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Updated: Jun 10, 2026

Operation of the Collaborative Composite Manufacturing (CCM) System
10:09

Operation of the Collaborative Composite Manufacturing (CCM) System

Published on: October 1, 2019

FFRLS-MPC: An adaptive model predictive control method for robust ship course keeping.

Yanyu Huang1, Jinlai Liu2, Jianwei Huang3

  • 1College of Transportation and Navigation, Quanzhou Normal University, Quanzhou, 362000, China.

Scientific Reports
|June 8, 2026
PubMed
Summary
This summary is machine-generated.

This study introduces an adaptive maritime navigation controller that uses online system identification with model predictive control (MPC). The novel FFRLS-MPC method enhances course control accuracy and robustness against disturbances.

Keywords:
Course controlModel predictive controlOnline parameter identification

Related Experiment Videos

Last Updated: Jun 10, 2026

Operation of the Collaborative Composite Manufacturing (CCM) System
10:09

Operation of the Collaborative Composite Manufacturing (CCM) System

Published on: October 1, 2019

Area of Science:

  • Maritime Navigation and Control Systems
  • Adaptive Control Theory
  • Ocean Engineering

Background:

  • Accurate course control is critical for maritime safety and efficiency.
  • Conventional controllers struggle with dynamic vessel changes and environmental forces.
  • Existing methods may not adequately address model-plant mismatch and unmodelled disturbances.

Purpose of the Study:

  • To develop an adaptive course-control strategy for enhanced maritime navigation.
  • To improve controller performance under time-varying dynamics and environmental disturbances.
  • To provide a robust solution for high-precision ship motion control.

Main Methods:

  • Coupling online system identification with Model Predictive Control (MPC).
  • Utilizing Fast Forgetting Recursive Least Squares (FFRLS) for real-time parameter identification.
  • Integrating an adaptive model into MPC for state prediction and rudder optimization.

Main Results:

  • The FFRLS-MPC controller demonstrated faster responses and lower steady-state errors compared to PID and robust adaptive MPC.
  • Accurate dynamic course tracking was achieved under various simulated environmental conditions.
  • The identification module effectively adapted to disturbance effects through parameter variation.

Conclusions:

  • The proposed FFRLS-MPC strategy offers a practical approach to robust, high-precision ship motion control.
  • Real-time system identification significantly enhances controller adaptability and performance.
  • This method effectively compensates for model-plant mismatch and unmodelled environmental disturbances.