Add to ORKGLunar IceCube is a 6U CubeSat that is designed to detect and observe lunar volatiles from a highly inclined orbit. This spacecraft, equipped with a low-thrust engine, will be deployed from the upcoming Exploration Mission-1 vehicle in late 2018. However, significant uncertainty in the deployment conditions for secondary payloads impacts both the availability and geometry of transfers that deliver the spacecraft to the lunar vicinity. A framework that leverages dynamical systems techniques is applied to a recently updated set of deployment conditions and spacecraft parameter values for the Lunar IceCube mission, demonstrating the capability for rapid trajectory design
In this paper, a practical approach to trajectory design for asteroid exploration missions with Cube...
Innovative trajectory design tools are required to support challenging multi-body regimes with compl...
Low-energy transfers utilizing multi-body dynamics show great promise for future space exploration; ...
Lunar IceCube is a 6U CubeSat that is designed to detect and observe lunar volatiles from a highly i...
Lunar IceCube, a 6U CubeSat, will prospect for water and other volatiles from a low-periapsis, highl...
The challenges of targeting specific lunar science orbit parameters from a concomitant Sun-Earth/Moo...
Numerous Earth-Moon trajectory and lunar orbit options are available for Cubesat missions. Given the...
The upcoming Lunar IceCube (LIC) mission will deliver a 6U CubeSat to a low lunar orbit via a ride-s...
This paper presents the trajectory design for EQUilibriUm Lunar-Earth point 6U Spacecraft (EQUULEUS)...
As cislunar and outer space exploration regains worldwide popularity, the low-thrust spacecraft tech...
In this paper, a practical approach to the trajectory design for asteroid exploration missions with ...
We have evaluated the application of the CubeSat Paradigm for deep space exploration, often referred...
Spacecraft trajectory design is evolving and innovation is increasingly driven by computational meth...
Multi-body systems have become the target of an increasing number of mission concepts and observatio...
A conceptual design was performed for a 6-U cubesat for a technology demonstration to be launched on...
In this paper, a practical approach to trajectory design for asteroid exploration missions with Cube...
Innovative trajectory design tools are required to support challenging multi-body regimes with compl...
Low-energy transfers utilizing multi-body dynamics show great promise for future space exploration; ...
Lunar IceCube is a 6U CubeSat that is designed to detect and observe lunar volatiles from a highly i...
Lunar IceCube, a 6U CubeSat, will prospect for water and other volatiles from a low-periapsis, highl...
The challenges of targeting specific lunar science orbit parameters from a concomitant Sun-Earth/Moo...
Numerous Earth-Moon trajectory and lunar orbit options are available for Cubesat missions. Given the...
The upcoming Lunar IceCube (LIC) mission will deliver a 6U CubeSat to a low lunar orbit via a ride-s...
This paper presents the trajectory design for EQUilibriUm Lunar-Earth point 6U Spacecraft (EQUULEUS)...
As cislunar and outer space exploration regains worldwide popularity, the low-thrust spacecraft tech...
In this paper, a practical approach to the trajectory design for asteroid exploration missions with ...
We have evaluated the application of the CubeSat Paradigm for deep space exploration, often referred...
Spacecraft trajectory design is evolving and innovation is increasingly driven by computational meth...
Multi-body systems have become the target of an increasing number of mission concepts and observatio...
A conceptual design was performed for a 6-U cubesat for a technology demonstration to be launched on...
In this paper, a practical approach to trajectory design for asteroid exploration missions with Cube...
Innovative trajectory design tools are required to support challenging multi-body regimes with compl...
Low-energy transfers utilizing multi-body dynamics show great promise for future space exploration; ...