Structure Preserving Approximations of Conservative Forces for Application to Small-Body Dynamics

Structure Preserving Approximations of Conservative Forces for Application to Small-Body Dynamics

Approximation-based methods, such as the cubetree algorithm, have proven to be significantly faster than traditional methods for complex force evaluations near small irregular bodies. Such methods also hold the promise of simplifying the inclusion of experimental data to update the force model. Howe...

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Veröffentlicht in:Journal of guidance, control, and dynamics control, and dynamics, 2009-11, Vol.32 (6), p.1847-1858
Hauptverfasser: Colombi, Andrew, Hirani, Anil N, Villac, Benjamin F
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Applied sciences
Approximation
Computer science
Computer science
control theory
systems
Control theory. Systems
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Methods
Ordinary differential equations
Physics
Simulation
Solid dynamics (ballistics, collision, multibody system, stabilization...)
Solid mechanics
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Zusammenfassung:Approximation-based methods, such as the cubetree algorithm, have proven to be significantly faster than traditional methods for complex force evaluations near small irregular bodies. Such methods also hold the promise of simplifying the inclusion of experimental data to update the force model. However, the cubetree algorithm does not preserve intrinsic properties of the gravitational force such as continuity, divergence freedom, or exactness. These properties may be needed for trajectory optimization, for the use of geometric (e.g., symplectic) integrators for long-term propagation, and for other trajectory design problems. This paper presents several adaptive schemes preserving global continuity, exactness, or divergence freedom, and discusses the difficulties involved in preserving all of these properties globally. [PUBLISHER ABSTRACT]
ISSN:0731-5090
1533-3884
DOI:10.2514/1.42067