Session
Session 1: The Year in Review
Abstract
The RemoveDebris mission will be the first European Active Debris Removal (ADR) missions to give an in orbit demonstration of the viability of a series of cost effective technologies that can be used to observe, capture and destroy space debris. RemoveDebris is a low cost mission performing key active debris removal (ADR) technology demonstrations including the use of a net, a harpoon, vision-based navigation (VBN) and a dragsail in a realistic space operational environment. For the purposes of the mission two CubeSats will be ejected and used as targets for experiments instead of real space debris, which is an important step towards a fully operational ADR mission. The craft has launched to the ISS on the 2nd of April 2018, on board a Dragon capsule (SpaceX CRS-14 ISS re-supply mission). From here the satellite is to be deployed via the NanoRacks Kaber system into an orbit of around 400 km. Aglietti 2 32nd Annual AIAA/USU Conference on Small Satellites This paper examines the design of the mission from initial concepts through to manufacture, AIT, testing and up to launch, and apart from a general consideration of the mission, will focus on the elements of design & testing that differ from a conventional mission.
Remove Debris Mission, From Concept to Orbit
The RemoveDebris mission will be the first European Active Debris Removal (ADR) missions to give an in orbit demonstration of the viability of a series of cost effective technologies that can be used to observe, capture and destroy space debris. RemoveDebris is a low cost mission performing key active debris removal (ADR) technology demonstrations including the use of a net, a harpoon, vision-based navigation (VBN) and a dragsail in a realistic space operational environment. For the purposes of the mission two CubeSats will be ejected and used as targets for experiments instead of real space debris, which is an important step towards a fully operational ADR mission. The craft has launched to the ISS on the 2nd of April 2018, on board a Dragon capsule (SpaceX CRS-14 ISS re-supply mission). From here the satellite is to be deployed via the NanoRacks Kaber system into an orbit of around 400 km. Aglietti 2 32nd Annual AIAA/USU Conference on Small Satellites This paper examines the design of the mission from initial concepts through to manufacture, AIT, testing and up to launch, and apart from a general consideration of the mission, will focus on the elements of design & testing that differ from a conventional mission.