Add to ORKGCANYVAL-X is a technology demonstration CubeSat mission with a primary objective of validating technologies that allow two spacecraft to fly in formation along an inertial line-of-sight (i.e., align two spacecraft to an inertial source). Demonstration of precision dual-spacecraft alignment achieving fine angular precision enables a variety of cutting-edge heliophysics and astrophysics science
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Future space telescopes with diameter over 20 m will require new approaches: either high-precision f...
Surrey Satellite Technology Ltd and the University of Surrey have a long history of demonstrating ne...
The CubeSat Astronomy NASA and Yonsei using Virtual telescope ALignment for Coronagraph (CANYVAL-C) ...
Many science investigations proposed by GSFC require two spacecraft alignment across a long distance...
Many proposed formation flying missions seek to advance the state of the art in spacecraft science i...
In the fall of 2016, the NASA Science Mission Directorate, working with the Virginia Space Grant Con...
A presentation on the current status Educational Launch of Nano-Satellites and mission beyond low ea...
Future space telescopes with diameter over 20 m will require new approaches: either high-precision f...
The George Washington University’s proposed satellite mission, GW-Sat, was one of the 34 missions se...
The National Aeronautics and Space Administration (NASA) recognizes the tremendous potential that Cu...
In the past two decades, a silent revolution has taken place in the space domain, leading to what to...
This paper investigates a novel approach for attitude control of 2 satellites acting as a virtual te...
Northrop Grumman Corporation, in partnership with Applied Minds Incorporated (AMI) and the Universit...
Nanosatellites, i.e. spacecraft that weigh between 1 and 10 kg, are drawing increasing interest as p...
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Future space telescopes with diameter over 20 m will require new approaches: either high-precision f...
Surrey Satellite Technology Ltd and the University of Surrey have a long history of demonstrating ne...
The CubeSat Astronomy NASA and Yonsei using Virtual telescope ALignment for Coronagraph (CANYVAL-C) ...
Many science investigations proposed by GSFC require two spacecraft alignment across a long distance...
Many proposed formation flying missions seek to advance the state of the art in spacecraft science i...
In the fall of 2016, the NASA Science Mission Directorate, working with the Virginia Space Grant Con...
A presentation on the current status Educational Launch of Nano-Satellites and mission beyond low ea...
Future space telescopes with diameter over 20 m will require new approaches: either high-precision f...
The George Washington University’s proposed satellite mission, GW-Sat, was one of the 34 missions se...
The National Aeronautics and Space Administration (NASA) recognizes the tremendous potential that Cu...
In the past two decades, a silent revolution has taken place in the space domain, leading to what to...
This paper investigates a novel approach for attitude control of 2 satellites acting as a virtual te...
Northrop Grumman Corporation, in partnership with Applied Minds Incorporated (AMI) and the Universit...
Nanosatellites, i.e. spacecraft that weigh between 1 and 10 kg, are drawing increasing interest as p...
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Future space telescopes with diameter over 20 m will require new approaches: either high-precision f...
Surrey Satellite Technology Ltd and the University of Surrey have a long history of demonstrating ne...