Modeling and simulation of aerospace vehicle dynamics /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Zipfel, Peter H.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Reston, Va. : American Institute of Aeronautics and Astronautics, ©2007.
Edición:2nd ed.
Colección:AIAA education series.
Temas:
Aerodynamics > Mathematics.
Airplanes > Mathematical models.
Space vehicles > Dynamics > Mathematical models.
Aérodynamique > Mathématiques.
Avions > Modèles mathématiques.
Véhicules spatiaux > Dynamique > Modèles mathématiques.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Machine derived contents note: Preface to the First Edition
  • Preface to the Second Edition
  • Nomenclature
  • List of Acronyms
  • Chapter 1. Overview
  • 1.1 Virtual Engineering
  • 1.2 Modeling of Flight Dynamics
  • 1.3 Simulation of Aerospace Vehicles
  • References
  • Part 1 Modeling of Flight Dynamics
  • Chapter 2. Mathematical Concepts in Modeling
  • 2.1 Classical Mechanics
  • 2.2 Tensor Elements
  • 2.3 Modeling of Geometry
  • 2.4 Summary
  • References
  • Problem
  • Chapter 3. Frames and Coordinate Systems
  • 3.1 Frames
  • 3.2 Coordinate Systems
  • References
  • Problem
  • Chapter 4. Kinematics of Translation and Rotation
  • 4.1 Rotation Tensor
  • 4.2 Kinematics of Changing Times
  • 4.3 Attitude Determination
  • References
  • Problems
  • Chapter 5. Translational Dynamics
  • 5.1 Linear Momentum
  • 5.2 Newtonian Dynamics
  • 5.3 Transformations
  • 5.4 Simulation Implementation
  • References
  • Problems
  • Chapter 6. Attitude Dynamics
  • 6.1 Inertia Tensor
  • 6.2 Angular Momentum
  • 6.3 Euler's Law
  • 6.4 Gyrodynamics
  • 6.5 Summary
  • References
  • Problems
  • Chapter 7. Perturbation Equations
  • 7.1 Perturbation Techniques
  • 7.2 Linear and Angular Momentum Equations
  • 7.3 Aerodynamic Forces and Moments
  • 7.4 Perturbation Equations of Steady Flight
  • 7.5 Perturbation Equations of Unsteady Flight
  • References
  • Problems
  • Part 2 Simulation of Aerospace Vehicles
  • Chapter 8. Three-Degree-of-Freedom Simulation
  • 8.1 Equations of Motion
  • 8.2 Subsystem Models
  • 8.3 Simulations
  • References
  • Problems
  • Chapter 9. Five-Degree-of-Freedom Simulation
  • 9.1 Pseudo-Five-DoF Equations of Motion
  • 9.2 Subsystem Models
  • 9.3 Simulations
  • References
  • Problems
  • Chapter 10. Six-Degree-of-Freedom Simulation
  • 10.1 Six-DoF Equations of Motion
  • 10.2 Subsystem Models
  • 10.3 Monte Carlo Analysis
  • 10.4 Simulations
  • References
  • Problems
  • Chapter 11. Real-Time Applications
  • 11.1 Flight Simulator
  • 11.2 Hardware-in-the-Loop Facility
  • 11.3 Wargaming
  • References
  • Appendix A. Matrices
  • A.1 Matrix Definitions
  • A.2 Matrix Operations
  • A.3 Matrix Eigenvalues
  • Problems
  • Appendix B. CADAC Primer
  • Appendix C. Aerospace Simulations in C++
  • C.1 Introduction
  • C.2 C++ Architecture and Three-DoF Cruise Missile Simulation
  • C.3 High Fidelity Missile and Aircraft Simulations
  • C.4 Advanced Components of Ascent Vehicles
  • References
  • Appendix D. Foundation of Tensor Flight Dynamics
  • D.1 Introduction
  • D.2 Derivation of the Rotational Time Derivative
  • D.3 Tensor Property of the Rotational Time Derivative
  • D.4 Euler Transformation
  • D.5 Conclusions
  • References
  • Index.

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