Semantic Web? / 2.1:
The Vision of the Semantic Web / 2.1.1:
Semantic Web vs. Web N.O / 2.1.2:
Three Principles Ruling the Semantic Web / 2.1.3:
Architecture / 2.1.4:
Ontologies / 2.2:
Ontology Structure / 2.2.1:
Upper and Domain Ontologies / 2.2.2:
Linked Data / 2.2.3:
Expressivity of Ontologies / 2.2.4:
XML Extensible Markup Language / 2.3:
XML: Elements, Attributes and Values / 2.3.1:
Namespaces and Qualified Names / 2.3.2:
XML Schema / 2.3.3:
Complete Example / 2.3.4:
Limitations of XML / 2.3.5:
RDF-Resource Description Framework / 2.4:
RDF Triples and Serialization / 2.4.1:
RDF Schema / 2.4.2:
Limitations of RDF / 2.4.3:
Owl 1 and Owl 2 - Web Ontology Language / 2.5:
Instances, Classes and Restrictions in Owl / 2.5.1:
From Owl 1 to Owl 2 / 2.5.2:
Sparql, the Query Language / 2.5.4:
Description Logics and Reasoning / 3:
DL- Description Logics / 3.1:
Concept Descriptions / 3.1.1:
DL Languages / 3.1.2:
Equivalences between OWL and DL / 3.1.3:
DL Knowledge Base / 3.2:
Terminologies (TBox) / 3.2.1:
World Descriptions (ABox) / 3.2.2:
Interpretations / 3.3:
Interpreting Individuals, Concepts, and Roles / 3.3.1:
Modeling the Real World / 3.3.2:
Inferences / 3.4:
Standard Inferences / 3.4.1:
Non-Standard Inferences / 3.4.2:
Natural Language Processing / 4:
Overview and Challenges / 4.1:
Syntax, Semantics and Pragmatics / 4.1.1:
Difficulties of NLP / 4.1.2:
Zipf's law / 4.1.3:
Dealing with Single Words / 4.2:
Tokenization and Tagging / 4.2.1:
Morphology / 4.2.2:
Building Words over an Alphabet / 4.2.3:
Operations over Words / 4.2.4:
Semantic Knowledge Sources / 4.3:
Semantic relations / 4.3.1:
Semantic resources / 4.3.2:
Dealing with Sentences / 4.4:
Phrase Types / 4.4.1:
Phrase Structure / 4.4.2:
Grammar / 4.4.3:
Formal languages / 4.4.4:
Phrase structure ambiguities / 4.4.5:
Alternative parsing techniques / 4.4.6:
Multi-Language / 4.5:
Semantic Interpretation / 4.6:
Information Retrieval / 5:
Retrieval Process / 5.1:
Document Indexation and Weighting / 5.2:
Index of terms / 5.2.1:
Weighting / 5.2.2:
Retrieval Models / 5.3:
Boolean Model / 5.3.1:
Vector Model / 5.3.2:
Probabilistic Model / 5.3.3:
Page Rank / 5.3.4:
Semantic Distance / 5.3.5:
Other Models / 5.3.6:
Retrieval Evaluation / 5.4:
Precision, Recall, and Accuracy / 5.4.1:
Design and Utilization of E-Librarian Services / Part II:
Ontological Approach / 6:
Expert Systems / 6.1:
Classical Expert Systems / 6.1.1:
Ontology-Driven Expert Systems / 6.1.2:
Towards an E-Librarian Service / 6.2:
Reasoning Capabilities of an E-Librarian Service / 6.2.1:
Deploying an Ontology / 6.2.2:
Designing the Ontological Background / 6.2.3:
Semantic Annotation of the Knowledge Base / 6.3:
Computer-Assisted Creation of metadata / 6.3.1:
Automatic Generation of metadata / 6.3.2:
Design of the Natural Language Processing Module / 7:
Overview of the Semantic Interpretation / 7.1:
Logical Form / 7.1.1:
Processing of a User Question / 7.1.2:
NLP Pre-Processing / 7.2:
Domain Language / 7.2.1:
Lemmatization / 7.2.2:
Handling Spelling Errors / 7.2.3:
Ontology Mapping / 7.3:
Domain Dictionary / 7.3.1:
Mapping of Words / 7.3.2:
Resolving Ambiguities / 7.3.3:
Generation of a DL-Concept Description / 7.4:
Without Syntactic Analysis / 7.4.1:
With Syntactic Analysis / 7.4.2:
How much NLP is Sufficient? / 7.4.3:
Optimization and Normal Form / 7.4.4:
General Limitations and Constraints / 7.5:
Role Quantifiers / 7.5.1:
Conjunction and Disjunction / 7.5.2:
Negation / 7.5.3:
Open-Ended and Closed-Ended Questions / 7.5.4:
Formulations / 7.5.5:
Others / 7.5.6:
Multiple-Language Feature / 7.6:
Designing the Multimedia Information Retrieval Module / 8:
Overview of the MIR Module / 8.1:
Knowledge Base and metadata / 8.1.1:
Retrieval Principle / 8.1.2:
The Concept Covering Problem / 8.1.3:
Identifying Covers / 8.2:
Computing the Best Covers / 8.3:
Miss and Rest / 8.3.1:
Size of a Concept Description / 8.3.2:
Best Covers / 8.3.3:
Ranking / 8.4:
Algorithm for the Retrieval Problem / 8.5:
User Feedback / 8.6:
Direct User Feedback / 8.6.1:
Collaborative Tagging and Social Networks / 8.6.2:
Diversification of User Feedback / 8.6.3:
Implementation / 9:
Knowledge Layer / 9.1:
Inference Layer / 9.1.2:
Communication Layer / 9.1.3:
Presentation Layer / 9.1.4:
Development Details / 9.2:
Processing Owl and DL in Java / 9.2.1:
Client Front-End with Ajax Autocompleter / 9.2.2:
The Soap Web Service Interface / 9.2.3:
Applications / Part III:
Best practices / 10:
Computer History Expert System (CHESt) / 10.1:
Description / 10.1.1:
Experiment / 10.1.2:
Mathematics Expert System (MatES) / 10.2:
Benchmark Test / 10.2.1:
The Lecture Butler's E-Librarian Service / 10.2.3:
Benchmark Tests / 10.3.1:
Appendix / Part IV:
XML Schema Primitive Datatypes / A:
Reasoning Algorithms / B:
Structural Subsumption / B.1:
Example 1 / B.2.1:
Example 2 / B.2.2:
Brown Tag Set / C:
Part-of-Speech Taggers and Parsers / D:
POS Taggers / D.1:
Parsers / D.2:
Probabilistic IR Model / E:
Probability Theory / E.1:
References / E.2:
Index
Introduction to E-Librarian Services / 1:
From Ancient to Digital Libraries / 1.1:
From Searching to Finding / 1.2:
3.

