In construction industry, 3D Visualization technology has come into being in monitoring construction progress. However, recent 3D models are mainly used as a visual displaying tool for contractors communicating with others. Lacking of periodically real-time updates constrains the pre-planned models to serve as monitoring purposes when the techniques put into practice. To overcome the limitations of existing applications, this research focuses on the monitoring technique using as-built photographs matching with images taken from the 3D as-planned model in different construction status to recognize the actual working schedule. This approach enables the project managers to have a realistic understanding of the deviation between the pre-planned schedule and real-time construction progress. The purpose of this research is to develop a visual progress monitoring system that can be applied to practical projects. The chronological use of the visual progress monitoring system includes: (1) Reconstruction of the Image's Orientation: Obtain the orientation of an image from a worksite. Each image will be able to accurately depict the orientation of the camera. (2) Projection of a model: Using the Collinearity Equation and the orientation of the image, project the 3D model onto the worksite's image. (3) Reconstruction of the Model: Match of projected model to it's corresponding component at an worksite using Least-Squares Estimation, and print out the model's parameters. (4) Method of Visual Progress Monitoring: Project individual models taken from various times as the work progressed onto the worksite image. Using the logic of recognition developed by this research to conclude whether the progress at the worksite is up to par with the predetermined schedule. Finally apply this technique at an actual worksite. It has been experimentally determined that using the visual progress monitoring system, the worksite's progress can semi-automatically compare the actual progress to the planned progress. Thus, the system can provide information regarding the worksite progress in a timely manner, and thus assist professional or a third-party monitor in understanding the actual progress. This research aspires to elicit further research and eventually develop an automatic progress monitoring system.