Scenario-Based Hierarchical and Distributed MPC for Water Resources Management with Dynamical Uncertainty

P. Velarde; X. Tian; A. D. Sadowska; J. M. Maestre

doi:10.1007/s11269-018-2130-2

Scenario-Based Hierarchical and Distributed MPC for Water Resources Management with Dynamical Uncertainty

P. Velarde^*, X. Tian, A. D. Sadowska, J. M. Maestre

^*Corresponding author for this work

Water Resources

Research output: Contribution to journal › Article › Scientific › peer-review

16 Citations (Scopus)

Abstract

A real-time control scheme informed by a streamflow forecast is presented for the optimal operation of water resources systems composed of multiple and spatially distributed systems, affected by hydroclimatic disturbances. The approach uses a two-layer scenario-based hierarchical and distributed model predictive controller (HD-MPC) to deal with the operational water management problem under dynamical uncertainty. The higher layer collects and coordinates forecast information, which is rendered into possible realizations of the uncertainties and sent to the local agents. The lower layer solves a distributed optimization problem related to the actual management objectives. The HD-MPC method is demonstrated through a simulation of the North Sea Canal system as a real-world case study. The results show the benefits of the proposed compared to over other types of MPC controllers.

Original language	English
Pages (from-to)	677-696
Number of pages	20
Journal	Water Resources Management
Volume	33
Issue number	2
DOIs	https://doi.org/10.1007/s11269-018-2130-2
Publication status	Published - 2019

Keywords

Distributed control
Dynamical uncertainty
Hierarchical control
Model predictive control
Water resource management

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10.1007/s11269-018-2130-2

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abstract = "A real-time control scheme informed by a streamflow forecast is presented for the optimal operation of water resources systems composed of multiple and spatially distributed systems, affected by hydroclimatic disturbances. The approach uses a two-layer scenario-based hierarchical and distributed model predictive controller (HD-MPC) to deal with the operational water management problem under dynamical uncertainty. The higher layer collects and coordinates forecast information, which is rendered into possible realizations of the uncertainties and sent to the local agents. The lower layer solves a distributed optimization problem related to the actual management objectives. The HD-MPC method is demonstrated through a simulation of the North Sea Canal system as a real-world case study. The results show the benefits of the proposed compared to over other types of MPC controllers.",

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AU - Velarde, P.

AU - Tian, X.

AU - Sadowska, A. D.

AU - Maestre, J. M.

PY - 2019

Y1 - 2019

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AB - A real-time control scheme informed by a streamflow forecast is presented for the optimal operation of water resources systems composed of multiple and spatially distributed systems, affected by hydroclimatic disturbances. The approach uses a two-layer scenario-based hierarchical and distributed model predictive controller (HD-MPC) to deal with the operational water management problem under dynamical uncertainty. The higher layer collects and coordinates forecast information, which is rendered into possible realizations of the uncertainties and sent to the local agents. The lower layer solves a distributed optimization problem related to the actual management objectives. The HD-MPC method is demonstrated through a simulation of the North Sea Canal system as a real-world case study. The results show the benefits of the proposed compared to over other types of MPC controllers.

KW - Distributed control

KW - Dynamical uncertainty

KW - Hierarchical control

KW - Model predictive control

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Scenario-Based Hierarchical and Distributed MPC for Water Resources Management with Dynamical Uncertainty

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Keywords

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