電子ブック
EB
3. E-Librarian Service
Serge Linckels, Christoph Meinel
出版情報: SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 2011
所蔵情報: loading…
目次情報: 続きを見る
Introduction to E-Librarian Services / 1:
From Ancient to Digital Libraries / 1.1:
From Searching to Finding / 1.2:
Searching the Web / 1.2.1:
Searching Multimedia Knowledge Bases / 1.2.2:
Exploratory Search / 1.2.3:
E-Librarian Services / 1.3:
Overview / 1.3.1:
Early Question-Answering Systems / 1.3.2:
Natural Language Interface / 1.3.3:
No Library without a Librarian / 1.3.4:
Characteristics of an E-Librarian Service / 1.3.5:
Overview and Organization of the Book / 1.4:
Key Technologies of E-Librarian Services / Part I:
Semantic Web and Ontologies / 2:
What is the Semantic Web? / 2.1:
The Vision of the Semantic Web / 2.1.1:
Semantic Web vs. Web N.O / 2.1.2:
Three Principles Ruling the Semantic Web / 2.1.3:
Architecture / 2.1.4:
Ontologies / 2.2:
Ontology Structure / 2.2.1:
Upper and Domain Ontologies / 2.2.2:
Linked Data / 2.2.3:
Expressivity of Ontologies / 2.2.4:
XML Extensible Markup Language / 2.3:
XML: Elements, Attributes and Values / 2.3.1:
Namespaces and Qualified Names / 2.3.2:
XML Schema / 2.3.3:
Complete Example / 2.3.4:
Limitations of XML / 2.3.5:
RDF-Resource Description Framework / 2.4:
RDF Triples and Serialization / 2.4.1:
RDF Schema / 2.4.2:
Limitations of RDF / 2.4.3:
Owl 1 and Owl 2 - Web Ontology Language / 2.5:
Instances, Classes and Restrictions in Owl / 2.5.1:
From Owl 1 to Owl 2 / 2.5.2:
Sparql, the Query Language / 2.5.4:
Description Logics and Reasoning / 3:
DL- Description Logics / 3.1:
Concept Descriptions / 3.1.1:
DL Languages / 3.1.2:
Equivalences between OWL and DL / 3.1.3:
DL Knowledge Base / 3.2:
Terminologies (TBox) / 3.2.1:
World Descriptions (ABox) / 3.2.2:
Interpretations / 3.3:
Interpreting Individuals, Concepts, and Roles / 3.3.1:
Modeling the Real World / 3.3.2:
Inferences / 3.4:
Standard Inferences / 3.4.1:
Non-Standard Inferences / 3.4.2:
Natural Language Processing / 4:
Overview and Challenges / 4.1:
Syntax, Semantics and Pragmatics / 4.1.1:
Difficulties of NLP / 4.1.2:
Zipf's law / 4.1.3:
Dealing with Single Words / 4.2:
Tokenization and Tagging / 4.2.1:
Morphology / 4.2.2:
Building Words over an Alphabet / 4.2.3:
Operations over Words / 4.2.4:
Semantic Knowledge Sources / 4.3:
Semantic relations / 4.3.1:
Semantic resources / 4.3.2:
Dealing with Sentences / 4.4:
Phrase Types / 4.4.1:
Phrase Structure / 4.4.2:
Grammar / 4.4.3:
Formal languages / 4.4.4:
Phrase structure ambiguities / 4.4.5:
Alternative parsing techniques / 4.4.6:
Multi-Language / 4.5:
Semantic Interpretation / 4.6:
Information Retrieval / 5:
Retrieval Process / 5.1:
Document Indexation and Weighting / 5.2:
Index of terms / 5.2.1:
Weighting / 5.2.2:
Retrieval Models / 5.3:
Boolean Model / 5.3.1:
Vector Model / 5.3.2:
Probabilistic Model / 5.3.3:
Page Rank / 5.3.4:
Semantic Distance / 5.3.5:
Other Models / 5.3.6:
Retrieval Evaluation / 5.4:
Precision, Recall, and Accuracy / 5.4.1:
Design and Utilization of E-Librarian Services / Part II:
Ontological Approach / 6:
Expert Systems / 6.1:
Classical Expert Systems / 6.1.1:
Ontology-Driven Expert Systems / 6.1.2:
Towards an E-Librarian Service / 6.2:
Reasoning Capabilities of an E-Librarian Service / 6.2.1:
Deploying an Ontology / 6.2.2:
Designing the Ontological Background / 6.2.3:
Semantic Annotation of the Knowledge Base / 6.3:
Computer-Assisted Creation of metadata / 6.3.1:
Automatic Generation of metadata / 6.3.2:
Design of the Natural Language Processing Module / 7:
Overview of the Semantic Interpretation / 7.1:
Logical Form / 7.1.1:
Processing of a User Question / 7.1.2:
NLP Pre-Processing / 7.2:
Domain Language / 7.2.1:
Lemmatization / 7.2.2:
Handling Spelling Errors / 7.2.3:
Ontology Mapping / 7.3:
Domain Dictionary / 7.3.1:
Mapping of Words / 7.3.2:
Resolving Ambiguities / 7.3.3:
Generation of a DL-Concept Description / 7.4:
Without Syntactic Analysis / 7.4.1:
With Syntactic Analysis / 7.4.2:
How much NLP is Sufficient? / 7.4.3:
Optimization and Normal Form / 7.4.4:
General Limitations and Constraints / 7.5:
Role Quantifiers / 7.5.1:
Conjunction and Disjunction / 7.5.2:
Negation / 7.5.3:
Open-Ended and Closed-Ended Questions / 7.5.4:
Formulations / 7.5.5:
Others / 7.5.6:
Multiple-Language Feature / 7.6:
Designing the Multimedia Information Retrieval Module / 8:
Overview of the MIR Module / 8.1:
Knowledge Base and metadata / 8.1.1:
Retrieval Principle / 8.1.2:
The Concept Covering Problem / 8.1.3:
Identifying Covers / 8.2:
Computing the Best Covers / 8.3:
Miss and Rest / 8.3.1:
Size of a Concept Description / 8.3.2:
Best Covers / 8.3.3:
Ranking / 8.4:
Algorithm for the Retrieval Problem / 8.5:
User Feedback / 8.6:
Direct User Feedback / 8.6.1:
Collaborative Tagging and Social Networks / 8.6.2:
Diversification of User Feedback / 8.6.3:
Implementation / 9:
Knowledge Layer / 9.1:
Inference Layer / 9.1.2:
Communication Layer / 9.1.3:
Presentation Layer / 9.1.4:
Development Details / 9.2:
Processing Owl and DL in Java / 9.2.1:
Client Front-End with Ajax Autocompleter / 9.2.2:
The Soap Web Service Interface / 9.2.3:
Applications / Part III:
Best practices / 10:
Computer History Expert System (CHESt) / 10.1:
Description / 10.1.1:
Experiment / 10.1.2:
Mathematics Expert System (MatES) / 10.2:
Benchmark Test / 10.2.1:
The Lecture Butler's E-Librarian Service / 10.2.3:
Benchmark Tests / 10.3.1:
Appendix / Part IV:
XML Schema Primitive Datatypes / A:
Reasoning Algorithms / B:
Structural Subsumption / B.1:
Example 1 / B.2.1:
Example 2 / B.2.2:
Brown Tag Set / C:
Part-of-Speech Taggers and Parsers / D:
POS Taggers / D.1:
Parsers / D.2:
Probabilistic IR Model / E:
Probability Theory / E.1:
References / E.2:
Index
Introduction to E-Librarian Services / 1:
From Ancient to Digital Libraries / 1.1:
From Searching to Finding / 1.2:
4.

