Modern astrodynamics [[electronic resource] /] / edited by Pini Gurfil |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Oxford, : Academic, 2006 |
Descrizione fisica | 1 online resource (307 p.) |
Disciplina | 629.41 |
Altri autori (Persone) | GurfilPini |
Collana | Elsevier astrodynamics series |
Soggetto topico |
Astrodynamics
Astrophysics |
ISBN |
1-280-63679-3
9786610636792 0-08-046491-2 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Title Page; Copyright Page; Table of Contents; Foreword; Introduction; Chapter 1 Perturbed Motion; 1.1 Basic definitions; 1.2 Forces; 1.3 Gravity; 1.4 Drag; 1.5 3-Body; 1.6 Solar radiation pressure; 1.7 Tides; 1.8 Albedo; 1.9 Other; 1.10 Propagating the orbit; 1.11 Analytical; 1.12 Numerical; 1.13 Semi analytical; 1.14 Variation of parameters; 1.15 Lagrangian VOP-conservative forces; 1.16 Gaussian VOP-non-conservative forces; 1.17 Effect on orbits; 1.18 J2 Only; 1.19 Comparative force model effects; 1.20 Conclusions; References; Chapter 2 Gauge Freedom in Astrodynamics
2.1 Introduction 2.2 Gauge freedom in the theory of orbits; 2.3 A practical example on gauges: a satellite orbiting a precessing oblate planet; 2.4 Conclusions: how we benefit from the gauge freedom; Appendix 1. Mathematical formalities: Orbital dynamics in the normal form of Cauchy; Appendix 2. Precession of the equator of date relative to the equator of epoch; References; Chapter 3 Solving Two-Point Boundary Value Problems Using Generating Functions: Theory and Applications to Astrodynamics; 3.1 Introduction; 3.2 Solving two-point boundary value problems; 3.3 Hamilton's principal function 3.4 Local solutions of the Hamilton-Jacobi equation 3.5 Applications; 3.6 Conclusions; Appendix A. The Hamilton-Jacobi equation at higher orders; Appendix B. The Hill three-body problem; References; Chapter 4 Low-Energy Transfers and Applications; 4.1 Introduction; 4.2 Capture problem, models, and transfer types; 4.3 Ballistic capture regions and transfers; 4.4 Chaos and weak capture; 4.5 Origin of the Moon; References; Chapter 5 Set Oriented Numerical Methods in Space Mission Design; 5.1 Introduction; 5.2 Dynamical systems and mission design; 5.3 Set oriented numerics 5.4 Computing invariant manifolds 5.5 Detecting connecting orbits; 5.6 Extension to controlled systems; 5.7 Conclusion; References; Chapter 6 Space Trajectory Optimization and L1-Optimal Control Problems; 6.1 Introduction; 6.2 Geometry and the mass flow equations; 6.3 Cost functions and Lebesgue norms; 6.4 Double integrator example; 6.5 Issues in solving nonlinear L1-optimal control problems; 6.6 Solving nonlinear L1-optimal control problems; 6.7 L1-Formulation of the minimum-fuel orbit transfer problem; 6.8 A simple extension to distributed space systems; 6.9 Conclusions; References Chapter 7 Orbital Mechanics of Propellantless Propulsion Systems 7.1 Introduction; 7.2 Solar sailing; 7.3 Solar sail orbital mechanics; 7.4 Artificial three-body equilibria for solar sails; 7.5 Mission applications; 7.6 Tethers in space; 7.7 Tethers in orbit; 7.8 Conclusions; References; Chapter 8 Cooperative Spacecraft Formation Flying: Model Predictive Control with Open- and Closed-Loop Robustness; 8.1 Introduction; 8.2 Dynamics of formation flight; 8.3 Formation flight control and the model predictive control formulation; 8.4 Distributed coordination through virtual center 8.5 Open loop robust control and replan frequency |
Record Nr. | UNINA-9910784656303321 |
Oxford, : Academic, 2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Modern astrodynamics / / edited by Pini Gurfil |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Oxford, : Academic, 2006 |
Descrizione fisica | 1 online resource (307 p.) |
Disciplina |
629.41
629.411 |
Altri autori (Persone) | GurfilPini |
Collana | Elsevier astrodynamics series |
Soggetto topico |
Astrodynamics
Astrophysics |
ISBN |
1-280-63679-3
