The KAM Theory was developed in the 1960s but only in the last decade has it been applied to Earth orbiting satellites. Physical state variables of position and velocity are transformed into KAM Torus variables. The KAM Torus is a geometrical structure similar to that of a multi-dimensional donut. The Earth satellite\u27s motion can be described as traversing the surface of this donut. There are two primary advantages of this transformation: (1) The new generalized coordinates which are analogous with mean anomaly, right ascension of the ascending node, and argument of perigee, increment linearly with time, and (2) Perturbations due to the Earth\u27s geopotential are already embedded in a given torus to an arbitrary geopotential order. This...
A new method for orbit prediction, which is as accurate as numerical methods and as fast as analytic...
Abstract. We are currently developing an analytical theory of an artificial satellite of the Moon. I...
Typescript.Thesis (Ph. D.)--University of Hawaii, 1967.Bibliography: leaves [91]-103.ix, 103 l illus...
An orbit that lies on a Kolmogorov, Arnold, and Moser (KAM) Torus will remain on that torus until an...
This paper uses KAM torus theory and Simplified General Perturbations 4 (SGP4) orbit prediction tech...
This research applies KAM theory to highly eccentric orbits for earth orbiting satellites by using s...
The Kolmogorov Arnold and Moser (KAM) theorem states that a lightly perturbed Hamiltonian system wil...
This research uses the KAM theory that has been refined by Wiesel to show that Earth-satellites dyna...
Kolmogorov, Arnold and Moser (KAM) theory provides that orbits of satellites whose dynamics are repr...
The problem of Earth satellite constellation and formation flight is investigated in the context of ...
Abstract: The motion of an artificial Earth satellite is continually under varying perturbations cau...
Problems relating to the influence of lunar and solar perturbations on the motion of artificial sate...
The Kolmogorov Arnold and Moser (KAM) theorem states that a lightly perturbed Hamiltonian system wil...
Kolmogorov-Arnold-Moser (KAM) Theory states that a lightly perturbed, conservative, dynamical system...
Lunar and solar perturbations in motion of artificial satellite due to fourth degree Legendre polyno...
A new method for orbit prediction, which is as accurate as numerical methods and as fast as analytic...
Abstract. We are currently developing an analytical theory of an artificial satellite of the Moon. I...
Typescript.Thesis (Ph. D.)--University of Hawaii, 1967.Bibliography: leaves [91]-103.ix, 103 l illus...
An orbit that lies on a Kolmogorov, Arnold, and Moser (KAM) Torus will remain on that torus until an...
This paper uses KAM torus theory and Simplified General Perturbations 4 (SGP4) orbit prediction tech...
This research applies KAM theory to highly eccentric orbits for earth orbiting satellites by using s...
The Kolmogorov Arnold and Moser (KAM) theorem states that a lightly perturbed Hamiltonian system wil...
This research uses the KAM theory that has been refined by Wiesel to show that Earth-satellites dyna...
Kolmogorov, Arnold and Moser (KAM) theory provides that orbits of satellites whose dynamics are repr...
The problem of Earth satellite constellation and formation flight is investigated in the context of ...
Abstract: The motion of an artificial Earth satellite is continually under varying perturbations cau...
Problems relating to the influence of lunar and solar perturbations on the motion of artificial sate...
The Kolmogorov Arnold and Moser (KAM) theorem states that a lightly perturbed Hamiltonian system wil...
Kolmogorov-Arnold-Moser (KAM) Theory states that a lightly perturbed, conservative, dynamical system...
Lunar and solar perturbations in motion of artificial satellite due to fourth degree Legendre polyno...
A new method for orbit prediction, which is as accurate as numerical methods and as fast as analytic...
Abstract. We are currently developing an analytical theory of an artificial satellite of the Moon. I...
Typescript.Thesis (Ph. D.)--University of Hawaii, 1967.Bibliography: leaves [91]-103.ix, 103 l illus...