The goal of the research program is to develop a prototype of a satellite constellation consisting of four Nanosatelites flying in a formation, having on board a stereoscopic imaging experiment for the analysis of the Earth surface. A camera is on-board each of the four nanosatellites, and images of the Earth are taken from all the satellites at the same time. A space debris mitigation experiment is also scheduled, de-orbiting the launch adapter by an inflatable balloon. Use of recently developed and not yet space flight tested nanotechnology devices is a key point of the research program, in order to save weight and volume for the system. Each University Institution participating in the Project develops its own nanosatellite, according to ...
Nowadays, it is widely used the term Nanosatellite when we refer to those satellites whose mass are ...
In the last 25 years, TU Berlin developed, built, launched and operated a number of university class...
Using reconfigurable and adaptable networks of micro/nanosatellites to support cost-effective space ...
The goal of the research program is to develop a prototype of a satellite constellation consisting o...
Project objectives The proposed research is part of a national project (coordinated by the Universit...
Two nanosatellite missions that lay the groundwork for satellite formation flying are being realized...
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...
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...
Autonomous formation flight has long been studied as a means to provide high resolution sensing from...
Nano satellites are becoming more and more attractive even in planetary exploration. They have evide...
Using reconfigurable and adaptable networks of micro/nanosatellites to support cost-effective space ...
Montana State University\u27s interdisciplinary Space Science and Engineering Laboratory (SSEL) has ...
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Nowadays, it is widely used the term Nanosatellite when we refer to those satellites whose mass are ...
In the last 25 years, TU Berlin developed, built, launched and operated a number of university class...
Using reconfigurable and adaptable networks of micro/nanosatellites to support cost-effective space ...
The goal of the research program is to develop a prototype of a satellite constellation consisting o...
Project objectives The proposed research is part of a national project (coordinated by the Universit...
Two nanosatellite missions that lay the groundwork for satellite formation flying are being realized...
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...
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...
Autonomous formation flight has long been studied as a means to provide high resolution sensing from...
Nano satellites are becoming more and more attractive even in planetary exploration. They have evide...
Using reconfigurable and adaptable networks of micro/nanosatellites to support cost-effective space ...
Montana State University\u27s interdisciplinary Space Science and Engineering Laboratory (SSEL) has ...
Abstract. An initiative has been undertaken at the University of Colorado at Colorado Springs (CU-Co...
Nowadays, it is widely used the term Nanosatellite when we refer to those satellites whose mass are ...
In the last 25 years, TU Berlin developed, built, launched and operated a number of university class...
Using reconfigurable and adaptable networks of micro/nanosatellites to support cost-effective space ...