9786610636792 0-08-046491-2 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Title Page; Copyright Page; Table of Contents; Foreword; Introduction; Chapter 1 Perturbed Motion; 1.1 Basic definitions; 1.2 Forces; 1.3 Gravity; 1.4 Drag; 1.5 3-Body; 1.6 Solar radiation pressure; 1.7 Tides; 1.8 Albedo; 1.9 Other; 1.10 Propagating the orbit; 1.11 Analytical; 1.12 Numerical; 1.13 Semi analytical; 1.14 Variation of parameters; 1.15 Lagrangian VOP-conservative forces; 1.16 Gaussian VOP-non-conservative forces; 1.17 Effect on orbits; 1.18 J2 Only; 1.19 Comparative force model effects; 1.20 Conclusions; References; Chapter 2 Gauge Freedom in Astrodynamics
2.1 Introduction 2.2 Gauge freedom in the theory of orbits; 2.3 A practical example on gauges: a satellite orbiting a precessing oblate planet; 2.4 Conclusions: how we benefit from the gauge freedom; Appendix 1. Mathematical formalities: Orbital dynamics in the normal form of Cauchy; Appendix 2. Precession of the equator of date relative to the equator of epoch; References; Chapter 3 Solving Two-Point Boundary Value Problems Using Generating Functions: Theory and Applications to Astrodynamics; 3.1 Introduction; 3.2 Solving two-point boundary value problems; 3.3 Hamilton's principal function 3.4 Local solutions of the Hamilton-Jacobi equation 3.5 Applications; 3.6 Conclusions; Appendix A. The Hamilton-Jacobi equation at higher orders; Appendix B. The Hill three-body problem; References; Chapter 4 Low-Energy Transfers and Applications; 4.1 Introduction; 4.2 Capture problem, models, and transfer types; 4.3 Ballistic capture regions and transfers; 4.4 Chaos and weak capture; 4.5 Origin of the Moon; References; Chapter 5 Set Oriented Numerical Methods in Space Mission Design; 5.1 Introduction; 5.2 Dynamical systems and mission design; 5.3 Set oriented numerics 5.4 Computing invariant manifolds 5.5 Detecting connecting orbits; 5.6 Extension to controlled systems; 5.7 Conclusion; References; Chapter 6 Space Trajectory Optimization and L1-Optimal Control Problems; 6.1 Introduction; 6.2 Geometry and the mass flow equations; 6.3 Cost functions and Lebesgue norms; 6.4 Double integrator example; 6.5 Issues in solving nonlinear L1-optimal control problems; 6.6 Solving nonlinear L1-optimal control problems; 6.7 L1-Formulation of the minimum-fuel orbit transfer problem; 6.8 A simple extension to distributed space systems; 6.9 Conclusions; References Chapter 7 Orbital Mechanics of Propellantless Propulsion Systems 7.1 Introduction; 7.2 Solar sailing; 7.3 Solar sail orbital mechanics; 7.4 Artificial three-body equilibria for solar sails; 7.5 Mission applications; 7.6 Tethers in space; 7.7 Tethers in orbit; 7.8 Conclusions; References; Chapter 8 Cooperative Spacecraft Formation Flying: Model Predictive Control with Open- and Closed-Loop Robustness; 8.1 Introduction; 8.2 Dynamics of formation flight; 8.3 Formation flight control and the model predictive control formulation; 8.4 Distributed coordination through virtual center 8.5 Open loop robust control and replan frequency |
Record Nr. | UNINA-9910819753403321 |
Oxford, : Academic, 2006 | ||
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Lo trovi qui: Univ. Federico II | ||
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Orbital and celestial mechanics [[electronic resource] /] / John P. Vinti ; edited by Gim J. Der, Nino L. Bonavito |
Autore | Vinti John P (John Pascal), <1907-> |
Pubbl/distr/stampa | Reston, Va., : American Institute of Aeronautics and Astronautics, c1998 |
Descrizione fisica | 1 online resource (415 p.) |
Disciplina | 629.4/113 |
Altri autori (Persone) |
DerGim J
BonavitoNino L |
Collana | Progress in astronautics and aeronautics |
Soggetto topico |
Orbital mechanics
Celestial mechanics Astrodynamics |
Soggetto genere / forma | Electronic books. |
ISBN |
1-60086-648-4
