1.

Record Nr.

UNINA9910820139403321

Autore

Ferreira David Dos Santos <1975->

Titolo

Global and local regularity of fourier integral operators on weighted and unweighted spaces / / David Dos Santos Ferreira, Wolfgang Staubach

Pubbl/distr/stampa

Providence, Rhode Island : , : American Mathematical Society, , 2013

©2013

ISBN

1-4704-1528-3

Descrizione fisica

1 online resource (86 p.)

Collana

Memoirs of the American Mathematical Society, , 1947-6221 ; ; Volume 229, Number 1074

Disciplina

515/.723

Soggetti

Fourier integral operators

Mathematical analysis

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

"Volume 229, Number 1074 (first of 5 numbers)."

Nota di bibliografia

Includes bibliographical references.

Nota di contenuto

""Chapter 3. Global and Local Weighted   ^{  } Boundedness of Fourier Integral Operators""""3.1. Tools in proving weighted boundedness""; ""3.2. Counterexamples in the context of weighted boundedness""; ""3.3. Invariant formulation in the local boundedness""; ""3.4. Weighted local and global   ^{  } boundedness of Fourier integral operators""; ""Chapter 4. Applications in Harmonic Analysis and Partial Differential Equations""; ""4.1. Estimates in weighted Triebel-Lizorkin spaces""; ""4.2. Commutators with BMO functions""; ""4.3. Applications to hyperbolic partial differential equations""

""Bibliography""


2.

Record Nr.

UNINA9910814277503321

Titolo

Simulation and modeling of systems of systems / / edited by Pascal Cantot, Dominique Luzeaux

Pubbl/distr/stampa

London, : ISTE

Hoboken, N.J., : Wiley, 2011

ISBN

9781118616727

1118616723

9781118616956

1118616952

9781299315211

1299315216

9781118616659

1118616650

Edizione

[1st edition]

Descrizione fisica

1 online resource (394 p.)

Collana

ISTE

Altri autori (Persone)

CantotPascal

LuzeauxDominique

Disciplina

003

Soggetti

Systems engineering - Data processing

Computer simulation

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Adapted and updated from: Simulation et modélisation des systèmes de systèmes : vers la maîtrise de la complexité published 2009 in France by Hermes Science/Lavoisier.

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Cover; Title Page; Copyright Page; Table of Contents; Introduction; Chapter 1: Simulation: History, Concepts, and Examples; 1.1. Issues: simulation, a tool for complexity; 1.1.1. What is a complex system?; 1.1.2. Systems of systems; 1.1.3. Why simulate?; 1.1.4. Can we do without simulation?; 1.2. History of simulation; 1.2.1. Antiquity: strategy games; 1.2.2. The modern era: theoretical bases; 1.2.3. Contemporary era: the IT revolution; 1.3. Real-world examples of simulation; 1.3.1. Airbus; 1.3.2. French defense procurement directorate; 1.4. Basic principles; 1.4.1. Definitions

1.4.2. Typology1.5. Conclusion; 1.6. Bibliography; Chapter 2. Principles of Modeling; 2.1. Introduction to modeling; 2.2. Typology of models;



2.2.1. Static/dynamic; 2.2.2. Deterministic/stochastic; 2.2.3. Qualities of a model; 2.3. The modeling process; 2.3.1. Global process; 2.3.2. Formulation of the problem; 2.3.3. Objectives and organization; 2.3.4. Analysis of the system; 2.3.5. Modeling; 2.3.6. Data collection; 2.3.7. Coding/implementation; 2.3.8. Verification; 2.3.9. Validation; 2.3.10. Execution; 2.3.11. Use of results; 2.3.12. Final report; 2.3.13. Commissioning/capitalization

2.4. Simulation project management2.5. Conclusion; 2.6. Bibliography; Chapter 3. Credibility in Modeling and Simulation; 3.1. Technico-operational studies and simulations; 3.2. Examples of technico-operational studies based on simulation tools; 3.2.1. Suppression of aerial defenses; 3.2.2. Heavy helicopters; 3.3. VV&A for technico-operational simulations; 3.3.1. Official definitions; 3.3.2. Credibility; 3.3.3. Key players in the domain; 3.4. VV&A issues; 3.4.1. Elements concerned; 3.4.2. Verification and validation techniques; 3.4.3. VV&A approaches; 3.4.4. Responsibilities in a VV&A process

3.4.5. Levels of validation3.4.6. Accreditation; 3.5. Conclusions; 3.5.1. Validation techniques; 3.5.2. Validation approaches; 3.5.3. Perspectives; 3.6. Bibliography; Chapter 4. Modeling Systems and Their Environment; 4.1. Introduction; 4.2. Modeling time; 4.2.1. Real-time simulation; 4.2.2. Step-by-step simulation; 4.2.3. Discrete event simulation; 4.2.4. Which approach?; 4.2.5. Distributed simulation; 4.3. Modeling physical laws; 4.3.1. Understanding the system; 4.3.2. Developing a system of equations; 4.3.3. Discrete sampling of space; 4.3.4. Solving the problem

4.4. Modeling random phenomena4.4.1. Stochastic processes; 4.4.2. Use of probability; 4.4.3. Use of statistics; 4.4.4. Random generators; 4.4.5. Execution and analysis of results of stochastic simulations; 4.5. Modeling the natural environment; 4.5.1. Natural environment; 4.5.2. Environment databases; 4.5.3. Production of an SEDB; 4.5.4. Quality of an SEDB; 4.5.5. Coordinate systems; 4.5.6. Multiplicity of formats; 4.6. Modeling human behavior; 4.6.1. Issues and limitations; 4.6.2. What is human behavior?; 4.6.3. The decision process; 4.6.4. Perception of the environment; 4.6.5. Human factors

4.6.6. Modeling techniques

Sommario/riassunto

Systems engineering is the design of a complex interconnection of many elements (a system) to maximize a specific measure of system performance. It consists of two parts: modeling, in which each element of the system and its performance criteria are described; and optimization in which adjustable elements are tailored to allow peak performance. Systems engineering is applied to vast numbers of problems in industry and the military. An example of systems engineering at work is the control of the timing of thousands of city traffic lights to maximize traffic flow. The complex and intricate field