電子ブック
EB
4. Combinatorial Computational Biology of RNA
Christian M. Reidys
出版情報: SpringerLink Books - AutoHoldings , Springer New York, 2011
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Introduction / 1:
RNA secondary structures / 1.1:
RNA pseudoknot structures / 1.2:
Sequence to structure maps / 1.3:
Folding / 1.4:
RNA tertiary interactions: a combinatorial perspective / 1.5:
Basic concepts / 2:
k-Noncrossing partial matchings / 2.1:
Young tableaux, RSK algorithm, and Weyl chambers / 2.1.1:
The Weyl group / 2.1.2:
From tableaux to paths and back / 2.1.3:
The generating function via the reflection principle / 2.1.4:
D-finiteness / 2.1.5:
Symbolic enumeration / 2.2:
Singularity analysis / 2.3:
Transfer theorems / 2.3.1:
The supercritical paradigm / 2.3.2:
Some ODEs / 2.4:
n-Cubes / 2.4.2:
Some basic facts / 2.5.1:
Random subgraphs of the n-cube / 2.5.2:
Vertex boundaries / 2.5.3:
Branching processes and Janson's inequality / 2.5.4:
Exercises / 2.6:
Tangled diagrams / 3:
Tangled diagrams and vacillating tableaux / 3.1:
The bijection / 3.2:
Enumeration / 3.3:
Combinatorial analysis / 4:
Cores and Shapes / 4.1:
Cores / 4.1.1:
Shapes / 4.1.2:
Generating functions / 4.2:
The GF of cores / 4.2.1:
The GF of k-noncrossing, ?-canonical structures / 4.2.2:
Asymptotics / 4.3:
k-Noncrossing structures / 4.3.1:
Canonical structures / 4.3.2:
Modular k-noncrossing structures / 4.4:
Colored shapes / 4.4.1:
The main theorem / 4.4.2:
Probabilistic Analysis / 4.5:
Uniform generation / 5.1:
Partial matchings / 5.1.1:
Central limit theorems / 5.1.2:
The central limit theorem / 5.2.1:
Arcs and stacks / 5.2.2:
Hairpin loops, interior loops, and bulges / 5.2.3:
Discrete limit laws / 5.3:
Irreducible substructures / 5.3.1:
The limit distribution of nontrivial returns / 5.3.2:
DP folding based on loop energies / 5.4:
Secondary structures / 6.1.1:
Pseudoknot structures / 6.1.2:
Combinatorial folding / 6.2:
Motifs / 6.2.1:
Skeleta / 6.2.3:
Saturation / 6.2.4:
Neutral networks / 7:
Neutral networks as random graphs / 7.1:
The giant / 7.2:
Cells / 7.2.1:
The number of vertices contained in cells / 7.2.2:
The largest component / 7.2.3:
Neutral paths / 7.3:
Connectivity / 7.4:
References / 7.5:
Index
Introduction / 1:
RNA secondary structures / 1.1:
RNA pseudoknot structures / 1.2:
5.

電子ブック
EB
5. Theory of Hypergeometric Functions
Kazuhiko Aomoto, Michitake Kita, Toshitake Kohno, Kenji Iohara
出版情報: SpringerLink Books - AutoHoldings , Springer Japan, 2011
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目次情報: 続きを見る
Introduction: the Euler-Gauss Hypergeometric Function / 1:
?-Function / 1.1:
Infinite-Product Representation Due to Euler / 1.1.1:
?-Function as Meromorphic Function / 1.1.2:
Connection Formula / 1.1.3:
Power Series and Higher Logarithmic Expansion / 1.2:
Hypergeometric Series / 1.2.1:
Gauss' Differential Equation / 1.2.2:
First-Order Fuchsian Equation / 1.2.3:
Logarithmic Connection / 1.2.4:
Higher Logarithmic Expansion / 1.2.5:
D-Module / 1.2.6:
Integral Representation Due to Euler and Riemann / 1.3:
Kummer's Method / 1.3.1:
Gauss' Contiguous Relations and Continued Fraction Expansion / 1.4:
Gauss' Contiguous Relation / 1.4.1:
Continued Fraction Expansion / 1.4.2:
Convergence / 1.4.3:
The Mellin-Barnes Integral / 1.5:
Summation over a Lattice / 1.5.1:
Barnes' Integral Representation / 1.5.2:
Mellin's Differential Equation / 1.5.3:
Plan from Chapter 2 / 1.6:
Representation of Complex Integrals and Twisted de Rham Cohomologies / 2:
Formulation of the Problem and Intuitive Explanation of the Twisted de Rham Theory / 2.1:
Concept of Twist / 2.1.1:
Intuitive Explanation / 2.1.2:
One-Dimensional Case / 2.1.3:
Two-Dimensional Case / 2.1.4:
Higher-Dimensional Generalization / 2.1.5:
Twisted Homology Group / 2.1.6:
Locally Finite Twisted Homology Group / 2.1.7:
Review of the de Rham Theory and the Twisted de Rham Theory / 2.2:
Preliminary from Homological Algebra / 2.2.1:
Current / 2.2.2:
Current with Compact Support / 2.2.3:
Sheaf Cohomology / 2.2.4:
The Case of Compact Support / 2.2.5:
De Rham's Theorem / 2.2.6:
Duality / 2.2.7:
Integration over a Simplex / 2.2.8:
Twisted Chain / 2.2.9:
Twisted Version of § 2.2.4 / 2.2.10:
Poincaré Duality / 2.2.11:
Reformulation / 2.2.12:
Comparison of Cohomologies / 2.2.13:
Computation of the Euler Characteristic / 2.2.14:
Construction of Twisted Cycles (1): One-Dimensional Case / 2.3:
Twisted Cycle Around One Point / 2.3.1:
Construction of Twisted Cycles / 2.3.2:
Intersection Number (i) / 2.3.3:
Comparison Theorem / 2.4:
Algebraic de Rham Complex / 2.4.1:
Cech Cohomology / 2.4.2:
Hypercohomology / 2.4.3:
Spectral Sequence / 2.4.4:
Algebraic de Rham Cohomology / 2.4.5:
Analytic de Rham Cohomology / 2.4.6:
de Rham-Saito Lemma and Representation of Logarithmic Differential Forms / 2.4.7:
Logarithmic Differential Forms / 2.5.1:
de Rham-Saito Lemma / 2.5.2:
Representation of Logarithmic Differential Forms (i) / 2.5.3:
Vanishing of Twisted Cohomology for Homogeneous Case / 2.6:
Basic Operators / 2.6.1:
Homotopy Formula / 2.6.2:
Eigenspace Decomposition / 2.6.3:
Vanishing Theorem (i) / 2.6.4:
Filtration of Logarithmic Complex / 2.7:
Filtration / 2.7.1:
Comparison with Homogeneous Case / 2.7.2:
Isomorphism / 2.7.3:
Vanishing Theorem of the Twisted Rational de Rham Cohomology / 2.8:
Vanishing of Logarithmic de Rham Cohomology / 2.8.1:
Vanishing of Algebraic de Rham Cohomology / 2.8.2:
Example / 2.8.3:
Arrangement of Hyperplanes in General Position / 2.9:
Vanishing Theorem (ii) / 2.9.1:
Representation of Logarithmic Differential Forms (ii) / 2.9.2:
