The most recent developments in the Boeing Aerospace Autonomous Power System (APS) testbed are presented. The APS testbed is a 28-VDC system with 3-kW capability, assembled for use in developing improved control, techniques for aerospace electrical power systems. The main emphasis is on the development of a sophisticated programming environment to control concurrent execution of multiple autonomous algorithms coupled with a continuous input/output data flow. The integration of high-level control algorithms used for battery charge control into a real-time execution environment is discussed. This includes methods that allow several functions to respond to real-time input, affect/maintain expert system (shared) memory, and control the electrical power system configuration. Sophisticated schemes for scheduling these expert system control functions are required to allow real-time multitasking.
Real-time expert systems for advanced power control (a status update) (aerospace power system testbed)
Echtzeit-Expertensysteme für verbesserte Leistungsregelung (Statusbericht) (Prüfstand für Energieversorgung im All)
IEEE Aerospace and Electronics Systems Magazine ; 4 , 11 ; 33-38
1989
6 Seiten, 5 Quellen
Article (Journal)
English
Real-time expert systems for advanced power control (a status update)
Tema Archive | 1989
|Stanford meeting Technology Testbed Status Update
NTRS | 2019
|Expert system based tool for aerospace power analysis
Tema Archive | 1997
|