Feasibility study on application of smart phones as an air quality monitoring system Student：Weiso Sun Advisor：Hsunling Bai Degree program of Environmental Technology for Sustainability College of Engineering National Chiao Tung University ABSTRACT This study aims to examine the potential of integrating a smart phone mobile software application “APP” in air quality monitoring system. Measurement data were obtained from LPV-3 visibility meter in the city of Chai-I as well as from the Environmental Protection Administration Executive Air Quality Monitoring Stations, which use the Belfort visibility meter across five different cities and settings as variables; these were Kinmen (sea), Yangming (mountain terrain), Wanhua Taipei (metropolitan), Qunlung (countryside), and Taitung (clean surrounding) to analyze the following correlations: Visibility vs. Digital Image; Image Index vs. PM2.5 and PM2.5 vs. Visibility. The resultant correlation coefficients (R2) by order of the analysis were: 1. Chai-I (LPV-3): R2= 0.81 (Visibility vs. Image Index only); 2. Kinmen (sea): R2= 0.81, 0.72, 0.87; 3. Yangming (mountain terrain): R2 = 0.83, 0.27, 0.5; 4. Wanhua Taipei (metropolitan): R2= 0.53, 0.02, 0.1; 5. Qunlung (countryside): R2 = 0.92, 0.71, 0.67; 6. Taitung (clean surrounding): R2= 0.83 (Image Index vs. PM2.5 only). From the above result, we conclude that there is significant casual relationship between Image Index vs. visibility, with R2 being 0.8 on average. The correlation between image index and PM2.5 is dependent on terrain roughness and atmospheric uniformity, particularly higher correlation in the setting of lower terrain roughness and a more stable atmospheric uniformity. The visibility meter and the image index system need to be set up in the same location in order to capture representative and comparable data. This concept can thus be applied to traffic cameras, dash camera in motor vehicles, or any other instruments with build-in camera, a visual sensor which has the function of digitizing images and uploading them to a virtual cloud processing center. Images are analyzed and categorized by image analysis index and global positioning system, factor in visibility measures and PM2.5. In our daily life, this information is particularly valuable for people such as joggers, enabling them to get a snapshot of air quality instantaneously using smart phone build-in camera, mobile analytical software application or other wearable environmental monitoring device, to work out the route with better air quality. This information can be shared in social networks amongst friends, and can also become a source of centralized data collection. We expect the accuracy of this air quality monitoring system will improve overtime with more quality data collected for the centralized database, and hopefully in the future, this information will provide useful feedback for air quality monitor. Keywords: Smart phone, Image, Visibility, PM2.5 , Air quality monitoring system