Pattern recognition of gas sensor array using characteristics of impedance

Abstract In this paper, impedance variations of SnO 2 -based gas sensor array are measured in gases. Back propagation algorithm of pattern recognition [1,2] is used to distinguish a species and concentration of gases with analog signals of impedance variation from sensor array. When the impedance variation presents as the quantities of rising and falling time to 100 kHz pulse input signal of a prepared circuit in gases, the sensor array system distinguishes gas species and concentration with back propagation algorithm which deals with rising time and falling time from sensor array. SnO 2 -based sensing materials on a sensor array are SnO 2 –Pt, SnO 2 –La 2 O 3 , SnO 2 –Au/Pd, and SnO 2 –Pd–V 2 O 5 using thick film process techniques. The proposed sensor array for pattern recognition with impedance variation is proper to enhance stability, selectivity, and reproducibility to gases.