As urban heat island effect intensifies, weather data produced by a mainly official weather station are not proper to represent and reflect the microclimate situation in a city. This study selected 17 weather stations in Tainan, Taiwan, to estimate the wind velocity on pedestrian-level and utilized 102 automatic stations from high-density street-level air temperature observation network (HiSAN) to measure air temperature and relative humidity at 2.5 meters height. Based on these observed weather data and urban environmental information provided from the government. This study established a method of generating high-resolution pedestrian-level weather information for urban areas. The method took urban morphological parameters, such as surface roughness, into consideration to be the factor of evaluating wind velocity. By interpolation and extrapolation, each grid obtained microclimate weather data on a pedestrian-level scale. The Leave One Out Cross Validation (LOOCV) tested the root-mean-squared errors for the interpolated data. Thus, the best set of parameters, height, methods, nearest neighbor numbers, and atmospheric stability, have been selected for conducting the calculation. The spatial and temporal distribution reflects the patterns of the microclimate conditions under the weak synoptic and no precipitation conditions. Furthermore, the results reflected the hot spots in the city and provided for the urban planners to improve this problem. Several parameters were examined to choose by principal component analysis. The results indicated four parameters, building coverage ratio, green area coverage ratio, building heights, and sky view factor, which should be used to the cluster analysis. The Local Climate Zone (LCZ) and the cluster analysis were used to classify the urban morphology, combining the microclimatic conditions for comprehensively understanding the pattern in each class. Both approaches showed the relationship within the appropriate categories. In addition, all data were integrated into the apparent temperature and presented by a useful tool, WebGIS. The application could provide a simple way to visualize an instantly environmental situation for urban planning and decision making.