Title :
A survivable avionics system for space applications
Author :
Urban, Gerd ; Kolinowitz, Hans-Joachim ; Peleska, Jan
Author_Institution :
Daimler-Benz Aerosp., Bremen, Germany
Abstract :
This paper describes an advanced survivable avionics system for future manned or unmanned space missions. The basic element of such an avionics system is a Byzantine fault tolerant computer (FTC), which has already been developed at DASA-RI for operation in the Russian segment of the International Space Station Alpha (ISSA). The paper outlines the essential design elements of the FTC, especially the efficient realisation of the Byzantine protocol within the constraints of technical risk and cost. We describe a quadruplex redundant MIL 1553 bus system with a synchronised packet protocol as communication medium between the FTC and the peripheral sensors and actuators. To illustrate the generic approach applied in the FTC design this paper also describes a fault tolerant Propulsion Drive Electronic (PDE) as a redundant actuator subsystem. The PDE will be equipped with basic communication and control elements re-using the FTC design.
Keywords :
aerospace computing; fault tolerant computing; safety-critical software; space vehicles; special purpose computers; transport protocols; Byzantine fault tolerant computer; Byzantine protocol; communication medium; fault tolerant Propulsion Drive Electronic; quadruplex redundant MIL 1553 bus system; redundant actuator subsystem; space applications; space missions; survivable avionics system; synchronised packet protocol; Actuators; Aerospace electronics; Application software; Costs; Fault tolerant systems; International Space Station; Protocols; Sensor phenomena and characterization; Sensor systems; Space missions;
Conference_Titel :
Fault-Tolerant Computing, 1998. Digest of Papers. Twenty-Eighth Annual International Symposium on
Conference_Location :
Munich, Germany
Print_ISBN :
0-8186-8470-4
DOI :
10.1109/FTCS.1998.689488
