We present our Intelligent Reconfigurable Integrated Satellite (IRIS) Processor. At the heart of the system are our reconfigurable vision chips which are capable of massively parallel analog processing. The smart vision chips are capable of not only centroiding and pattern recognition but also tracking and controlling devices including MEMs devices and active pixel arrays. In addition to discussing the active optic and active electronic devices, several small satellite system applications are presented along with experimental and simulation results
Cobham Gaisler, in collaboration with Ubotica Technologies, the National and Kapodistrian University...
Hagemeyer J, Hilgenstein A, Jungewelter D, et al. A Scalable Platform for Run-time Reconfigurable Sa...
The increasing demand for onboard calculation capability produces the necessity for high performance...
As the number of earth observation missions increases, and so does the number of images acquired by ...
Current state-of-the-art commercial star sensors typically weigh 15 pounds, attain 5 to 10 arcsecond...
We describe our Intelligent Star Tracker System. Our Intelligent Star Tracker System incorporates an...
An extremely compact, low-power instrument controller and data processor system has been developed f...
Upcoming robotic exploration missions are characterized by constantly increasing spacecraft autonomy...
Current and future space missions demand sophisticated on-board data processing functionalities, whi...
Anticipated major advances in integrated circuit technology in the near future are described as well...
Today we see the need for increased processing performance, driven by increased digitalization and n...
International Telemetering Conference Proceedings / October 13-16, 1986 / Riviera Hotel, Las Vegas, ...
The nature of on-board, satellite computing systems is evolving, from centralized to distributed sys...
GMV is in charge of developing the GNC subsystem of HERA mission, currently going through Phase C. A...
Sterpone L, Porrmann M, Hagemeyer J. A Novel Fault Tolerant and Runtime Reconfigurable Platform for ...
Cobham Gaisler, in collaboration with Ubotica Technologies, the National and Kapodistrian University...
Hagemeyer J, Hilgenstein A, Jungewelter D, et al. A Scalable Platform for Run-time Reconfigurable Sa...
The increasing demand for onboard calculation capability produces the necessity for high performance...
As the number of earth observation missions increases, and so does the number of images acquired by ...
Current state-of-the-art commercial star sensors typically weigh 15 pounds, attain 5 to 10 arcsecond...
We describe our Intelligent Star Tracker System. Our Intelligent Star Tracker System incorporates an...
An extremely compact, low-power instrument controller and data processor system has been developed f...
Upcoming robotic exploration missions are characterized by constantly increasing spacecraft autonomy...
Current and future space missions demand sophisticated on-board data processing functionalities, whi...
Anticipated major advances in integrated circuit technology in the near future are described as well...
Today we see the need for increased processing performance, driven by increased digitalization and n...
International Telemetering Conference Proceedings / October 13-16, 1986 / Riviera Hotel, Las Vegas, ...
The nature of on-board, satellite computing systems is evolving, from centralized to distributed sys...
GMV is in charge of developing the GNC subsystem of HERA mission, currently going through Phase C. A...
Sterpone L, Porrmann M, Hagemeyer J. A Novel Fault Tolerant and Runtime Reconfigurable Platform for ...
Cobham Gaisler, in collaboration with Ubotica Technologies, the National and Kapodistrian University...
Hagemeyer J, Hilgenstein A, Jungewelter D, et al. A Scalable Platform for Run-time Reconfigurable Sa...
The increasing demand for onboard calculation capability produces the necessity for high performance...