Title :
Fault tolerant integrated inertial navigation/global positioning systems for next generation spacecraft
Author :
Miller, Hugh ; Hilts, David A.
Author_Institution :
Honeywell Space & Strategic Syst. Oper., Clearwater, FL, USA
Abstract :
The authors address the requirements, benefits, and mitigation of risks to adapt a commercial Hexad fault-tolerant inertial navigation/global positioning system (FT IN/GPS) for use in next-generation spacecraft. Next-generation requirements are examined to determine whether a high production base system can meet autonomous, reliable, and low-cost requirements for future spacecraft. The major benefits are the combining and replacement of functions, the reduction of unscheduled maintenance and operations costs, and a higher probability of mission success. The design, development, and production risks are mitigated by the long-term commercial production schedule for the Boeing 777 air data inertial reference unit (ADIRU) which begins in the mid-1990s. The conclusion is that a strapdown ring laser gyro (RLG) Hexad FT IN/GPS is the preferred integrated navigation and control system for next-generation vehicles
Keywords :
aerospace computer control; aerospace instrumentation; computerised navigation; fault tolerant computing; gyroscopes; inertial navigation; maintenance engineering; radionavigation; redundancy; reliability; satellite relay systems; Boeing 777 air data inertial reference unit; GPS; Hexad fault-tolerant inertial navigation/global positioning system; costs; integrated navigation and control; maintenance; mission success; probability; production risks; radionavigation; spacecraft; strapdown ring laser gyro; Cost function; Fault tolerance; Fault tolerant systems; Global Positioning System; Inertial navigation; Maintenance; Optical control; Production systems; Ring lasers; Space vehicles;
Conference_Titel :
Digital Avionics Systems Conference, 1991. Proceedings., IEEE/AIAA 10th
Conference_Location :
Los Angeles, CA
DOI :
10.1109/DASC.1991.177168