Reduction of Poles / 2.9.3:
Basis of Cohomology / 2.9.4:
Arrangement of Hyperplanes and Hypergeometric Functions over Grassmannians / 3:
Classical Hypergeometric Series and Their Generalizations, in Particular, Hypergeometric Series of Type (n + 1, m + 1) / 3.1:
Definition / 3.1.1:
Simple Examples / 3.1.2:
Hypergeometric Series of Type (n + 1, m + 1) / 3.1.3:
Appell-Lauricella Hypergeometric Functions (i) / 3.1.4:
Appell-Lauricella Hypergeometric Functions (ii) / 3.1.5:
Restriction to a Sublattice / 3.1.6:
Examples / 3.1.7:
Appell-Lauricella Hypergeometric Functions (iii) / 3.1.8:
Horn's Hypergeometric Functions / 3.1.9:
Construction of Twisted Cycles (2): For an Arrangement of Hyperplanes in General Positiion / 3.2:
Bounded Chambers / 3.2.1:
Basis of Locally Finite Homology / 3.2.3:
Regularization of Integrals / 3.2.4:
Kummer's Method for Integral Representations and Its Modernization via the Twisted de Rham Theory: Integral Representations of Hypergeometric Series of Type (n + 1, m +1) / 3.3:
Higher-Dimensional Case / 3.3.1:
Elementary Integral Representations / 3.3.4:
Hypergeometric Function of Type (3,6) / 3.3.5:
Hypergeometric Functions of Type (n + 1, m + 1) / 3.3.6:
Horn's Cases / 3.3.7:
System of Hypergeometric Differential Equations E(n + 1, m + 1; ?) / 3.4:
Hypergeometric Integral of Type (n + 1, m + 1; ?) / 3.4.1:
Differential Equation E(n + 1, m + 1; ?) / 3.4.2:
Equivalent System / 3.4.3:
Integral Solutions of E(n + 1, m + 1; ?) and Wronskian / 3.5:
Hypergeometric Integrals as a Basis / 3.5.1:
Gauss' Equation E'(2, 4; ?') / 3.5.2:
Appell-Lauricella Hypergeometric Differential Equation E'(2, m + 1; ?') / 3.5.3:
Equation E'(3.6; ?') / 3.5.4:
Equation E'(4, 8; ?') / 3.5.5:
General Cases / 3.5.6:
Wronskian / 3.5.7:
Varchenko's Formula / 3.5.8:
Intersection Number (ii) / 3.5.9:
Twisted Riemann's Period Relations and Quadratic Relations of Hypergeometric Functions / 3.5.10:
Determination of the Rank of E(n + 1, m + 1; ?) / 3.6:
Equation E'(n + 1, m + 1; ?') / 3.6.1:
Equation E'(2,4; ?') / 3.6.2:
Equation E'(2, m + 1; ?') / 3.6.3:
Equation E'(3, 6; ?') / 3.6.4:
Duality of E(n + 1, m + 1; ?) / 3.6.5:
Duality of Equations / 3.7.1:
Duality of Grassmannians / 3.7.2:
Duality of Hypergeometric Functions / 3.7.3:
Duality of Integral Representations / 3.7.4:
Logarithmic Gauss-Manin Connection Associated to an Arrangement of Hyperplanes in General Position / 3.7.5:
Review of Notation / 3.8.1:
Variational Formula / 3.8.2:
Partial Fraction Expansion / 3.8.3:
Logarithmic Gauss-Manin Connection / 3.8.4:
Holonomic Difference Equations and Asymptotic Expansion / 4:
Existence Theorem Due to G.D. Birkhoff and Infinite- Product Representation of Matrices / 4.1:
Normal Form of Matrix-Valued Function / 4.1.1:
Asymptotic Form of Solutions / 4.1.2:
Existence Theorem (i) / 4.1.3:
Infinite-Product Representation of Matrices / 4.1.4:
Gauss' Decomposition / 4.1.5:
Regularization of the Product / 4.1.6:
Convergence of the First Column / 4.1.7:
Asymptotic Estimate of Infinite Product / 4.1.8:
Convergence of Lower Triangular Matrices / 4.1.9:
Asymptotic Estimate of Lower Triangular Matrices / 4.1.10:
Difference Equation Satisfied by Upper Triangular Matrices / 4.1.11:
Resolution of Difference Equations / 4.1.12:
Completion of the Proof / 4.1.13:
Holonomic Difference Equations in Several Variables and Asymptotic Expansion / 4.2:
Holonomic Difference Equations of First Order / 4.2.1:
Formal Asymptotic Expansion / 4.2.2:
Normal Form of Asymptotic Expansion / 4.2.3:
Existence Theorem (ii) / 4.2.4:
Connection Problem / 4.2.5:
Remark on 1-Cocyles / 4.2.6:
Gauss' Contiguous Relations / 4.2.8:
Saddle Point Method and Asymptotic Expansion / 4.2.9:
Contracting (Expanding) Twisted Cycles and Asymptotic Expansion / 4.3:
Twisted Cohomology / 4.3.1:
Saddle Point Method for Multi-Dimensional Case / 4.3.2:
Complete Kähler Metric / 4.3.3:
Gradient Vector Field / 4.3.4:
Critical Points / 4.3.5:
Vanishing Theorem (iii) / 4.3.6:
Application of the Morse Theory / 4.3.7:
n-Dimensional Lagrangian Cycles / 4.3.8:
n-Dimensional Twisted Cycles / 4.3.9:
Geometric Meaning of Asymptotic Expansion / 4.3.10:
Difference Equations Satisfied by the Hypergeometric Functions of Type (n + l, m +1; ?) / 4.4:
Derivation of Difference Equations / 4.4.1:
Asymptotic Expansion with a Fixed Direction / 4.4.3:
Non-Degeneracy of Period Matrix / 4.4.4:
Connection Problem of System of Difference Equations / 4.5:
Formulation / 4.5.1:
The Case of Appell-Lauricella Hypergeometric Functions / 4.5.2:
Mellin's Generalized Hypergeometric Functions / A:
Toric Multinomial Theorem / A.1:
Differential Equations of Mellin Type / A.4:
b-Functions / A.6:
Action of Algebraic Torus / A.7:
Vector Fields of Torus Action / A.8:
Lattice Defined by the Characters / A.9:
G-G-Z Equation / A.10:
The Selberg Integral and Hypergeometric Function of BC Type / A.11:
Selberg's Integral / B.1:
Generalization to Correlation Functions / B.2:
Monodromy Representation of Hypergeometric Functions of Type (2, m + 1; ?) / C:
Isotopic Deformation and Monodromy / C.1:
KZ Equation (Toshitake Kohno) / D:
Knizhnik-Zamolodchikov Equation / D.1:
Review of Conformal Field Theory / D.2:
Connection Matrices of KZ Equation / D.3:
Iwahori-Hecke Algebra and Quasi-Hopf Algebras / D.4:
Kontsevich Integral and Its Application / D.5:
Integral Representation of Solutions of the KZ Equation / D.6:
References
Index
Introduction: the Euler-Gauss Hypergeometric Function / 1:
?-Function / 1.1:
Infinite-Product Representation Due to Euler / 1.1.1:
6.

