The NanoSat constellation concept mission proposes simultaneous operation of multiple swarms of as many as 22 identical 10 kg spacecraft per swarm. The various orbits in a NanoSat swarm vary from 3x12 to 3x42 R(sub e) in geometry. In this report the unique flight dynamics issues of this constellation satellite mission design are addressed. Studies include orbit design, orbit determination, and error analysis. A preliminary survey determined the orbital parameters that would limit the maximum shadow condition while providing adequate ground station access for three ground stations
With the advent of micro-satellites and nano-satellites, many have begun to study the unique attribu...
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Nano satellites are becoming more and more attractive even in planetary exploration. They have evide...
Recently, there has been an increased interest in using nanosatellites in space science missions due...
Nanosatellites flying in formation vastly increase the capability of small satellite missions. The...
Small satellites are enabling multisatellite missions that were not otherwise possible because of th...
The scientific understanding of key physical processes between the Sun and Earth require simultaneou...
Nano-satellites are small (less than 10 kg) and low cost satellites of which quite a number has been...
CubeSat reliability is still considered an obstacle due to the sizeable fail rates generally attribu...
Constellation Pathfinder will demonstrate the feasibility of fabricating and launching three I-kg sa...
With the ever-increasing capabilities of the smallest remote sensing satellites, a serious bottlenec...
Design, implementation and operation of constellations using Smallsats are discussed. Due to the mod...
Recent nanosatellite programs and studies of nanosatellites for operational missions have highlighte...
International audienceThe NanoMagSat project aims to deploy and operate a new constellation concept ...
The goal of the research program is to develop a prototype of a satellite constellation consisting o...
With the advent of micro-satellites and nano-satellites, many have begun to study the unique attribu...
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Nano satellites are becoming more and more attractive even in planetary exploration. They have evide...
Recently, there has been an increased interest in using nanosatellites in space science missions due...
Nanosatellites flying in formation vastly increase the capability of small satellite missions. The...
Small satellites are enabling multisatellite missions that were not otherwise possible because of th...
The scientific understanding of key physical processes between the Sun and Earth require simultaneou...
Nano-satellites are small (less than 10 kg) and low cost satellites of which quite a number has been...
CubeSat reliability is still considered an obstacle due to the sizeable fail rates generally attribu...
Constellation Pathfinder will demonstrate the feasibility of fabricating and launching three I-kg sa...
With the ever-increasing capabilities of the smallest remote sensing satellites, a serious bottlenec...
Design, implementation and operation of constellations using Smallsats are discussed. Due to the mod...
Recent nanosatellite programs and studies of nanosatellites for operational missions have highlighte...
International audienceThe NanoMagSat project aims to deploy and operate a new constellation concept ...
The goal of the research program is to develop a prototype of a satellite constellation consisting o...
With the advent of micro-satellites and nano-satellites, many have begun to study the unique attribu...
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Nano satellites are becoming more and more attractive even in planetary exploration. They have evide...