Modern society depends heavily on satellite infrastructure. However, Space becomes more and more congested by space debris from over 50 years of space activities. This growing threat in orbit must be monitored. The aim of the ESA GSTP activity "Optical In-Situ Monitor" is to design and test a breadboard of a space-based space debris camera and to develop and test its end-to-end processing chain. The on-board processing functions will focus on the payload image processing in order to reduce the data volume (image segmentation for streak detection). The suitable technologies for the processing units will be described: the HPDP, an ARM-Cortex R5F processor and Microsemi's RTG4 FPGA. For image processing, several algorithms were tested ex...
In order to enable the non-cooperative rendezvous, capture, and removal of large space debris, autom...
Currently, observations of space debris are primarily performed with ground-based sensors. These sen...
The space debris is a challenging problem for the human activity in the space. Observation campaigns...
Modern society depends heavily on satellite infrastructure. However, Space becomes more and more con...
Man-made space debris orbit around the Earth at many altitudes in different orbits and many laun...
The goals of the ESA project "Optical In-Situ Monitor" are to design and integrate a breadboard of a...
The space debris environment is one of the main issues in present and future space missions in Earth...
The aim of the ESA GSTP activity „Optical In-Situ Monitor“ is to design and test a br...
GMV is developing an experimental payload focused on the assessment of in-orbit satellite servicing ...
As part of the Phase-A feasibility study for a new Solar Mission, ADAHELI, financed by the Italian S...
The Difference Method algorithm is developed within the European Space Agency (ESA) ”Optical In-Situ...
In the last years, the increasing number of space debris has triggered the need of a distributed mon...
There are many advantages to supplementing ground based radar debris detection systems with optical ...
We are developing a passive optical system for the detection of space debris and the determination o...
The space debris represents a danger for operative satellites and human missions. A large amount of ...
In order to enable the non-cooperative rendezvous, capture, and removal of large space debris, autom...
Currently, observations of space debris are primarily performed with ground-based sensors. These sen...
The space debris is a challenging problem for the human activity in the space. Observation campaigns...
Modern society depends heavily on satellite infrastructure. However, Space becomes more and more con...
Man-made space debris orbit around the Earth at many altitudes in different orbits and many laun...
The goals of the ESA project "Optical In-Situ Monitor" are to design and integrate a breadboard of a...
The space debris environment is one of the main issues in present and future space missions in Earth...
The aim of the ESA GSTP activity „Optical In-Situ Monitor“ is to design and test a br...
GMV is developing an experimental payload focused on the assessment of in-orbit satellite servicing ...
As part of the Phase-A feasibility study for a new Solar Mission, ADAHELI, financed by the Italian S...
The Difference Method algorithm is developed within the European Space Agency (ESA) ”Optical In-Situ...
In the last years, the increasing number of space debris has triggered the need of a distributed mon...
There are many advantages to supplementing ground based radar debris detection systems with optical ...
We are developing a passive optical system for the detection of space debris and the determination o...
The space debris represents a danger for operative satellites and human missions. A large amount of ...
In order to enable the non-cooperative rendezvous, capture, and removal of large space debris, autom...
Currently, observations of space debris are primarily performed with ground-based sensors. These sen...
The space debris is a challenging problem for the human activity in the space. Observation campaigns...