Add to ORKGThe main goal of the Electrodynamic Tether technology for PAssive Consumable-less deorbit Kit (E.T.PACK) project is to develop a deorbit device based on an electrodynamic tether with TRL 4 by 2022. In September 2022, its continuation, i.e. the E.T.PACK-F project, will carry on with the activities of E.T.PACK to prepare a flight model with TRL 8 that will be tested in an in-orbit demonstration mission in 2025. This work (i) describes the attitude determination and control strategy of the mission, which is used as a means of explaining its different phases and the dynamics of each one of them, (ii) provides a description of the avionics elements of the whole system, (iii) describes some of the tests performed until this moment, and (iv) summa...
none4The need to limit the population of artificial debris in the near-Earth space motivates the dev...
Proceeding of: Sixth International Conference on Tethers in Space, Madrid, June 12-14, 2019The Elect...
The need to limit the population of artificial debris in near-Earth space motivates the development ...
The increasing number of man-made objects in near-earth space is becoming a serious problem for futu...
In Low Earth Orbit, it is possible to use the ambient plasma and the geomagnetic field to exchange m...
Low Earth Orbit (LEO) is an environment rich of natural resources. Earth magnetic field is used to c...
In the last decades, green deorbiting technologies have begun to be investigated and have raised a g...
This works presents a system level analysis of a Deorbit Kit (DK) based on electrodynamic tether tec...
A compact and low-cost architecture for the sensor and actuators of a deorbit device based on an ele...
Proceeding of: The Fifth International Conference on Tethers in Space, May 24-26, 2017, Ann Arbor, M...
An analytical comparison of four technologies for deorbiting spacecraft from Low-Earth-Orbit at end ...
In the last decade, the continuous and alarming growth of space debris prompted many space agencies ...
The present PhD research investigates the removal from orbit (i.e. deorbit) of inactive objects in h...
none4The need to limit the population of artificial debris in the near-Earth space motivates the dev...
Proceeding of: Sixth International Conference on Tethers in Space, Madrid, June 12-14, 2019The Elect...
The need to limit the population of artificial debris in near-Earth space motivates the development ...
The increasing number of man-made objects in near-earth space is becoming a serious problem for futu...
In Low Earth Orbit, it is possible to use the ambient plasma and the geomagnetic field to exchange m...
Low Earth Orbit (LEO) is an environment rich of natural resources. Earth magnetic field is used to c...
In the last decades, green deorbiting technologies have begun to be investigated and have raised a g...
This works presents a system level analysis of a Deorbit Kit (DK) based on electrodynamic tether tec...
A compact and low-cost architecture for the sensor and actuators of a deorbit device based on an ele...
Proceeding of: The Fifth International Conference on Tethers in Space, May 24-26, 2017, Ann Arbor, M...
An analytical comparison of four technologies for deorbiting spacecraft from Low-Earth-Orbit at end ...
In the last decade, the continuous and alarming growth of space debris prompted many space agencies ...
The present PhD research investigates the removal from orbit (i.e. deorbit) of inactive objects in h...
none4The need to limit the population of artificial debris in the near-Earth space motivates the dev...
Proceeding of: Sixth International Conference on Tethers in Space, Madrid, June 12-14, 2019The Elect...
The need to limit the population of artificial debris in near-Earth space motivates the development ...