Add to ORKGThis paper summarises a design study undertaken as a final year project for the author’s B.Eng in Aerospace Systems Engineering. A spacecraft design is outlined for a vehicle to perform a rendezvous with a near earth asteroid after being launched as a secondary payload into Geosynchronous Transfer Orbit. The 380 kg (dry) spacecraft would use a bipropellant chemical propulsion system to manoeuvre in, and escape from Earth orbit. Interplanetary maneuvering would be accomplished with an ion propulsion system
The Canadian Robotic Asteroid Flyby and (Tentatively) Impact project (CRAFTI) proposes to accomplish...
Asteroid retrieval missions have recently attracted increasing interest from the community and could...
This paper describes the results of a study into the feasibility of identifying, robotically capturi...
In 2010, NASA announced that its new vision is to support private space launch operations. It is ant...
The Johns Hopkins University Applied Physics Laboratory recently completed a pre-Phase A study to de...
This paper describes a mission proposed by the B612 Foundation to demonstrate the feasibility of doc...
This paper analyzes the feasibility of insertion of a 1000-metric ton asteroid into an Earth-Mars cy...
It has become increasingly apparent that designers of today\u27s large and complex spacecraft are re...
In simple terms, an asteroid retrieval mission envisages a spacecraft that rendezvous with an astero...
There is considerable interest in expanding the applicability of cubesat spacecraft into lightweight...
This paper presents the overall design of a small reusable spacecraft capable of ying to an asteroid...
The near-Earth object population, composed mostly of asteroids rather than comets, poses an impact h...
In situ resource utilization (ISRU) in general, and asteroid mining in particular are ideas that hav...
In situ resource utilization (ISRU) in general, and asteroid mining in particular are ideas that hav...
Eros (433), the largest of the known close approach asteroids, will pass within 0.15 AU of the Earth...
The Canadian Robotic Asteroid Flyby and (Tentatively) Impact project (CRAFTI) proposes to accomplish...
Asteroid retrieval missions have recently attracted increasing interest from the community and could...
This paper describes the results of a study into the feasibility of identifying, robotically capturi...
In 2010, NASA announced that its new vision is to support private space launch operations. It is ant...
The Johns Hopkins University Applied Physics Laboratory recently completed a pre-Phase A study to de...
This paper describes a mission proposed by the B612 Foundation to demonstrate the feasibility of doc...
This paper analyzes the feasibility of insertion of a 1000-metric ton asteroid into an Earth-Mars cy...
It has become increasingly apparent that designers of today\u27s large and complex spacecraft are re...
In simple terms, an asteroid retrieval mission envisages a spacecraft that rendezvous with an astero...
There is considerable interest in expanding the applicability of cubesat spacecraft into lightweight...
This paper presents the overall design of a small reusable spacecraft capable of ying to an asteroid...
The near-Earth object population, composed mostly of asteroids rather than comets, poses an impact h...
In situ resource utilization (ISRU) in general, and asteroid mining in particular are ideas that hav...
In situ resource utilization (ISRU) in general, and asteroid mining in particular are ideas that hav...
Eros (433), the largest of the known close approach asteroids, will pass within 0.15 AU of the Earth...
The Canadian Robotic Asteroid Flyby and (Tentatively) Impact project (CRAFTI) proposes to accomplish...
Asteroid retrieval missions have recently attracted increasing interest from the community and could...
This paper describes the results of a study into the feasibility of identifying, robotically capturi...