電子ブック
EB
6. Semantic Web Services
Dieter Fensel, Federico Michele Facca, Elena Simperl, Ioan Toma
出版情報: Springer eBooks Computer Science , Springer Berlin Heidelberg, 2011
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Scientific and Technological Foundations of Semantic Web Services / Part I:
Introduction / 1:
Web Science / 2:
Motivation / 2.1:
Technical Solution / 2.2:
History of the Web / 2.2.1:
Building the Web / 2.2.2:
Web in Society / 2.2.3:
Operationalizing the Web Science for a World of International Commerce / 2.2.4:
Analyzing the Web / 2.2.5:
Web 2.0 / 2.3:
Conclusions / 2.4:
References
Service Science / 3:
What Is a Service? / 3.1:
Service Analysis, Design, Development and Testing / 3.3:
Service Orchestration, Composition and Delivery / 3.4:
Service Innovation / 3.5:
Service Design Approach / 3.6:
Service Pricing Method and Economics / 3.7:
Service Quality Measurement / 3.8:
Service Technologies / 3.9:
Service Application / 3.10:
Web Services / 3.11:
Service Oriented Computing (SOC) / 4.1:
Service Oriented Architecture (SOA) / 4.1.2:
Defining Web Services / 4.2:
Web Service Technologies / 4.2.2:
Illustration by a Larger Example / 4.3:
Summary / 4.4:
Exercises / 4.5:
Web2.0 and RESTful Services / 5:
REST / 5.1:
Describing RESTful Services / 5.2.2:
Data Exchange for RESTful Services / 5.2.3:
AJAX APIs / 5.2.4:
Examples of RESTful Services / 5.2.5:
Semantic Web / 5.3:
Extensions / 6.1:
Web Service Modeling Ontology Approach / 6.4:
Web Service Modeling Ontology / 7:
Ontologies / 7.1:
Goals / 7.2.2:
Mediators / 7.2.4:
The Web Service Modeling Language / 7.3:
Principles of WSMO / 8.1:
Logics Families and Semantic Web Services / 8.1.2:
WSML Language Variants / 8.2:
WSML Basis / 8.2.2:
Ontologies in WSML / 8.2.3:
Web Services in WSML / 8.2.4:
Goals in WSML / 8.2.5:
Mediators in WSML / 8.2.6:
Technologies for Using WSML / 8.2.7:
Travel Ontology / 8.3:
Services / 8.4.2:
Goal / 8.4.3:
The Web Service Execution Environment / 8.5:
Service Orientation / 9.1:
Execution Environment for Semantic Web Services / 9.1.2:
Governing Principles / 9.1.3:
SESA Vision / 9.2:
SESA Middleware / 9.2.2:
SESA Execution Semantics / 9.2.3:
Modeling of Business Services / 9.3:
Execution of Services / 9.3.2:
Possible Extensions / 9.4:
Goal Subscription / 9.4.1:
Complementary Approaches for Web Service Modeling Ontology / 9.5:
Triple Space Computing for Semantic Web Services / 10:
Tuplespace Computing / 10.1:
Triple Space Computing / 10.2.2:
Triple Space Conceptual Models / 10.2.3:
Triple Space Architecture / 10.2.4:
Triple Space and Semantic Web Services / 10.2.5:
Triple Space and Semantic SOA / 10.2.6:
OWL-S and Other Approaches / 10.3:
OWL-S / 11.2.1:
Service Profile
Service Grounding / 11.2.2:
Service Model / 11.2.3:
An Extension to OWL-S / 11.2.4:
Tool Support / 11.2.5:
OWL-S Summary / 11.2.6:
METEOR-S / 11.3:
Semantic Annotation of Web services / 11.3.1:
Semantics-Based Discovery of Web Services / 11.3.2:
Composition of Web Services / 11.3.3:
METEOR-S Summary / 11.3.4:
IRS-III / 11.4:
Discovery, Selection and Mediation / 11.4.1:
Communication / 11.4.2:
Choreography and Orchestration / 11.4.3:
Lightweight Semantic Web Service Descriptions / 11.5:
SAWSDL / 12.1:
WSMO-Lite Service Semantics / 12.2.2:
WSMO-Lite in SAWSDL / 12.2.3:
WSMO-Lite for RESTful Services / 12.2.4:
Real-World Adoption of Semantic Web Services / 12.3:
What Are SWS Good for? DIP, SUPER, and SOA4All Use Cases / 13:
Data, Information, and Process Integration with Semantic Web Services (DIP) / 13.1:
Use Cases / 13.2.1:
Semantics Utilized for Process Management Within and Between Enterprises (SUPER) / 13.3:
Service Oriented Architectures for All (SOA4All) / 13.3.1:
Seekda: The Business Point of View / 13.4.1:
Crawler / 14.1:
Search Engine / 14.2.2:
Bundle Configurator and Assistant / 14.2.3:
Index / 14.3:
Scientific and Technological Foundations of Semantic Web Services / Part I:
Introduction / 1:
Web Science / 2:
7.