1-60086-429-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title; Copyright; Foreword; Table of Contents; Preface; Introduction; Chapter 1 Newton's Laws; I. Newton's Laws of Motion; II. Newton's Law of Gravitation; III. The Gravitational Potential; IV. Gravitational Flux and Gauss' Theorem; V. Gravitational Properties of a True Sphere; Chapter 2 The Two-Body Problem; I. Reduction to the One-Center Problem; II. The One-Center Problem; III. The Laplace Vector; IV. The Conic Section Solutions; V. Elliptic Orbits; VI. Spherical Trigonometry; VII. Orbit in Space; VIII. Orbit Determination from Initial Values; Chapter 3 Lagrangian Dynamics
I. VariationsII. D'Alembert's Principle; III. Hamilton's Principle; IV. Lagrange's Equations; Reference; Chapter 4 The Hamiltonian Equations; I. An Important Theorem; II. Ignorable Variables; Chapter 5 Canonical Transformations; I. The Condition of Exact Differentials; II. Canonical Generating Functions; III. Extended Point Transformation; IV. Transformation from Plane Rectangular to Plane Polar Coordinates; V. The Jacobi Integral; References; Chapter 6 Hamilton-Jacobi Theory; I. The Hamilton-Jacobi Equation; II. An Important Special Case III. The Hamilton-Jacobi Equation for the Kepler ProblemIV. The Integrals for the Kepler Problem; V. Relations Connecting β[sub(2)] and β[sub(3)] with ω and Ω; VI. Summary; Bibliography; Chapter 7 Hamilton-Jacobi Perturbation Theory; Bibliography; Chapter 8 The Vinti Spheroidal Method for Satellite Orbits and Ballistic Trajectories; I. Introduction; II. The Coordinates and the Hamiltonian; III. The Hamilton-Jacobi Equation; IV. Laplace's Equation; V. Expansion of Potential in Spherical Harmonics; VI. Return to the HJ Equation; VII. The Kinematic Equations; VIII. Orbital Elements IX. Factoring the QuarticsX. The ρ Integrals; XI. The η Integrals; XII. The Mean Frequencies; XIII. Assembly of the Kinematic Equations; XIV. Solution of the Kinematic Equations; XV. The Periodic Terms; XVI. The Right Ascension Φ; XVII. Further Developments; References; Chapter 9 Delaunay Variables; Reference; Chapter 10 The Lagrange Planetary Equations; I. Semi-Major Axis; II. Eccentricity; III. Inclination; IV. Mean Anomaly; V. The Argument of Pericenter; VI. The Longitude of the Node; VII. Summary; Reference; Chapter 11 The Planetary Disturbing Function; Bibliography Chapter 12 Gaussian Variational Equations for the Jacobi ElementsReferences; Chapter 13 Gaussian Variational Equations for the Keplerian Elements; I. Preliminaries; II. Equations for α[sub(1)] and a; III. Equations for α[sub(2)] and e; IV. Equations for α[sub(3)] and I; V. Equations for β[sub(3)] = Ω; VI. Equations for β[sub(2)] = ω; VII. Equations for β[sub(1)] and l; VIII. Summary; Chapter 14 Potential Theory; I. Introduction; II. Laplace's Equation; III. The Eigenvalue Problem; IV. The R(r) Equation; V. The Assembled Solution; VI. Legendre Polynomials; VII. The Results for P[sub(n)](x) VIII. The 0 Solution for m > 0 |
Record Nr. | UNINA-9910457217703321 |
Vinti John P (John Pascal), <1907->
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Reston, Va., : American Institute of Aeronautics and Astronautics, c1998 | ||
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Lo trovi qui: Univ. Federico II | ||
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Orbital and celestial mechanics [[electronic resource] /] / John P. Vinti ; edited by Gim J. Der, Nino L. Bonavito |
Autore | Vinti John P (John Pascal), <1907-> |
Pubbl/distr/stampa | Reston, Va., : American Institute of Aeronautics and Astronautics, c1998 |
Descrizione fisica | 1 online resource (415 p.) |
Disciplina | 629.4/113 |
Altri autori (Persone) |
DerGim J
BonavitoNino L |
Collana | Progress in astronautics and aeronautics |
Soggetto topico |
Orbital mechanics
Celestial mechanics Astrodynamics |
ISBN |
1-60086-648-4
