Add to ORKGThis paper introduces a trajectory design for a secondary spacecraft concept to augment science return in interplanetary missions. The concept consist of a single-string probe with a kinetic impactor on board that generates an artificial plume to perform in-situ sampling. The trajectory design was applied to a particular case study that samples ejecta particles from the Jovian moon Europa. Results were validated using statistical analysis. Details regarding the navigation, targeting and disposal challenges related to this concept are presented herein
We propose the system design of a small orbiter of the Jovian moon Europa (Europa Tomography Probe, ...
Trajectory design, given the current level of propulsive technology, requires knowledge of orbital m...
The Double Asteroid Redirection Test (DART) mission will be the first to test the concept of a kinet...
The objective of this work is the preliminary design of a low-DV transfer from an initial elliptical...
We present a study of an impacting descent probe that increases the science return of spacecraft orb...
In simple terms, an asteroid retrieval mission envisages a spacecraft that rendezvous with an astero...
This paper presents mission performance analysis methods and results for the Asteroid Robotic Redire...
There exist several classes of high energy trajectories that are injected from Earth centered orbits...
This work presents a mission concept for in-orbit particle collection for sampling and exploration m...
This work describes a methodology to design sample return missions and rendezvous trajectories optio...
In simple terms, an asteroid retrieval mission envisages a spacecraft that rendezvous with an astero...
The Canadian Robotic Asteroid Flyby and (Tentatively) Impact project (CRAFTI) proposes to accomplish...
The search for life in other celestial bodies has always been a topic of great interest within the s...
This paper summarises a design study undertaken as a final year project for the author’s B.Eng in Ae...
Europa is one of the most scientifically intriguing targets in planetary science due to its potentia...
We propose the system design of a small orbiter of the Jovian moon Europa (Europa Tomography Probe, ...
Trajectory design, given the current level of propulsive technology, requires knowledge of orbital m...
The Double Asteroid Redirection Test (DART) mission will be the first to test the concept of a kinet...
The objective of this work is the preliminary design of a low-DV transfer from an initial elliptical...
We present a study of an impacting descent probe that increases the science return of spacecraft orb...
In simple terms, an asteroid retrieval mission envisages a spacecraft that rendezvous with an astero...
This paper presents mission performance analysis methods and results for the Asteroid Robotic Redire...
There exist several classes of high energy trajectories that are injected from Earth centered orbits...
This work presents a mission concept for in-orbit particle collection for sampling and exploration m...
This work describes a methodology to design sample return missions and rendezvous trajectories optio...
In simple terms, an asteroid retrieval mission envisages a spacecraft that rendezvous with an astero...
The Canadian Robotic Asteroid Flyby and (Tentatively) Impact project (CRAFTI) proposes to accomplish...
The search for life in other celestial bodies has always been a topic of great interest within the s...
This paper summarises a design study undertaken as a final year project for the author’s B.Eng in Ae...
Europa is one of the most scientifically intriguing targets in planetary science due to its potentia...
We propose the system design of a small orbiter of the Jovian moon Europa (Europa Tomography Probe, ...
Trajectory design, given the current level of propulsive technology, requires knowledge of orbital m...
The Double Asteroid Redirection Test (DART) mission will be the first to test the concept of a kinet...