RBFNN‐Based Parameter Adaptive Sliding Mode Control for an Uncertain TQUAV With Time‐Varying Mass
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Abstract
ABSTRACT In this article, a parameter adaptive sliding mode control strategy, which is based on the radial basis function neural network (RBFNN), is proposed for the trajectory tracking of an uncertain tilting quadrotor unmanned aerial vehicle (TQUAV) with time‐varying mass. In this strategy, the complex uncertainties and external disturbances are considered and lumped as total disturbance terms in each channel, which can be more conveniently estimated by utilizing the RBFNN for the feedforward compensation during the controller design. Moreover, the adaptive adjustment mechanism of sliding mode manifold parameters is further explored, in which their adaptive laws can avoid monotonically increased gains. To…
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72
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2Topics & keywords
Topics
Keywords
- Control theory (sociology)
- Sliding mode control
- Mode (computer interface)
- Computer science
- Adaptive control
- Control (management)
- Control engineering
- Engineering
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