1-60086-429-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title; Copyright; Foreword; Table of Contents; Preface; Introduction; Chapter 1 Newton's Laws; I. Newton's Laws of Motion; II. Newton's Law of Gravitation; III. The Gravitational Potential; IV. Gravitational Flux and Gauss' Theorem; V. Gravitational Properties of a True Sphere; Chapter 2 The Two-Body Problem; I. Reduction to the One-Center Problem; II. The One-Center Problem; III. The Laplace Vector; IV. The Conic Section Solutions; V. Elliptic Orbits; VI. Spherical Trigonometry; VII. Orbit in Space; VIII. Orbit Determination from Initial Values; Chapter 3 Lagrangian Dynamics
I. VariationsII. D'Alembert's Principle; III. Hamilton's Principle; IV. Lagrange's Equations; Reference; Chapter 4 The Hamiltonian Equations; I. An Important Theorem; II. Ignorable Variables; Chapter 5 Canonical Transformations; I. The Condition of Exact Differentials; II. Canonical Generating Functions; III. Extended Point Transformation; IV. Transformation from Plane Rectangular to Plane Polar Coordinates; V. The Jacobi Integral; References; Chapter 6 Hamilton-Jacobi Theory; I. The Hamilton-Jacobi Equation; II. An Important Special Case III. The Hamilton-Jacobi Equation for the Kepler ProblemIV. The Integrals for the Kepler Problem; V. Relations Connecting β[sub(2)] and β[sub(3)] with ω and Ω; VI. Summary; Bibliography; Chapter 7 Hamilton-Jacobi Perturbation Theory; Bibliography; Chapter 8 The Vinti Spheroidal Method for Satellite Orbits and Ballistic Trajectories; I. Introduction; II. The Coordinates and the Hamiltonian; III. The Hamilton-Jacobi Equation; IV. Laplace's Equation; V. Expansion of Potential in Spherical Harmonics; VI. Return to the HJ Equation; VII. The Kinematic Equations; VIII. Orbital Elements IX. Factoring the QuarticsX. The ρ Integrals; XI. The η Integrals; XII. The Mean Frequencies; XIII. Assembly of the Kinematic Equations; XIV. Solution of the Kinematic Equations; XV. The Periodic Terms; XVI. The Right Ascension Φ; XVII. Further Developments; References; Chapter 9 Delaunay Variables; Reference; Chapter 10 The Lagrange Planetary Equations; I. Semi-Major Axis; II. Eccentricity; III. Inclination; IV. Mean Anomaly; V. The Argument of Pericenter; VI. The Longitude of the Node; VII. Summary; Reference; Chapter 11 The Planetary Disturbing Function; Bibliography Chapter 12 Gaussian Variational Equations for the Jacobi ElementsReferences; Chapter 13 Gaussian Variational Equations for the Keplerian Elements; I. Preliminaries; II. Equations for α[sub(1)] and a; III. Equations for α[sub(2)] and e; IV. Equations for α[sub(3)] and I; V. Equations for β[sub(3)] = Ω; VI. Equations for β[sub(2)] = ω; VII. Equations for β[sub(1)] and l; VIII. Summary; Chapter 14 Potential Theory; I. Introduction; II. Laplace's Equation; III. The Eigenvalue Problem; IV. The R(r) Equation; V. The Assembled Solution; VI. Legendre Polynomials; VII. The Results for P[sub(n)](x) VIII. The 0 Solution for m > 0 |
Record Nr. | UNINA-9910781411803321 |
Vinti John P (John Pascal), <1907->
![]() |
||
Reston, Va., : American Institute of Aeronautics and Astronautics, c1998 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Orbital and celestial mechanics [[electronic resource] /] / John P. Vinti ; edited by Gim J. Der, Nino L. Bonavito |
Autore | Vinti John P (John Pascal), <1907-> |
Pubbl/distr/stampa | Reston, Va., : American Institute of Aeronautics and Astronautics, c1998 |
Descrizione fisica | 1 online resource (415 p.) |
Disciplina | 629.4/113 |
Altri autori (Persone) |
DerGim J
BonavitoNino L |
Collana | Progress in astronautics and aeronautics |
Soggetto topico |
Orbital mechanics
Celestial mechanics Astrodynamics |
ISBN |
1-60086-648-4
