Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO and ESL2 to support ever increasing aperture sizes. Since such large apertures will not fit within a fairing, they must rely on robotic assembly/deployment. Proper assessment requires hardware-in-the-loop testing in a representative environment. Developing, testing, and flight qualifying the myriad of technologies needed to perform such a test is complex and expensive using conventional means. Therefore, the objective of the ALMOST program is to develop a methodology for hardware-in-the-loop assessment of in-space robotic assembly of a telescope under micro-gravity conditions in a more cost-effective and risk-tolerant manner. The approach uses...
Intelligent robots have revolutionised terrestrial assembly and servicing processes, while low-cost ...
There are many ways to explore the vastness of space, and since Galileo, humankind has used telesco...
We present a concept for an ISS-based optical system assembly demonstration designed to advance tech...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
Astrophysicists demand larger (mirror diameter > 10m) space optical telescopes to investigate more d...
Advances in our understanding of the universe have been enabled by ground and particularly by space-...
Space telescopes are our ‘eyes in the sky’ that enable unprecedented astronomy missions and also per...
The future of astronomy may rely on extremely large space telescopes in order to image Earth-sized e...
The EU project PULSAR (Prototype of an Ultra Large Structure Assembly Robot) carried out a feasibi...
The size of any single spacecraft is ultimately limited by the volume and mass constraints of curren...
In many types of space mission there is a constant desire for larger and larger instrument apertures...
With the advances in Robotics, Automation and Autonomous Systems (RAAS), the horizon of space explo...
This paper presents a feasibility study of robotically constructing a very large aperture optical sp...
We present a conceptual design for a scalable (10-50 meter segmented filled-aperture) space observat...
Intelligent robots have revolutionised terrestrial assembly and servicing processes, while low-cost ...
There are many ways to explore the vastness of space, and since Galileo, humankind has used telesco...
We present a concept for an ISS-based optical system assembly demonstration designed to advance tech...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
Astrophysicists demand larger (mirror diameter > 10m) space optical telescopes to investigate more d...
Advances in our understanding of the universe have been enabled by ground and particularly by space-...
Space telescopes are our ‘eyes in the sky’ that enable unprecedented astronomy missions and also per...
The future of astronomy may rely on extremely large space telescopes in order to image Earth-sized e...
The EU project PULSAR (Prototype of an Ultra Large Structure Assembly Robot) carried out a feasibi...
The size of any single spacecraft is ultimately limited by the volume and mass constraints of curren...
In many types of space mission there is a constant desire for larger and larger instrument apertures...
With the advances in Robotics, Automation and Autonomous Systems (RAAS), the horizon of space explo...
This paper presents a feasibility study of robotically constructing a very large aperture optical sp...
We present a conceptual design for a scalable (10-50 meter segmented filled-aperture) space observat...
Intelligent robots have revolutionised terrestrial assembly and servicing processes, while low-cost ...
There are many ways to explore the vastness of space, and since Galileo, humankind has used telesco...
We present a concept for an ISS-based optical system assembly demonstration designed to advance tech...