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Model Predictive Control for Underwater Robots in Ocean Waves

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Underwater robots beneath ocean waves can benefit from feedforward control to reduce position error. This letter proposes a method using model predictive control (MPC) to predict and counteract future disturbances… Click to show full abstract

Underwater robots beneath ocean waves can benefit from feedforward control to reduce position error. This letter proposes a method using model predictive control (MPC) to predict and counteract future disturbances from an ocean wave field. The MPC state estimator employs a linear wave theory (LWT) solver to approximate the component fluid dynamics under a wave field. Wave data from deployed ocean buoys are used to construct the simulated wave field. The MPC state estimator is used to optimize a set of control actions by gradient descent along a prediction horizon. The optimized control input minimizes a global cost function, the squared distance from the target state. The robot then carries out the optimized trajectory with an emphasis on real-time execution. Several prediction horizons are compared, with a horizon of 0.8 s selected as having a good balance of low error and fast computation. The controller with the chosen prediction horizon is simulated and found to show a 74% reduction in position error over traditional feedback control. Additional simulations are run where the MPC takes in noisy measurements of the wave field parameters. The MPC algorithm is shown to be resistant to sensor noise, showing a mean position error 44% lower than the noise-free feedback control case.

Keywords: model predictive; control; ocean waves; underwater robots; predictive control; wave field

Journal Title: IEEE Robotics and Automation Letters
Year Published: 2017

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