電子ブック
EB
7. Semantic Web Services
Dieter Fensel, Federico Michele Facca, Elena Simperl, Ioan Toma
出版情報: SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 2011
所蔵情報: loading…
目次情報: 続きを見る
Scientific and Technological Foundations of Semantic Web Services / Part I:
Introduction / 1:
Web Science / 2:
Motivation / 2.1:
Technical Solution / 2.2:
History of the Web / 2.2.1:
Building the Web / 2.2.2:
Web in Society / 2.2.3:
Operationalizing the Web Science for a World of International Commerce / 2.2.4:
Analyzing the Web / 2.2.5:
Web 2.0 / 2.3:
Conclusions / 2.4:
References
Service Science / 3:
What Is a Service? / 3.1:
Service Analysis, Design, Development and Testing / 3.3:
Service Orchestration, Composition and Delivery / 3.4:
Service Innovation / 3.5:
Service Design Approach / 3.6:
Service Pricing Method and Economics / 3.7:
Service Quality Measurement / 3.8:
Service Technologies / 3.9:
Service Application / 3.10:
Web Services / 3.11:
Service Oriented Computing (SOC) / 4.1:
Service Oriented Architecture (SOA) / 4.1.2:
Defining Web Services / 4.2:
Web Service Technologies / 4.2.2:
Illustration by a Larger Example / 4.3:
Summary / 4.4:
Exercises / 4.5:
Web2.0 and RESTful Services / 5:
REST / 5.1:
Describing RESTful Services / 5.2.2:
Data Exchange for RESTful Services / 5.2.3:
AJAX APIs / 5.2.4:
Examples of RESTful Services / 5.2.5:
Semantic Web / 5.3:
Extensions / 6.1:
Web Service Modeling Ontology Approach / 6.4:
Web Service Modeling Ontology / 7:
Ontologies / 7.1:
Goals / 7.2.2:
Mediators / 7.2.4:
The Web Service Modeling Language / 7.3:
Principles of WSMO / 8.1:
Logics Families and Semantic Web Services / 8.1.2:
WSML Language Variants / 8.2:
WSML Basis / 8.2.2:
Ontologies in WSML / 8.2.3:
Web Services in WSML / 8.2.4:
Goals in WSML / 8.2.5:
Mediators in WSML / 8.2.6:
Technologies for Using WSML / 8.2.7:
Travel Ontology / 8.3:
Services / 8.4.2:
Goal / 8.4.3:
The Web Service Execution Environment / 8.5:
Service Orientation / 9.1:
Execution Environment for Semantic Web Services / 9.1.2:
Governing Principles / 9.1.3:
SESA Vision / 9.2:
SESA Middleware / 9.2.2:
SESA Execution Semantics / 9.2.3:
Modeling of Business Services / 9.3:
Execution of Services / 9.3.2:
Possible Extensions / 9.4:
Goal Subscription / 9.4.1:
Complementary Approaches for Web Service Modeling Ontology / 9.5:
Triple Space Computing for Semantic Web Services / 10:
Tuplespace Computing / 10.1:
Triple Space Computing / 10.2.2:
Triple Space Conceptual Models / 10.2.3:
Triple Space Architecture / 10.2.4:
Triple Space and Semantic Web Services / 10.2.5:
Triple Space and Semantic SOA / 10.2.6:
OWL-S and Other Approaches / 10.3:
OWL-S / 11.2.1:
Service Profile
Service Grounding / 11.2.2:
Service Model / 11.2.3:
An Extension to OWL-S / 11.2.4:
Tool Support / 11.2.5:
OWL-S Summary / 11.2.6:
METEOR-S / 11.3:
Semantic Annotation of Web services / 11.3.1:
Semantics-Based Discovery of Web Services / 11.3.2:
Composition of Web Services / 11.3.3:
METEOR-S Summary / 11.3.4:
IRS-III / 11.4:
Discovery, Selection and Mediation / 11.4.1:
Communication / 11.4.2:
Choreography and Orchestration / 11.4.3:
Lightweight Semantic Web Service Descriptions / 11.5:
SAWSDL / 12.1:
WSMO-Lite Service Semantics / 12.2.2:
WSMO-Lite in SAWSDL / 12.2.3:
WSMO-Lite for RESTful Services / 12.2.4:
Real-World Adoption of Semantic Web Services / 12.3:
What Are SWS Good for? DIP, SUPER, and SOA4All Use Cases / 13:
Data, Information, and Process Integration with Semantic Web Services (DIP) / 13.1:
Use Cases / 13.2.1:
Semantics Utilized for Process Management Within and Between Enterprises (SUPER) / 13.3:
Service Oriented Architectures for All (SOA4All) / 13.3.1:
Seekda: The Business Point of View / 13.4.1:
Crawler / 14.1:
Search Engine / 14.2.2:
Bundle Configurator and Assistant / 14.2.3:
Index / 14.3:
Scientific and Technological Foundations of Semantic Web Services / Part I:
Introduction / 1:
Web Science / 2:
8.

