Title :
Avionics architecture for performing fire control research in AH-64 aircraft
Author :
Osder, Stephen ; Mossman, David
Author_Institution :
McDonnell Douglas Helicopter Co., Mesa, AZ, USA
Abstract :
It is shown how the avionics architecture principle of distributed processing can be exploited to permit extensive research, with rapid software changes, in a saturated software environment. Specifically, it is shown how part of the newly developed Apache C/D distributed avionics architecture was added to a standard Apache A system with its inflexible centralized computer. Adding the weapon processing part of the Apache C/D architecture allowed the decoupling of the existing fire control tasks, and created an R&D environment for testing new technology associated with improving lethality of the Apache weapon systems. The specific research task involved air-to-air fire control using the AH-64´s turreted 30-mm cannon
Keywords :
aerospace computer control; aircraft instrumentation; computer architecture; computerised instrumentation; distributed processing; helicopters; military computing; weapons; 30 mm; AH-64 aircraft; Apache C/D distributed avionics architecture; R&D environment; air-to-air fire control; avionics architecture; decoupling; distributed processing; fire control; rapid software changes; turreted cannon; weapon processing; Aerospace control; Aerospace electronics; Aircraft; Centralized control; Computer architecture; Computer displays; Control systems; Fires; Throughput; Weapons;
Conference_Titel :
Digital Avionics Systems Conference, 1992. Proceedings., IEEE/AIAA 11th
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-0820-4
DOI :
10.1109/DASC.1992.282157
