Image change detection is an image processing method used in remote sensing to analyze land cover or land use change in different periods. With the advancement of remote sensing, the image resolution is getting higher and higher, and the change detection methods are constantly evolving for huge application requirements. Traditionally, change detection often uses pixel-based analysis methods, but when the image resolution is improved, the pixel-based change detection (PBCD) method is prone to the problem of salt-and-pepper noise and is not easy to be used for land use change.In recent years, many studies have begun to use object-based image analysis (OBIA) method for change detection, commonly referred to as object-based change detection (OBCD). In addition to avoiding the problem of salt and pepper noise, OBCD can be used to conduct land use change analysis if further introduced artificially defined change rules. Urban monitoring and land use change detection are important issues for urban development and planning. The fastest and most effective method for understanding urban change is image change detection. This study uses UAV aerial photography to obtain high-resolution real orthoimages and Digital Elevation Model (DSM) data of the urban area, then explores and compares the current common image change detection methods. Proposed a complete object base change detection process, which can be used for the analysis of land use change. Used multi-dimensional object features of transition detection and introduce artificially defined rules to detect urban changes, such as new construction, demolition buildings, and other land use changes. In addition to solving the problem of salt and pepper noise, this method is efficient, and it also avoids most mistakes that misjudge the pseudo-change as a change. In the small-area experiment, it showed that urban areas can obtain better results than suburbs, the overall accuracy is about 98% and kappa is about 0.8. When applied to large-scale images with complex and varied scenes, the overall accuracy is 98.69% and the Kappa is 0.8373. The mostly source of errors was falsely judged the pseudo-change objects as change objects, and some errors caused by the poor image quality.