DocumentCode
3017753
Title
Information distribution in distributed microprocessor based flight control systems
Author
Montgomery, R.C. ; Lee, P.S.
Author_Institution
NASA Langely Research Center, Hampton, Virginia
fYear
1977
fDate
7-9 Dec. 1977
Firstpage
326
Lastpage
335
Abstract
This paper presents an optimal control theory that accounts for variable time intervals in the information distribution to control effectors in a distributed microprocessor based flight control system. The theory is developed using a linear process model for the aircraft dynamics and the information distribution process is modeled as a variable time increment process where, at the time that information supplied to the control effectors, the control effectors know the time of the next, information update only in a stochastic sense. An optimal control problem is formulated and solved that provides the control law that minimizes the expected value of a quadratic cost function. An example is presented where the theory is applied to the control of the longitudinal motions of the F8-DFBW aircraft. Theoretical and simulation results indicate that, for the example problem, the optimal cost obtained using a variable time increment Markov information update process where the control effectors know only the past information update intervals and the Markov transition mechanism is almost identical to that obtained using known uniform information update interval.
Keywords
Aerospace control; Control systems; Distributed control; Microcomputers; Microprocessors; Process control;
fLanguage
English
Publisher
ieee
Conference_Titel
Decision and Control including the 16th Symposium on Adaptive Processes and A Special Symposium on Fuzzy Set Theory and Applications, 1977 IEEE Conference on
Conference_Location
New Orleans, LA, USA
Type
conf
DOI
10.1109/CDC.1977.271592
Filename
4045862
Link To Document