Add to ORKGThis paper provides a realistic approach to remove end of life geostationary satellites and GEO orbital debris into geostationary orbit (GEO), using ground-based masers. This method can also be used to put spatial probes and spacecrafts in orbit of the Moon, and also in orbit of the planets of the solar system, launching these artifacts from an Earth orbit
For the investigation of the Earth's magnetosphere and the interplanetary space outside of it, satel...
abstract: Orbiting space debris is an active issue that affects the capability of space launch for f...
Nowadays, there are a lot of concepts aimed at space debris removal from the near-Earth orbits being...
The Inter-Agency Debris Committee recommendation for the reorbiting of geostationary satellites at t...
International audienceThe rising production rate of space debris poses an increasingly severe threat...
The complexity of the GNSS and the several types of satellites in the MEO region turns the creation ...
Due to its unique properties, the Geostationary Orbit (GEO) hosts one of the most relevant sectors o...
There are numerous satellite missions being launched from the Earth till today. Any launched satelli...
Over 250 objects hover within 6 m/sec of perfect geostationary orbit. Over half of these objects lie...
The orbits at geosynchronous altitude provide a valuable natural resource for the human kind. In the...
Abstract: The paper regards the problem of finding the optimal sequence of transfers betwe...
The complexity of the GNSS and the several types of satellites in the MEO region turns the creation ...
With the 1957 launch of Sputnik 1, humans placed the first artificial satellite into Earth orbit. Al...
Orbital debris is a serious concern for the NASA, DARPA, Air Force organizations and the commercial ...
Space debris in Earth's orbit poses a significant danger to satellites, humans in space, and future ...
For the investigation of the Earth's magnetosphere and the interplanetary space outside of it, satel...
abstract: Orbiting space debris is an active issue that affects the capability of space launch for f...
Nowadays, there are a lot of concepts aimed at space debris removal from the near-Earth orbits being...
The Inter-Agency Debris Committee recommendation for the reorbiting of geostationary satellites at t...
International audienceThe rising production rate of space debris poses an increasingly severe threat...
The complexity of the GNSS and the several types of satellites in the MEO region turns the creation ...
Due to its unique properties, the Geostationary Orbit (GEO) hosts one of the most relevant sectors o...
There are numerous satellite missions being launched from the Earth till today. Any launched satelli...
Over 250 objects hover within 6 m/sec of perfect geostationary orbit. Over half of these objects lie...
The orbits at geosynchronous altitude provide a valuable natural resource for the human kind. In the...
Abstract: The paper regards the problem of finding the optimal sequence of transfers betwe...
The complexity of the GNSS and the several types of satellites in the MEO region turns the creation ...
With the 1957 launch of Sputnik 1, humans placed the first artificial satellite into Earth orbit. Al...
Orbital debris is a serious concern for the NASA, DARPA, Air Force organizations and the commercial ...
Space debris in Earth's orbit poses a significant danger to satellites, humans in space, and future ...
For the investigation of the Earth's magnetosphere and the interplanetary space outside of it, satel...
abstract: Orbiting space debris is an active issue that affects the capability of space launch for f...
Nowadays, there are a lot of concepts aimed at space debris removal from the near-Earth orbits being...