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Robust State Estimation of Feeding-Blending Systems in Continuous Pharmaceutical Manufacturing

By Liu, Jianfeng; Su, Qinglin; Moreno, Mariana; Laird, Carl; Nagy, Zoltan; Reklaitis, Gintaras

Published on

Abstract

State estimation is a fundamental part of monitoring, control, and real-time optimization in continuous pharmaceutical manufacturing. For nonlinear dynamic systems with hard constraints, moving horizon estimation (MHE) can estimate the current state by solving a well-defined optimization problem where process complexities are explicitly considered as constraints. Traditional MHE techniques assume random measurement noise governed by some normal distributions. However, state estimates can be unreliable if noise is not normally distributed or measurements are contaminated with gross or systematic errors. To improve the accuracy and robustness of state estimation, we incorporate robust estimators within the standard MHE skeleton, leading to an extended MHE framework. The proposed MHE approach is implemented on two pharmaceutical continuous feeding–blending system (FBS) configurations which include loss-in-weight (LIW) feeders and continuous blenders. Numerical results show that our MHE approach is robust to gross errors and can provide reliable state estimates when measurements are contaminated with outliers and drifts. Moreover, the efficient solution of the MHE realized in this work, suggests feasible application of on-line state estimation on more complex continuous pharmaceutical processes.

Journal

Chemical Engineering Research and Design. Volume 134, 2018, 140-153

DOI

10.1016/j.cherd.2018.03.017

Type of publication

Peer-reviewed journal

Affiliations

  • Purdue University
  • Sandia National Laboratories

Article Classification

Research article

Classification Areas

  • PAT
  • Oral solid dose

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