1-60086-429-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title; Copyright; Foreword; Table of Contents; Preface; Introduction; Chapter 1 Newton's Laws; I. Newton's Laws of Motion; II. Newton's Law of Gravitation; III. The Gravitational Potential; IV. Gravitational Flux and Gauss' Theorem; V. Gravitational Properties of a True Sphere; Chapter 2 The Two-Body Problem; I. Reduction to the One-Center Problem; II. The One-Center Problem; III. The Laplace Vector; IV. The Conic Section Solutions; V. Elliptic Orbits; VI. Spherical Trigonometry; VII. Orbit in Space; VIII. Orbit Determination from Initial Values; Chapter 3 Lagrangian Dynamics
I. VariationsII. D'Alembert's Principle; III. Hamilton's Principle; IV. Lagrange's Equations; Reference; Chapter 4 The Hamiltonian Equations; I. An Important Theorem; II. Ignorable Variables; Chapter 5 Canonical Transformations; I. The Condition of Exact Differentials; II. Canonical Generating Functions; III. Extended Point Transformation; IV. Transformation from Plane Rectangular to Plane Polar Coordinates; V. The Jacobi Integral; References; Chapter 6 Hamilton-Jacobi Theory; I. The Hamilton-Jacobi Equation; II. An Important Special Case III. The Hamilton-Jacobi Equation for the Kepler ProblemIV. The Integrals for the Kepler Problem; V. Relations Connecting β[sub(2)] and β[sub(3)] with ω and Ω; VI. Summary; Bibliography; Chapter 7 Hamilton-Jacobi Perturbation Theory; Bibliography; Chapter 8 The Vinti Spheroidal Method for Satellite Orbits and Ballistic Trajectories; I. Introduction; II. The Coordinates and the Hamiltonian; III. The Hamilton-Jacobi Equation; IV. Laplace's Equation; V. Expansion of Potential in Spherical Harmonics; VI. Return to the HJ Equation; VII. The Kinematic Equations; VIII. Orbital Elements IX. Factoring the QuarticsX. The ρ Integrals; XI. The η Integrals; XII. The Mean Frequencies; XIII. Assembly of the Kinematic Equations; XIV. Solution of the Kinematic Equations; XV. The Periodic Terms; XVI. The Right Ascension Φ; XVII. Further Developments; References; Chapter 9 Delaunay Variables; Reference; Chapter 10 The Lagrange Planetary Equations; I. Semi-Major Axis; II. Eccentricity; III. Inclination; IV. Mean Anomaly; V. The Argument of Pericenter; VI. The Longitude of the Node; VII. Summary; Reference; Chapter 11 The Planetary Disturbing Function; Bibliography Chapter 12 Gaussian Variational Equations for the Jacobi ElementsReferences; Chapter 13 Gaussian Variational Equations for the Keplerian Elements; I. Preliminaries; II. Equations for α[sub(1)] and a; III. Equations for α[sub(2)] and e; IV. Equations for α[sub(3)] and I; V. Equations for β[sub(3)] = Ω; VI. Equations for β[sub(2)] = ω; VII. Equations for β[sub(1)] and l; VIII. Summary; Chapter 14 Potential Theory; I. Introduction; II. Laplace's Equation; III. The Eigenvalue Problem; IV. The R(r) Equation; V. The Assembled Solution; VI. Legendre Polynomials; VII. The Results for P[sub(n)](x) VIII. The 0 Solution for m > 0 |
Record Nr. | UNINA-9910825537503321 |
Vinti John P (John Pascal), <1907->
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||
Reston, Va., : American Institute of Aeronautics and Astronautics, c1998 | ||
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Lo trovi qui: Univ. Federico II | ||
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Orbital mechanics and astrodynamics : techniques and tools for space missions / / Gerald R. Hintz |
Autore | Hintz Gerald R. |
Edizione | [Second edition.] |
Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , 2022 |
Descrizione fisica | 1 online resource (461 pages) |
Disciplina | 629.41 |
Soggetto topico |
Astrodynamics
Orbital mechanics |
ISBN |
9783030965730
9783030965723 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | 1. Fundamentals of Astrodynamics -- 2. Keplerian Motion -- 3. Orbital Maneuvers -- 4. Techniques of Astrodynamics -- 5. Non-Keplerian Motion -- 6. Spacecraft Rendezvous -- 7. Navigation and Mission Design Techniques and Tools -- 8. Changing from Mission Design to Flight Operations -- 9. Further Study. |
Record Nr. | UNINA-9910644266603321 |
Hintz Gerald R.
