Urban forests provide multiple ecosystem services and functions to improve life qualities for city residents. Applying a systematic way to monitor the spatial and temporal changes in urban forests can help improve urban forest management. To establish a systematic monitoring method, this study uses the Sentinel-2 remote sensing data combined with in situ street tree inventory data to explore the relationship between annual tree crown dynamics and satellite imagery. I selected two of the widely-planted tree species in Taipei City, Koelreuteria elegans and Cinnamomum camphora as the research objects, and applied three different vegetation indices, including NDVI, EVI, and dual-band EVI(EVI2) time series data, to extract the tree signals from the plots. Then I classified the images with different vegetation coverages in the plots based on the curve-fitting algorithm. Following that, I quantified the vegetation index time-series data extracted from different tree-cover areas. Lastly, I explored the relationship between vegetation index and surface temperature estimated by combining satellite data and meteorological station records. Results showed that among the three vegetation indices, the classification based on NDVI had a higher accuracy, that the Koelreuteria elegans area and the Cinnamomum camphora area obtained 66% and 72% of the classification accuracy, and the kappa coefficient κ was 0.39 and 0.58, respectively. Results revealed that the vegetation index time-series data extracted by EVI had less noise, suitable for capturing the characteristics of the main phenological events in a year. The analysis results also found a higher correlation between temperature changes and the annual tree crown activities of the deciduous than those of the evergreen species. Therefore, using open-source satellite data in conjunction with the ground-based survey data, and combining with meteorological and vegetation index time-series data, can help understand the annual growth of street trees, assist in the establishment of a systematic method for urban forest monitoring, and provide critical information needed in the urban forest management and planning.