Add to ORKGAbstract: Evaluation of space debris accumulation in the near-Earth space demands investigations of time evolution of motions of a large set of space bodies with various orbits. A means of fast and precise calculation of a body orbit is needed for these investigations and the calculation must take into account the main disturbing factors: Earth oblateness, atmosphere drag, gravitation of Moon and Sun, solar radiaton pressure. The most abundant means of the orbit evolution study is an averaged system of differential equations for osculating orbital elements. We evaluate in this paper the accuracy of averaged systemsfor approximation of motion of real Earth satellites that move without any control and are similar in this relation to...
Abstract. A problem of relative motion of orbiting bodies is investigated on the example of the free...
International audienceThis paper aims at investigating the stability over 200 years of a very large ...
There has been a growing interest in spacecraft formation-flying for space science applications. Suc...
Abstract: Mathematical modeling of the unobservable fraction of space debris in the near-E...
The motion of a spacecraft traveling in the upper atmosphere is studied using the method of averagin...
Abstract: If we are interested in the problem of space debris in the near-earth region, we...
In the present paper, an averaging perturbation technique leads to the determination of a time-expli...
This book deals with the motion of the center of mass of a spacecraft; this discipline is generally ...
The trajectory analysis of a celestial object orbiting another body is the basis for all other, more...
The use of simple physical reasoning instead of the method of varying constants has made it possible...
The use of simple physical reasoning instead of the method of varying constants has made it possible...
The effects of a third-body travelling in a circular orbit around a main body on a massless satellit...
The relative motion problem is analyzed, as a linearized case, and as a numerically determined solut...
The objective of the present research is to study the accuracy of the double- and single-averaged mo...
Application of double-averaged equations of artificial satellite motion to lunar orbite
Abstract. A problem of relative motion of orbiting bodies is investigated on the example of the free...
International audienceThis paper aims at investigating the stability over 200 years of a very large ...
There has been a growing interest in spacecraft formation-flying for space science applications. Suc...
Abstract: Mathematical modeling of the unobservable fraction of space debris in the near-E...
The motion of a spacecraft traveling in the upper atmosphere is studied using the method of averagin...
Abstract: If we are interested in the problem of space debris in the near-earth region, we...
In the present paper, an averaging perturbation technique leads to the determination of a time-expli...
This book deals with the motion of the center of mass of a spacecraft; this discipline is generally ...
The trajectory analysis of a celestial object orbiting another body is the basis for all other, more...
The use of simple physical reasoning instead of the method of varying constants has made it possible...
The use of simple physical reasoning instead of the method of varying constants has made it possible...
The effects of a third-body travelling in a circular orbit around a main body on a massless satellit...
The relative motion problem is analyzed, as a linearized case, and as a numerically determined solut...
The objective of the present research is to study the accuracy of the double- and single-averaged mo...
Application of double-averaged equations of artificial satellite motion to lunar orbite
Abstract. A problem of relative motion of orbiting bodies is investigated on the example of the free...
International audienceThis paper aims at investigating the stability over 200 years of a very large ...
There has been a growing interest in spacecraft formation-flying for space science applications. Suc...