Zheng-Yi Duan scite author profile

This article is concerned with the problem of robust model predictive control (MPC) for uncertain nonlinear time‐delay systems. In order to reduce the computational conservativeness of the existing robust MPC given in the min–max optimization formulation, a novel tube‐based MPC method is investigated via exploring MPC and control contraction metric (CCM) technique. Based on the Kyapunov–Krasovskii arguments, the MPC is designed as a nominal controller to generate a reference trajectory. By constructing a functional formulation of the inner product on tangent space, the CCM technique is applied to develop a local ancillary controller to guarantee the actual trajectory being contained within a robust invariant tube. In addition, to alleviate the burden of computing geodesic in the design of CCM technique, we propose a direct method using the neural network to search for the minimal geodesic online. By employing the sequential quadratic programming algorithm, this method improves the efficiency of online calculation with high accuracy. Finally, numerical simulation is employed to validate the effectiveness of the proposed method.

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Nonlinear Model Predictive Control Using State-space Recurrent Multi-dimensional Taylor Network

Duan

Yan

2018

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Zheng-Yi Duan

Tube-Based Model Predictive Control Using Multidimensional Taylor Network for Nonlinear Time-Delay Systems

Robust model predictive control based on recurrent multi‐dimensional Taylor network for discrete‐time non‐linear time‐delay systems

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Robust model predictive control of uncertain nonlinear time‐delay systems via control contraction metric technique

Nonlinear Model Predictive Control Using State-space Recurrent Multi-dimensional Taylor Network

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