This presentation describes the application of robotic and computer vision systems to validate docking and capture operations for space cargo transfer vehicles. Three applications are discussed: (1) air bearing systems in two dimensions that yield high quality free-flying, flexible, and contact dynamics; (2) validation of docking mechanisms with misalignment and target dynamics; and (3) computer vision technology for target location and real-time tracking. All the testbeds are supported by a network of engineering workstations for dynamic and controls analyses. Dynamic simulation of multibody rigid and elastic systems are performed with the TREETOPS code. MATRIXx/System-Build and PRO-MATLAB/Simulab are the tools for control design and analy...
Robotics in space has evolved in the past quarter century by a large extent enabling mankind to expl...
Orbital docking, inspection, and sevicing are operations which have the potential for capability enh...
In this paper we describe a new experimental facility at the School of Aerospace En-gineering at Geo...
Docking concepts include capture, berthing, and docking. The definitions of these terms, consistent ...
The Flight Robotics Laboratory of the Marshall Space Flight Center is described in detail. This faci...
A prototype docking mechanism for the Space Station was designed and fabricated for NASA. This docki...
Europe's first confrontation with docking in space will require extensive testing to verify design a...
Logicon Control Dynamics develops contact dynamics models for space-based docking and berthing vehic...
The Space Station/Space Operations Mechanism Test Bed consists of the following: a hydraulically dri...
The Flight Robotics Laboratory of MSFC provides sophisticated real time simulation capability in the...
This document will describe the technology developed at Kennedy Space Center (KSC) to demonstrate au...
In this paper, an analytical approach for studying the contact dynamics of space-based vehicles duri...
Two complementary hardware-in-the-loop simulation facilities for automatic rendezvous and capture sy...
Design and fabricate test hardware for NASA's George C. Marshall Space Flight Center (MSFC) are repo...
The NASA Johnson Space Center (JSC) is involved in the development of an autonomous docking ground d...
Robotics in space has evolved in the past quarter century by a large extent enabling mankind to expl...
Orbital docking, inspection, and sevicing are operations which have the potential for capability enh...
In this paper we describe a new experimental facility at the School of Aerospace En-gineering at Geo...
Docking concepts include capture, berthing, and docking. The definitions of these terms, consistent ...
The Flight Robotics Laboratory of the Marshall Space Flight Center is described in detail. This faci...
A prototype docking mechanism for the Space Station was designed and fabricated for NASA. This docki...
Europe's first confrontation with docking in space will require extensive testing to verify design a...
Logicon Control Dynamics develops contact dynamics models for space-based docking and berthing vehic...
The Space Station/Space Operations Mechanism Test Bed consists of the following: a hydraulically dri...
The Flight Robotics Laboratory of MSFC provides sophisticated real time simulation capability in the...
This document will describe the technology developed at Kennedy Space Center (KSC) to demonstrate au...
In this paper, an analytical approach for studying the contact dynamics of space-based vehicles duri...
Two complementary hardware-in-the-loop simulation facilities for automatic rendezvous and capture sy...
Design and fabricate test hardware for NASA's George C. Marshall Space Flight Center (MSFC) are repo...
The NASA Johnson Space Center (JSC) is involved in the development of an autonomous docking ground d...
Robotics in space has evolved in the past quarter century by a large extent enabling mankind to expl...
Orbital docking, inspection, and sevicing are operations which have the potential for capability enh...
In this paper we describe a new experimental facility at the School of Aerospace En-gineering at Geo...