In urban-development process, the urban land-use following many-faceted urban depending on political, economical, cultural and social conditions becomes complex and dissimilar forms being a spontaneous system. Under this forming process an urban can be viewed as a self-organizing organism displaying self-similarity or self-affinity fractal phenomena in space. Therefore, many spatial structure studies of urban mentioned that Euclid geometry couldn't explain the spatial characteristics of urban due to different form development of urban with different environment conditions. Fractal dimension, using non-integral dimension to describe many objects in nature, is different from conventional integral Euclid dimension. However, fractal geometry, substituting feature scale to descript geometry objects, bases on a set of mathematical functions. Meanwhile, remotely sensed imagery is essential tool for urban environmental monitoring. In this study, the remote sensing data and cardiogram were used to calculate the changes and fractal dimensions of green spaces in Shin- Yi planning area in Taipei in 1994, 1996, 1998 and 2000. The green space data were extracted from SPOT and LANSAT images of Shin-Yi planning area. The results illustrated that the green spaces of this study area increased during 1994 to 1996 and then decreased during 1996 to 2000. The order of fractal dimensions during 1994 to 2000 were 1996＞ 1998＞2000＞1994. Moreover, the spatial development of Shin-Yi planning area displayed self-organizing phenomena during these seven years and consisted in a tendency from 1996 to 2000.