A nonlinear constant bearing guidance and adaptive autopilot design for BTT missiles
Resource
American Control Conference, 1997. Proceedings of the 1997
Journal
Proceedings of the American Control Conference
Journal Volume
5
Pages
2774 - 2778
Date Issued
1997-06
Date
1997-06
Author(s)
DOI
N/A
Abstract
This paper is an integration of two earlier results on missile guidance and autopilot. The guidance design is a nonlinear implementation of the constant bearing guidance. The guidance command in the form of acceleration is transformed into acceptable forms for the autopilot design. This design incorporates feedforward neural networks in the structure of adaptive control. Its weighting matrices and other unknown parameters are tuned on-line, and the approximation error of the neural networks is compensated via the technique of sliding mode control. Stability and performance for the integrated system are also investigated.
Event(s)
Proceedings of the 1997 American Control Conference. Part 3 (of 6)
Other Subjects
Adaptive control systems; Approximation theory; Control system analysis; Error compensation; Feedforward neural networks; Missiles; Nonlinear control systems; System stability; Bank to turn missiles; Missile autopilot; Nonlinear constant bearing guidance; Electronic guidance systems
Type
conference paper
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