Since the launch of the first artificial satellite in October 1957, both satellite computers and their onboard software have changed significantly to integrate more functionalities and making mission operations more reliable. As a result, satellites have become more sophisticated and mission designers have moved functionality from the ground segment to the satellite onboard computers to make them more autonomous. In fact, a larger number of satellite components are adopting the use of embedded computers to improve their performance and increasing subsystems miniaturization. This can be seen by the growth in the number of small satellite missions ranging from 1 kg to 100 kg of mass launched during the past 10 years.Space Engineerin
AbstractMultiple, highly autonomous, satellite systems are envisioned in the near future because the...
An Autonomous Science Agent is currently flying onboard the Earth Observing One Spacecraft. This sof...
For a species to develop in nature, two basically two things are needed: an enabling technology and ...
Since the launch of the first artificial satellite in October 1957, both satellite computers and the...
149 p.Traditionally, satellite missions are operated with a lot of interaction with the ground stati...
Developing newer satellite missions faces increased onboard software complexity. Next generations of...
Space and satellite systems are considered to be the most extreme environment to design for and are ...
Low-cost satellites continue to grow in popularity and capability, but have shown poor on-orbit perf...
To operate the majority of today’s satellites is costly and manpower intensive. In order to reduce c...
This paper describes an agent platform based on the Foundation for Intelligent Physical Systems Abst...
Between 1989 and 1995, 10 micro satellites were constructed using SSTL\u27 s 50 kg modular micro sat...
While small, low-cost satellites continue to increase in capability and popularity, their reliabilit...
Space mission engineering has always been recognized as a very challenging and innovative branch of ...
A new class of low-cost satellites has the potential to reduce the cost of traditional space-based s...
The increasing complexity of future satellite missions requires adequately powerful on- board comput...
AbstractMultiple, highly autonomous, satellite systems are envisioned in the near future because the...
An Autonomous Science Agent is currently flying onboard the Earth Observing One Spacecraft. This sof...
For a species to develop in nature, two basically two things are needed: an enabling technology and ...
Since the launch of the first artificial satellite in October 1957, both satellite computers and the...
149 p.Traditionally, satellite missions are operated with a lot of interaction with the ground stati...
Developing newer satellite missions faces increased onboard software complexity. Next generations of...
Space and satellite systems are considered to be the most extreme environment to design for and are ...
Low-cost satellites continue to grow in popularity and capability, but have shown poor on-orbit perf...
To operate the majority of today’s satellites is costly and manpower intensive. In order to reduce c...
This paper describes an agent platform based on the Foundation for Intelligent Physical Systems Abst...
Between 1989 and 1995, 10 micro satellites were constructed using SSTL\u27 s 50 kg modular micro sat...
While small, low-cost satellites continue to increase in capability and popularity, their reliabilit...
Space mission engineering has always been recognized as a very challenging and innovative branch of ...
A new class of low-cost satellites has the potential to reduce the cost of traditional space-based s...
The increasing complexity of future satellite missions requires adequately powerful on- board comput...
AbstractMultiple, highly autonomous, satellite systems are envisioned in the near future because the...
An Autonomous Science Agent is currently flying onboard the Earth Observing One Spacecraft. This sof...
For a species to develop in nature, two basically two things are needed: an enabling technology and ...