论文信息 - Generalized Minimum Variance Control for Water Distribution System

Generalized Minimum Variance Control for Water Distribution System

This paper presents the project of an adaptive control system to modeling and controlling, in real time, a water distribution system. The controllers act in determining the turning speed of the motor/pump set and in the opening angle of control valves. An experimental workbench was set aiming at modeling and identifying parametrically a hydraulic network. The control system is a Generalized Minimum Variance self-tuning (GMV), whose parameters where real-time estimated by the recursive least squares (MQR) method according to the imposed inputs to the converter and the valves. The GMV aims at the pressure control in measuring points, which provided the reduction of energy and water in the workbench. Experimental results show the performance of adaptive control system and its ability to control the water distribution process.

[1] Gerson Luís Fontoura Vaz. Controladores adaptativos de variância mínima e Hahlin :: uma revisão e novas concepções de projeto / , 1999 .

[2] James Sidney Freitas de Carvalho. Controle adaptativo aplicado em um robô manipulador de dois graus de liberdade planar , 2009 .

[3] Sten Bay Jørgensen,et al. Tuning SISO offset-free Model Predictive Control based on ARX models , 2012 .

[4] B. E. D. P. Energética. Balanço energético nacional 2009: ano base 2008 , 2006 .

[5] Azauri Albano de Oliveira,et al. Speed Neuro-fuzzy Estimator Applied To Sensorless Induction Motor Control , 2012, IEEE Latin America Transactions.

[6] Simplício Arnaud da Silva,et al. Operational optimisation of water supply networks using a fuzzy system , 2012 .

[7] J.T. Jimenez,et al. Automatic intelligent initialization for a modified generalized minimum variance controller , 2004, 2004 5th Asian Control Conference (IEEE Cat. No.04EX904).

[8] Indra Narayan Kar,et al. Adaptive output feedback tracking control of robot manipulators using position measurements only , 2008, Expert Syst. Appl..

[9] David Clarke,et al. Self-tuning control , 1979 .

[10] T. Pelli,et al. Energy indicators and savings in water supply , 2000 .

[11] Patrizio Tomei,et al. A Global Adaptive Learning Control for Robotic Manipulators , 2005, CDC 2005.

[12] John B. Shoven,et al. I , Edinburgh Medical and Surgical Journal.

[13] B. Mark. On Self Tuning Regulators , 1972 .