An electronic nose using time reduced modelling parameters for a reliable discrimination of Forane 134a
Abstract
For lots of applications, new systems based on gas sensor array and called electronic noses are in investigations. To be used for the toxic gas detection, these systems need to be accurate and must provide a rapid evaluation of the target gas. In this application, we use metal oxide sensor array to detect, in presence of several humidity rates (18-85%), a refrigerant gas (Forane 134a) which can cause health troubles and greenhouse effects. In this aim, several families of representative variables as the transient or modelling parameters are extracted from the time sensor responses. These variables are then grouped in learning databases and tested with recognition methods to select the best association between database and method. Next, unknown gas samples were taken to validate this choice. The results show the possibility of a good discrimination and also identification of the target gas in presence of different humidity rate.