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EB
8. Dynamical Systems and Chaos
Henk Broer, Floris Takens
出版情報: SpringerLink Books - AutoHoldings , Springer New York, 2011
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Examples and definitions of dynamical phenomena / 1:
The pendulum as a dynamical system / 1.1:
The free pendulum / 1.1.1:
The free undamped pendulum / 1.1.1.1:
The free damped pendulum / 1.1.1.2:
The forced pendulum / 1.1.2:
Summary and outlook / 1.1.3:
General definition of dynamical systems / 1.2:
Differential equations / 1.2.1:
Constructions of dynamical systems / 1.2.2:
Restriction / 1.2.2.1:
Discretisation / 1.2.2.2:
Suspension and poincaré map / 1.2.2.3:
Further examples of dynamical systems / 1.3:
A Hopf bifurcation in the Van der Pol equation / 1.3.1:
The Van der Pol equation / 1.3.1.1:
Hopf bifurcation / 1.3.1.2:
The Hénon map: Saddle points and separatrices / 1.3.2:
The logistic system: Bifurcation diagrams / 1.3.3:
The Newton algorithm / 1.3.4:
R U {∞} as a circle: Stereographic projection / 1.3.4.1:
Applicability of the Newton algorithm / 1.3.4.2:
Nonconvergent Newton algorithm / 3.3.4.1:
Newton algorithm in higher dimensions
Dynamical systems defined by partial differential equations / 1.3.5:
The 1-dimensional wave equation / 1.3.5.1:
Solution of the 1-dimensional wave equation / 1.3.5.2:
The 1-dimensional heat equation / 3.3.5.3:
The Lorenz attractor / 1.3.6:
The Lorenz system; the Lorenz attractor / 1.3.6.1:
Sensitive dependence on initial state / 1.3.6.2:
The Rössler attractor; Poincaré map / 1.3.7:
The Rössler system / 1.3.7.1:
The attractor of the Poincaré map / 1.3.7.2:
The doubling map and chaos / 1.3.8:
The doubling map on the interval / 1.3.8.1:
The doubling map on the circle / 1.3.8.2:
The doubling map in symbolic dynamics / 1.3.8.3:
Analysis of the doubling map in symbolic form / 1.3.8.4:
General shifts / 1.3.9:
Exercises / 1.4:
Qualitative properties and predictability of evolutions / 2:
Stationary and periodic evolutions / 2.1:
Predictability of periodic and stationary motions / 2.1.1:
Asymptotically and eventually periodic evolutions / 2.1.2:
Multi- and quasi-periodic evolutions / 2.2:
The n-dimensional torus / 2.2.1:
Translations on a torus / 2.2.2:
Translation systems on the 1 -dimensional torus / 2.2.2.1:
Translation systems on the 2-dimensional torus with time set R / 2.2.2.2:
Translation systems on the n-dimensional torus with time set R / 2.2.2.3:
Translation systems on the n-dimensional torus with time set Z or Z+ / 2.2.2.4:
General definition of multi- and quasi-periodic evolutions / 2.2.3:
Multi- and quasi-periodic subsystems / 2.2.3.1:
Example: The driven Van der Pol equation / 2.2.3.2:
The prediction principle l'histoire se répète / 2.2.4:
The general principle / 2.2.4.1:
Application to quasi-periodic evolutions / 2.2.4.2:
Historical remarks / 2.2.5:
Chaotic evolutions / 2.3:
Badly predictable (chaotic) evolutions of the doubling map / 2.3.1:
Definition of dispersion exponent and chaos / 2.3.2:
Properties of the dispersion exponent / 2.3.3:
'Transition' from quasi-periodic to stochastic / 2.3.3.1:
'Transition' from periodic to chaotic / 2.3.3.2:
'Transition' from chaotic to stochastic / 2.3.3.3:
Chaotic evolutions in the examples of Chapter 1 / 2.3.4:
Chaotic evolutions of the Thom map / 2.3.5:
Persistence of dynamical properties / 2.4:
Variation of initial state / 3.1:
Variation of parameters / 3.2:
Persistence of stationary and periodic evolutions / 3.3:
Persistence of stationary evolutions / 3.3.1:
Persistence of periodic evolutions / 3.3.2:
Persistence for the doubling map / 3.4:
Perturbations of the doubling map: Persistent chaoticity / 3.4.1:
Structural stability / 3.4.2:
The doubling map modelling a (fair) coin / 3.4.3:
Global structure of dynamical systems / 3.5:
Definitions / 4.1:
Examples of attractors / 4.2:
The doubling map and hyperbolic attractors / 4.2.1:
The doubling map on the plane / 4.2.1.1:
The doubling map in 3-space: The solenoid / 4.2.1.2:
Digression on hyperbolicity / 4.2.1.3:
The solenoid as a hyperbolic attractor / 4.2.1.4:
Properties of hyperbolic attractors / 4.2.1.5:
Nonhyperbolic attractors / 4.2.2:
Hénon-like attractors / 4.2.2.1:
Chaotic systems / 4.2.2.2:
Basin boundaries and the horseshoe map / 4.4:
Gradient systems / 4.4.1:
The horseshoe map / 4.4.2:
Symbolic dynamics / 4.4.2.1:
Horseshoelike sets in basin boundaries / 4.4.2.2:
On KAM theory / 4.5:
Introduction, setting of the problem / 5.1:
KAM theory of circle maps / 5.2:
Preliminaries / 5.2.1:
Formal considerations and small divisors / 5.2.2:
Resonance tongues / 5.2.3:
KAM theory of area-preserving maps / 5.3:
KAM theory of holomorphic maps / 5.4:
Complex linearisation / 5.4.1:
Cremer's example in Herman's version / 5.4.2:
The linear small divisor problem / 5.5:
Motivation / 5.5.1:
Setting of the problem and formal solution / 5.5.2:
Convergence / 5.5.3:
Reconstruction and time series analysis / 5.6:
Introduction / 6.1:
An experimental example: The dripping faucet / 6.2:
The reconstruction theorem / 6.3:
Generalisations / 6.3.1:
Continuous time / 6.3.1.1:
Multidimensional measurements / 6.3.1.2:
Endomorphisms / 6.3.1.3:
Compactness / 6.3.1.4:
Historical note / 6.3.2:
Reconstruction and detecting determinism / 6.4:
Box-counting dimension and its numerical estimation / 6.4.1:
Numerical estimation of the box-counting dimension / 6.4.2:
Box-counting dimension as an indication for 'thin' subsets / 6.4.3:
Estimation of topological entropy / 6.4.4:
Stationarity and reconstruction measures / 6.5:
Probability measures defined by relative frequencies / 6.5.1:
Definition of stationarity and reconstruction measures / 6.5.2:
Examples of nonexistence of reconstruction measures / 6.5.3:
Correlation dimensions and entropies / 6.6:
Miscellaneous remarks / 6.6.1:
Compatibility of the definitions of dimension and entropy with reconstruction / 6.6.2.1:
Generalised correlation integrals, dimensions, and entropies / 6.6.2.2:
Numerical estimation of correlation integrals, dimensions, entropies / 6.7:
Classical time series analysis, correlation integrals, and predictability / 6.8:
Classical time series analysis / 6.8.1:
Optimal linear predictors / 6.8.1.1:
Gaussian time series / 6.8.1.2:
Determinism and Autocovariances / 6.8.2:
Predictability and correlation integrals / 6.8.3:
L'histoire se répète / 6.8.3.1:
Local linear predictors / 6.8.3.2:
Miscellaneous subjects / 6.9:
Lyapunov exponents / 6.9.1:
Estimation of Lyapunov exponents from a time series / 6.9.2:
The Kantz-Diks test: Discriminating between time series and testing for reversibility / 6.9.3:
Differential topology and measure theory / 6.10:
Topology / A.1:
Differentiable manifolds / A.2:
Measure theory / A.3:
Miscellaneous KAM theory / Appendix B:
Classical (conservative) KAM theory / B.1:
Dissipative KAM theory / B.3:
On the KAM proof in the dissipative case / B.4:
Reformulation and some notation / B.4.1:
On the Newtonian iteration / B.4.2:
Miscellaneous bifurcations / B.5:
Local bifurcations of low codimension / C.1:
Saddle-node bifurcation / C.1.1:
Period doubling bifurcation / C.1.2:
Hopf-Neimark-Sacker bifurcation / C.1.3:
The center-saddle bifurcation / C.1.5:
Quasi-periodic bifurcations / C.2:
The quasi-periodic center-saddle bifurcation / C.2.1:
The quasi-periodic Hopf bifurcation / C.2.2:
Transition to chaos / C.3:
Derivation of the Lorenz equations / C.4:
Geometry and flow of an incompressible fluid / D.1:
Heat transport and the influence of temperature / D.2:
Rayleigh stability analysis / D.3:
Restriction to a 3-dimensionaI state space / D.4:
Guide to the literature / Appendix E:
General references / E.1:
On ergodic theory / E.2:
On Hamiltonian dynamics / E.3:
On normal forms and bifurcations / E.4:
Bibliography
Index
Examples and definitions of dynamical phenomena / 1:
The pendulum as a dynamical system / 1.1:
The free pendulum / 1.1.1:
9.

