Title :
A Two-Variable Fuzzy Control Design With Application to an Air-Conditioning System
Author :
Yordanova, Snejana ; Merazchiev, Daniel ; Jain, Lakhmi
Author_Institution :
Fac. of Autom., Tech. Univ. of Sofia, Sofia, Bulgaria
Abstract :
Air-conditioning systems provide optimal conditions for work, human health, and quality of living. At the same time, they are one of the greatest household energy consumers. Therefore, the Building Energy Management System sets high demands on their control, aiming to reduce energy consumption while ensuring indoor comfort. The classic control technique cannot satisfactorily deal with the energy-efficient stabilization of basic interacting microclimate parameters. The fuzzy logic approach offers intelligent means for the stabilization of the coupled temperature, humidity, and fresh air supply with low energy requirements. The aim of this study is to develop a model-free design method for a two-variable PI fuzzy controller for temperature and humidity control that ensures indoor comfort and reduces energy consumption by supervisory fuzzy tuning.
Keywords :
PI control; air conditioning; control system synthesis; energy consumption; fuzzy control; humidity control; stability; temperature control; PI fuzzy controller; air-conditioning system; building energy management system; energy consumption; energy-efficient stabilization; fresh air supply; fuzzy logic; humidity control; indoor comfort; microclimate parameter; supervisory fuzzy tuning; temperature; two-variable fuzzy control design; Energy efficiency; Heating; Humidity; Real-time systems; Stability analysis; Tuning; Air-conditioning system; MATLAB; energy efficiency; real-time implementation; supervisory tuning; two-variable fuzzy control;
Journal_Title :
Fuzzy Systems, IEEE Transactions on
DOI :
10.1109/TFUZZ.2014.2312979
