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Mpc-based motion planning and control enables smarter and safer autonomous marine vehicles: perspectives and a tutorial survey

Henglai Wei, Yang Shi

2022IEEE/CAA Journal of Automatica Sinica138 citationsDOI

Abstract

Autonomous marine vehicles (AMVs) have received considerable attention in the past few decades, mainly because they play essential roles in broad marine applications such as environmental monitoring and resource exploration. Recent advances in the field of communication technologies, perception capability, computational power and advanced optimization algorithms have stimulated new interest in the development of AMVs. In order to deploy the constrained AMVs in the complex dynamic maritime environment, it is crucial to enhance the guidance and control capabilities through effective and practical planning, and control algorithms. Model predictive control (MPC) has been exceptionally successful in different fields due to its ability to sys-tematically handle constraints while optimizing control performance. This paper aims to provide a review of recent progress in the context of motion planning and control for AMVs from the perceptive of MPC. Finally, future research trends and directions in this substantial research area of AMVs are highlighted.

Topics & Concepts

SAFERContext (archaeology)Model predictive controlResource (disambiguation)Control (management)Computer scienceField (mathematics)Systems engineeringEngineeringArtificial intelligenceComputer securityComputer networkBiologyPure mathematicsMathematicsPaleontologyMaritime Navigation and SafetyUnderwater Vehicles and Communication SystemsAdaptive Control of Nonlinear Systems
Mpc-based motion planning and control enables smarter and safer autonomous marine vehicles: perspectives and a tutorial survey | Litcius