IRI - Adaptive multilevel neuro-fuzzy model predictive control for drinking water networks

Publication

Adaptive multilevel neuro-fuzzy model predictive control for drinking water networks

Conference Article

Conference

Mediterranean Conference on Control and Automation (MED)

Edition

20th

Pages

1548-1553

Doc link

http://dx.doi.org/10.1109/MED.2012.6265859

File

Download the digital copy of the doc pdf document

Authors

Projects associated

WATMAN: Analysis and Design of distributed optimal control strategies applied to large-scale WATer systems MANagement

Abstract

This paper presents a constrained Model Predictive Control (MPC) strategy enriched with soft-control techniques as neural networks and fuzzy logic, to incorporate self-tuning capabilities and reliability aspects for drinking water transport network management. The system is a multilevel controller with three hierarchical layers: neural level, fuzzy level, MPC level. Results in the Barcelona Water Network have shown that the quasi-explicit nature of the proposed predictive controller leads to improve the computational time, especially when the complexity of the problem structure can vary while tuning the receding horizons.

Author keywords

model predictive controller, neural networks, fuzzy logic, self-tuning, reliability, water transport network, hierarchical control

Scientific reference

J.M. Grosso, C. Ocampo-Martínez and V. Puig. Adaptive multilevel neuro-fuzzy model predictive control for drinking water networks, 20th Mediterranean Conference on Control and Automation, 2012, Barcelona, pp. 1548-1553, IEEE.