Trajectory Tracking Control of an Autonomous Underwater Vehicle Using Lyapunov-Based Model Predictive Control
Indexed incrossref
Abstract
This paper studies the trajectory tracking control problem of an autonomous underwater vehicle (AUV). We develop a novel Lyapunov-based model predictive control (LMPC) framework for the AUV to utilize computational resource (online optimization) to improve the trajectory tracking performance. Within the LMPC framework, the practical constraints, such as actuator saturation, can be explicitly considered. Also, the thrust allocation subproblem can be addressed simultaneously with the LMPC controller design. Taking advantage of a nonlinear backstepping tracking control law, we construct the contraction constraint in the formulated LMPC problem so that the closed-loop stability is theoretically guaranteed.…
Citation impact
567
total citations
- FWCI
- 22.86
- Percentile
- 100%
- References
- 31
Citations per year
Authors
3Topics & keywords
Topics
Keywords
- Control theory (sociology)
- Trajectory
- Computer science
- Backstepping
- Model predictive control
- Robustness (evolution)
- Nonlinear system
- Controller (irrigation)
UN Sustainable Development Goals
- Life below water
No related works found for this paper.