Bandwidth-limited robust nonlinear sliding control of pointing and tracking maneuversIt is shown how multiaxial spacecraft tracking and pointing maneuvers with known control bandwidth and given tracking error bounds can be implemented by variable-structure control in the presence of uncertain vehicle and target dynamics. It is shown how to select a nonlinear sliding surface relating attitude and rate variables, as well as a Lyapunov function in the surface variables that absorbs multiplicative model undertainties, thereby simplifying the computation of control corrections. It is then shown how a boundary layer envelope can be designed, within which the components of the surface error dynamics can be modeled as the outputs of designer-selected decoupled low-pass filters. Closed-loop stability conditions accounting for the coupling between the attitude error dynamics and the surface error dynamics are then obtained.
Document ID
19890066639
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Dwyer, Thomas A. W., III (Illinois Univ. Urbana, IL, United States)
Kim, Jinho (Illinois, University Urbana, United States)