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Cham, Switzerland : , : Springer, , 2022 | ||
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Lo trovi qui: Univ. Federico II | ||
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Orbital mechanics and astrodynamics : techniques and tools for space missions / / Gerald R. Hintz |
Autore | Hintz Gerald R. |
Edizione | [Second edition.] |
Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , 2022 |
Descrizione fisica | 1 online resource (461 pages) |
Disciplina | 629.41 |
Soggetto topico |
Astrodynamics
Orbital mechanics |
ISBN |
9783030965730
9783030965723 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | 1. Fundamentals of Astrodynamics -- 2. Keplerian Motion -- 3. Orbital Maneuvers -- 4. Techniques of Astrodynamics -- 5. Non-Keplerian Motion -- 6. Spacecraft Rendezvous -- 7. Navigation and Mission Design Techniques and Tools -- 8. Changing from Mission Design to Flight Operations -- 9. Further Study. |
Record Nr. | UNISA-996508664303316 |
Hintz Gerald R.
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Cham, Switzerland : , : Springer, , 2022 | ||
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Lo trovi qui: Univ. di Salerno | ||
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Regularization in orbital mechanics : theory and practice / / Javier Roa |
Autore | Roa Javier (Javier Roa Vicens) |
Pubbl/distr/stampa | Berlin, [Germany] ; ; Boston, [Massachusetts] : , : De Gruyter, , 2017 |
Descrizione fisica | 1 online resource (422 pages) : illustrations |
Disciplina | 629.4113 |
Collana | De Gruyter Studies in Mathematical Physics |
Soggetto topico |
Orbital mechanics
Astrodynamics |
Soggetto genere / forma | Electronic books. |
ISBN |
3-11-055862-9
3-11-055912-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Frontmatter -- Foreword / Efroimsky, Michael -- Contents -- 1. Introduction. Current challenges in space exploration -- Part I: Regularization -- 2. Theoretical aspects of regularization -- 3. The Kustaanheimo-Stiefel space and the Hopf fibration -- 4. The Dromo formulation -- 5. Dedicated formulation: Propagating hyperbolic orbits -- 6. Evaluating the numerical performance -- Part II: Applications -- 7. The theory of asynchronous relative motion -- 8. Universal and regular solutions to relative motion -- 9. Generalized logarithmic spirals: A new analytic solution with continuous thrust -- 10. Lambert's problem with generalized logarithmic spirals -- 11. Low-thrust trajectory design with controlled generalized logarithmic spirals -- 12. Nonconservative extension of Keplerian integrals and new families of orbits -- 13. Conclusions -- Part III: Appendices -- A. Hypercomplex numbers -- B. Formulations in PERFORM -- C. Stumpff functions -- E. Elliptic integrals and elliptic functions -- F. Controlled generalized logarithmic spirals -- G. Dynamics in Seiffert's spherical spirals -- List of Figures -- Bibliography -- Index |
Record Nr. | UNINA-9910467321603321 |
Roa Javier (Javier Roa Vicens)
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Berlin, [Germany] ; ; Boston, [Massachusetts] : , : De Gruyter, , 2017 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Regularization in orbital mechanics : theory and practice / / Javier Roa |
Autore | Roa Javier (Javier Roa Vicens) |
Pubbl/distr/stampa | Berlin, [Germany] ; ; Boston, [Massachusetts] : , : De Gruyter, , 2017 |
Descrizione fisica | 1 online resource (422 pages) : illustrations |
