The avionics system for the Centaur upper stage is in the process of being modernized with the current state-of-the-art in strapdown inertial guidance equipment. This equipment includes an integrated flight control processor with a ring laser gyro based inertial guidance system. This inertial navigation unit (INU) uses two MIL-STD-1750A processors and communicates over the MIL-STD-1553B data bus. Commands are translated into load activation through a Remote Control Unit (RCU) which incorporates the use of solid state relays. Also, a programmable data acquisition system replaces separate multiplexer and signal conditioning units. This modern avionics suite is currently being enhanced through independent research and development programs to provide autonomous rendezvous and docking capability using advanced cruise missile image processing technology and integrated GPS navigational aids. A system concept was developed to combine these technologies in order to achieve a fully autonomous rendezvous, docking, and autoland capability. The current system architecture and the evolution of this architecture using advanced modular avionics concepts being pursued for the National Launch System are discussed.
Integrated Autonomous Rendezvous and Docking System Architecture Using Centaur Modern Avionics
1991
2 pages
Report
No indication
English
Astronautics , Spacecraft Trajectories & Flight Mechanics , Avionics , Navigation Systems , Centaur launch vehicle , Global positioning system , Navigation aids , Orbital rendezvous , Spacecraft docking , Strapdown inertial guidance , Architecture (Computers) , Flight control , Image processing , Inertial navigation , Remote control
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