電子ブック
EB
9. Spyware and Adware
John Daniel Aycock
出版情報: Springer eBooks Computer Science , Springer US, 2011
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目次情報: 続きを見る
Introduction / 1:
Definitions and History / 1.1:
Motivation / 1.2:
Getting There / 2:
Installation / 2.1:
Explicit, Voluntary Installation / 2.1.1:
Drive-by Downloads, User Involvement / 2.1.2:
Drive-by Downloads, No User Involvement / 2.1.3:
Installation via Malware / 2.1.4:
Startup / 2.2:
Application-Specific Startup / 2.2.1:
GUI Startup / 2.2.2:
System Startup / 2.2.3:
Kernel Startup / 2.2.4:
Defenses / 2.2.5:
Staying There / 3:
Avoiding Detection / 3.1:
Basic Detection Avoidance / 3.1.1:
Anti-Spyware / 3.1.2:
Advanced Detection Avoidance: Rootkits / 3.1.3:
Avoiding Uninstall / 3.2:
Passive Avoidance / 3.2.1:
Active Avoidance / 3.2.2:
Keylogging / 4:
User Space Keylogging / 4.1:
Polling / 4.1.1:
Event Copying / 4.1.2:
Event Monitoring / 4.1.3:
User Space Keylogging Defenses / 4.2:
Authentication / 4.3:
Phoning Home / 5:
Push vs. Pull / 5.1:
Finding Home / 5.2:
Steganography / 5.3:
Information Leaking Defenses / 5.4:
Advertising / 6:
Types of Advertisement / 6.1:
Banner Advertisement / 6.1.1:
Banner Advertisement with Pull-down Menu / 6.1.2:
Expandable Banner Advertisement / 6.1.3:
Pushdown Banner Advertisement / 6.1.4:
Pop-up Advertisement / 6.1.5:
Pop-under Advertisement / 6.1.6:
Floating Advertisement / 6.1.7:
Tear-back Advertisement / 6.1.8:
In-text Advertisement / 6.1.9:
Transition Advertisement / 6.1.10:
Video Advertisements / 6.1.11:
Intent and Content / 6.2:
Advertisement Implementation / 7:
Implementation Location / 7.1:
Implementation on the User Machine / 7.1.1:
Implementation in the Network / 7.1.2:
Implementation near the User Machine / 7.1.3:
Implementation on the Server / 7.1.4:
Choosing Keywords / 7.2:
Blocking Advertisements / 7.3:
Pop-up Blocking / 7.3.1:
General Advertisement Blocking / 7.3.2:
Blocker Evasion and Blocker Blocking / 7.3.3:
Tracking Users
Cookies / 8.1:
Other Browser-Related Tracking Methods / 8.1.1:
User Profiling / 8.2:
Cognitive Styles, Mood, and Personality / 8.2.1:
Future Actions / 8.2.2:
Demographic Information / 8.2.3:
Social Networks / 8.2.4:
Real World Activities / 8.2.5:
Physical of Location / 8.2.6:
Search Terms and keywords / 8.2.7:
Disinterests / 8.2.8:
Conclusion / 9:
References
Index
Introduction / 1:
Definitions and History / 1.1:
Motivation / 1.2:
10.

電子ブック
EB
10. Spyware and Adware
John Daniel Aycock
出版情報: SpringerLink Books - AutoHoldings , Springer US, 2011
所蔵情報: loading…
目次情報: 続きを見る
Introduction / 1:
Definitions and History / 1.1:
Motivation / 1.2:
Getting There / 2:
Installation / 2.1:
Explicit, Voluntary Installation / 2.1.1:
Drive-by Downloads, User Involvement / 2.1.2:
Drive-by Downloads, No User Involvement / 2.1.3:
Installation via Malware / 2.1.4:
Startup / 2.2:
Application-Specific Startup / 2.2.1:
GUI Startup / 2.2.2:
System Startup / 2.2.3:
Kernel Startup / 2.2.4:
Defenses / 2.2.5:
Staying There / 3:
Avoiding Detection / 3.1:
Basic Detection Avoidance / 3.1.1:
Anti-Spyware / 3.1.2:
Advanced Detection Avoidance: Rootkits / 3.1.3:
Avoiding Uninstall / 3.2:
Passive Avoidance / 3.2.1:
Active Avoidance / 3.2.2:
Keylogging / 4:
User Space Keylogging / 4.1:
Polling / 4.1.1:
Event Copying / 4.1.2:
Event Monitoring / 4.1.3:
User Space Keylogging Defenses / 4.2:
Authentication / 4.3:
Phoning Home / 5:
Push vs. Pull / 5.1:
Finding Home / 5.2:
Steganography / 5.3:
Information Leaking Defenses / 5.4:
Advertising / 6:
Types of Advertisement / 6.1:
Banner Advertisement / 6.1.1:
Banner Advertisement with Pull-down Menu / 6.1.2:
Expandable Banner Advertisement / 6.1.3:
Pushdown Banner Advertisement / 6.1.4:
Pop-up Advertisement / 6.1.5:
Pop-under Advertisement / 6.1.6:
Floating Advertisement / 6.1.7:
Tear-back Advertisement / 6.1.8:
In-text Advertisement / 6.1.9:
Transition Advertisement / 6.1.10:
Video Advertisements / 6.1.11:
Intent and Content / 6.2:
Advertisement Implementation / 7:
Implementation Location / 7.1:
Implementation on the User Machine / 7.1.1:
Implementation in the Network / 7.1.2:
Implementation near the User Machine / 7.1.3:
Implementation on the Server / 7.1.4:
Choosing Keywords / 7.2:
Blocking Advertisements / 7.3:
Pop-up Blocking / 7.3.1:
General Advertisement Blocking / 7.3.2:
Blocker Evasion and Blocker Blocking / 7.3.3:
Tracking Users
Cookies / 8.1:
Other Browser-Related Tracking Methods / 8.1.1:
User Profiling / 8.2:
Cognitive Styles, Mood, and Personality / 8.2.1:
Future Actions / 8.2.2:
Demographic Information / 8.2.3:
Social Networks / 8.2.4:
Real World Activities / 8.2.5:
Physical of Location / 8.2.6:
Search Terms and keywords / 8.2.7:
Disinterests / 8.2.8:
Conclusion / 9:
References
Index
Introduction / 1:
Definitions and History / 1.1:
Motivation / 1.2:
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