Change-vector analysis (CVA) traditionally was applied to detect land cover change by thresholding the difference image according to empirical strategies or manual trial-and-error procedure. It made the result of change detection subjective. Recently training areas are used to guide the selection of the change magnitude of the threshold for discriminating Change and No-Change pixels. However, the result would be greatly affected by the appropriately selected training areas. In this paper, a new method is proposed to improve CVA. The modified change-vector analysis consists of two stages. (1) Change/No-Change detection: The method combines the distance of change vector with spectral angle of change vector to detect Change/No Change pixels. In the first place, the distance of change vector and spectral angle were analyzed by Principal Component Analysis. Then, the edge detection technique was used to find out the optimum threshold automatically in the PC1 image. Therefore the Change and No-Change pixels can be detected. (2) Change categories detection: The direction angles of change vector were calculated beforehand. Then, the direction angles of change vector were classified by the K-Means clustering algorithm to determine change category of the change pixels. In this study, the modified change-vector analysis was applied to the detection of one simulation image and three SPOT-5 satellite images. The results indicated that the overall accuracy of Change/No-Change detection was about 95%, and the overall accuracy of change categories detection was 87%. The experimental results indicate that using the modified change-vector analysis is an effective method to detect Change/No-change pixels and change categories.