Air pollution is one of the topics that has received increasing attention in recent years. Carbon monoxide (CO) gas and sulfur dioxide (SO2) gas are two air index pollutants. Carbon monoxide is one of the common harmful gases. It is produced by incomplete combustion. It has colorless and odorless characteristics. If it is inhaled in the body for a long time, it will damage the cardiovascular function of the human body, or cause headache, dizziness or even death. Sulfur dioxide is also one of the sources of air pollution. It is mainly produced by industrial fossil fuel combustion. It has the characteristics of colorless, non-flammable, acidity and corrosivity, and is the main substance causing acid rain. The composition and concentration of pollutants in the air must be measured and monitored by gas sensors. However, there are gas selectivity problems with gas sensors nowadays. Therefore, this thesis will propose an improvement method for gas selectivity problems. The type and concentration of the mixed gas of carbon monoxide and sulfur dioxide are detected by using gas sensor array with artificial intelligence. This study will establish and use deep neural network and convolutional neural network for classifying the type of gases and predicting the concentration of mixed gas, and through four different input data types as the input source of neural network. They are time domain signal, reading value shift, radar chart, and time domain image, respectively. The experimental results show that the test errors of time domain signal, reading value shift, radar chart and time domain image are 7.729, 6.482, 8.564, 5.843 ppm, respectively, so the time domain image is used as the input data type and combined with the convolutional neural network model, there will be the best prediction results for the type decision and concentration analysis of the mixed gas. In terms of data distribution, the number of gas sensors, the concentration point distribution and the number of data are analyzed. When the gas sensors are more, the closer the concentration point distribution is, the more data is available, the overall learning benefit is better for the neural network model. Finally, the multiple regression analysis is compared with the artificial intelligence method. The test errors are 26.627 and 5.843 ppm, respectively, which proves that artificial intelligence is suitable for gas species discrimination and concentration prediction analysis, and successfully improves and solves the selectivity problem of gas sensor, that can realize the detection of changes and pollution in the air and achieve the purpose of monitoring the air quality.