This paper presents an analysis of the performance of the existing 'Phase One' AR&C system developed at the C.S. Draper Laboratory for both the rendezvous and proximity operations mission phases. This material has been developed as a result of Draper Laboratory involvement through NASA's Johnson Space Center in the development of the flight proven IGN&C rendezvous systems for Apollo, Skylab, and Shuttle. The development of these systems using Draper computer simulations has required automation of all crew inputs to the IGN&C system and thus provided the unique opportunity to develop and test those system capabilities required for AR&C. This paper expands upon the material in the papers presented by the authors at the NASA Autonomous Rendezv...
Although the individual technologies for automated rendezvous and capture (AR&C) exist, they have no...
This paper will describe the technology development efforts NASA has underway for Automated Rendezvo...
The Phase One AR&C System Design integrates an evolutionary design based on the legacy of previous m...
This paper will discuss in detail the relative navigation system requirements and sensor trade-offs ...
This study was instituted to assist NASA and MSFC in the development of ground and flight options to...
An overview of the current NASA JSC capabilities and ongoing activities for the design, development,...
The NASA Johnson Space Center is actively pursuing the development and demonstration of capabilities...
The presentation addressed the different tradeoffs necessary to get an automated rendezvous and capt...
In November 1990 the Autonomous Rendezvous & Docking (AR&D) system was first demonstrated for member...
The United States does not have an Automated Rendezvous and Capture Docking (AR&C) capability and is...
The United States does not have an Automated Rendezvous and CaptureDocking (AR&C) capability and...
Autonomous rendezvous and capture (AR&C) is a critical space technology with significant application...
Automated Rendezvous and Capture (AR&C) is an important technology to multiple National Aeronautics ...
An overview of activities in the automatic rendezvous and docking area is presented. A representativ...
Two complementary hardware-in-the-loop simulation facilities for automatic rendezvous and capture sy...
Although the individual technologies for automated rendezvous and capture (AR&C) exist, they have no...
This paper will describe the technology development efforts NASA has underway for Automated Rendezvo...
The Phase One AR&C System Design integrates an evolutionary design based on the legacy of previous m...
This paper will discuss in detail the relative navigation system requirements and sensor trade-offs ...
This study was instituted to assist NASA and MSFC in the development of ground and flight options to...
An overview of the current NASA JSC capabilities and ongoing activities for the design, development,...
The NASA Johnson Space Center is actively pursuing the development and demonstration of capabilities...
The presentation addressed the different tradeoffs necessary to get an automated rendezvous and capt...
In November 1990 the Autonomous Rendezvous & Docking (AR&D) system was first demonstrated for member...
The United States does not have an Automated Rendezvous and Capture Docking (AR&C) capability and is...
The United States does not have an Automated Rendezvous and CaptureDocking (AR&C) capability and...
Autonomous rendezvous and capture (AR&C) is a critical space technology with significant application...
Automated Rendezvous and Capture (AR&C) is an important technology to multiple National Aeronautics ...
An overview of activities in the automatic rendezvous and docking area is presented. A representativ...
Two complementary hardware-in-the-loop simulation facilities for automatic rendezvous and capture sy...
Although the individual technologies for automated rendezvous and capture (AR&C) exist, they have no...
This paper will describe the technology development efforts NASA has underway for Automated Rendezvo...
The Phase One AR&C System Design integrates an evolutionary design based on the legacy of previous m...