The motion of a spacecraft traveling in the upper atmosphere is studied using the method of averaging. The individual and coupled effects of the two major disturbance forces, Earth oblateness and atmospheric drag, are studied. First and second order approximate solutions for the spacecraft orbital motions are presented. The Earth oblateness effect is found to have a major effect on the eccentricity and to produce an offset in the altitude of the unperturbed motion. For ballistic decay, the approximate solutions provide an accurate prediction of the lifetime of the spacecraft. The investigation in this paper utilizes an arbitrary density function that depends only upon altitude. For the oblateness/drag coupled problem, a novel approach is us...
The study of satellite relative motion has been of great historic interest, primarily due to its app...
The goal of the present work is to analyze space missions that use the terrestrial atmosphere to acc...
This paper investigates how the perturbations due to asymmetric solar radiation pressure, in presenc...
The motion of a spacecraft traveling in the upper atmosphere is studied using the method of averagin...
In the present paper, an averaging perturbation technique leads to the determination of a time-expli...
Abstract: Evaluation of space debris accumulation in the near-Earth space demands investig...
Abstract: Mathematical modeling of the unobservable fraction of space debris in the near-E...
The motion of a satellite in orbit, subject to atmospheric force and the motion of a reentry vehicle...
Although recent numerical studies have demonstrated the possibility to obtain entire families of bou...
The study of deorbiting systems is crucial, because near Earth space is becoming increasingly crowde...
In this paper, we derive the analytical solution of a satellite orbit disturbed by atmospheric drag....
By using observed values of dP/dt and a convenient model to represent the variable density (ρ) and t...
The influence of real satellite aerodynamics on the determination of upper atmospheric density was i...
Abstract: In this article we present a simple but elegant numerical calculation to study the motion ...
An analytical atmospheric density model, including solar activity effects, is applied to an analytic...
The study of satellite relative motion has been of great historic interest, primarily due to its app...
The goal of the present work is to analyze space missions that use the terrestrial atmosphere to acc...
This paper investigates how the perturbations due to asymmetric solar radiation pressure, in presenc...
The motion of a spacecraft traveling in the upper atmosphere is studied using the method of averagin...
In the present paper, an averaging perturbation technique leads to the determination of a time-expli...
Abstract: Evaluation of space debris accumulation in the near-Earth space demands investig...
Abstract: Mathematical modeling of the unobservable fraction of space debris in the near-E...
The motion of a satellite in orbit, subject to atmospheric force and the motion of a reentry vehicle...
Although recent numerical studies have demonstrated the possibility to obtain entire families of bou...
The study of deorbiting systems is crucial, because near Earth space is becoming increasingly crowde...
In this paper, we derive the analytical solution of a satellite orbit disturbed by atmospheric drag....
By using observed values of dP/dt and a convenient model to represent the variable density (ρ) and t...
The influence of real satellite aerodynamics on the determination of upper atmospheric density was i...
Abstract: In this article we present a simple but elegant numerical calculation to study the motion ...
An analytical atmospheric density model, including solar activity effects, is applied to an analytic...
The study of satellite relative motion has been of great historic interest, primarily due to its app...
The goal of the present work is to analyze space missions that use the terrestrial atmosphere to acc...
This paper investigates how the perturbations due to asymmetric solar radiation pressure, in presenc...
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