PULSAR: Testing the Technologies for On-Orbit Assembly of a Large Telescope

The EU project PULSAR (Prototype of an Ultra Large Structure Assembly Robot) carried out a feasibility analysis for a potential mission that could demonstrate robotic technology for autonomous assembly of a large space telescope. The project performed the analysis using two hardware demonstrators, one devoted to show the assembly of five segmented mirror tiles using a robotic manipulator, and another one showing extended mobility for assembling a large structure in low gravity conditions. The hardware demonstrators were complemented with a simulation analysis to demonstrate the operation of a fully integrated system and to address the challenges especially in the field of attitude and orbital control. The techniques developed in the project support the path toward In-Space Servicing, Assembly and Manufacturing (ISAM)

A modular framework for model-based visual tracking using edge, texture and depth features

International audienceWe present in this paper a modular real-time model-based visual tracker. It is able to fuse different types of measurement, that is, edge points, textured points, and depth map, provided by one or multiple vision sensors. A confidence index is also proposed for determining if the outputs of the tracker are reliable or not. As expected, experimental results show that the more various measurements are combined, the more accurate and robust is the tracker. The corresponding C++ source code is available for the community in the ViSP library