Disciplina | 629.4113 |
Collana | De Gruyter Studies in Mathematical Physics |
Soggetto topico |
Orbital mechanics
Astrodynamics |
ISBN |
3-11-055862-9
3-11-055912-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Frontmatter -- Foreword / Efroimsky, Michael -- Contents -- 1. Introduction. Current challenges in space exploration -- Part I: Regularization -- 2. Theoretical aspects of regularization -- 3. The Kustaanheimo-Stiefel space and the Hopf fibration -- 4. The Dromo formulation -- 5. Dedicated formulation: Propagating hyperbolic orbits -- 6. Evaluating the numerical performance -- Part II: Applications -- 7. The theory of asynchronous relative motion -- 8. Universal and regular solutions to relative motion -- 9. Generalized logarithmic spirals: A new analytic solution with continuous thrust -- 10. Lambert's problem with generalized logarithmic spirals -- 11. Low-thrust trajectory design with controlled generalized logarithmic spirals -- 12. Nonconservative extension of Keplerian integrals and new families of orbits -- 13. Conclusions -- Part III: Appendices -- A. Hypercomplex numbers -- B. Formulations in PERFORM -- C. Stumpff functions -- E. Elliptic integrals and elliptic functions -- F. Controlled generalized logarithmic spirals -- G. Dynamics in Seiffert's spherical spirals -- List of Figures -- Bibliography -- Index |
Record Nr. | UNINA-9910796504903321 |
Roa Javier (Javier Roa Vicens)
![]() |
||
Berlin, [Germany] ; ; Boston, [Massachusetts] : , : De Gruyter, , 2017 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Regularization in orbital mechanics : theory and practice / / Javier Roa |
Autore | Roa Javier (Javier Roa Vicens) |
Pubbl/distr/stampa | Berlin, [Germany] ; ; Boston, [Massachusetts] : , : De Gruyter, , 2017 |
Descrizione fisica | 1 online resource (422 pages) : illustrations |
Disciplina | 629.4113 |
Collana | De Gruyter Studies in Mathematical Physics |
Soggetto topico |
Orbital mechanics
Astrodynamics |
ISBN |
3-11-055862-9
3-11-055912-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Frontmatter -- Foreword / Efroimsky, Michael -- Contents -- 1. Introduction. Current challenges in space exploration -- Part I: Regularization -- 2. Theoretical aspects of regularization -- 3. The Kustaanheimo-Stiefel space and the Hopf fibration -- 4. The Dromo formulation -- 5. Dedicated formulation: Propagating hyperbolic orbits -- 6. Evaluating the numerical performance -- Part II: Applications -- 7. The theory of asynchronous relative motion -- 8. Universal and regular solutions to relative motion -- 9. Generalized logarithmic spirals: A new analytic solution with continuous thrust -- 10. Lambert's problem with generalized logarithmic spirals -- 11. Low-thrust trajectory design with controlled generalized logarithmic spirals -- 12. Nonconservative extension of Keplerian integrals and new families of orbits -- 13. Conclusions -- Part III: Appendices -- A. Hypercomplex numbers -- B. Formulations in PERFORM -- C. Stumpff functions -- E. Elliptic integrals and elliptic functions -- F. Controlled generalized logarithmic spirals -- G. Dynamics in Seiffert's spherical spirals -- List of Figures -- Bibliography -- Index |
Record Nr. | UNINA-9910813284803321 |
Roa Javier (Javier Roa Vicens)
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||
Berlin, [Germany] ; ; Boston, [Massachusetts] : , : De Gruyter, , 2017 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|