People can acquire spatial information more efficiently and benefit much more from 3-D geographical information than from traditional 2-D geographic information. In 3-D geographical information, building models are essential elements. Not only can building models be used to construct the virtual cities on the web for visualization, but it can also be used as the bases for different information systems. For example, the information system for the precaution or preparedness against natural calamities can be built based on the building models for relieving the victims of a disaster quickly and reducing the damage. Airborne LIDAR surveying systems can acquire automatically high accurate and reliable terrain surface data covered large area. Therefore it is an important source for automatic reconstruction of building models. Basically, airborne LIDAR data are consisted of a large number of 3-D points on the terrain surface; co-planar points should be extracted for subsequent application. Therefore, lots of algorithms are developed to extract the meaningful 3-D co-planar features. Based on data snooping theory, this study proposes an algorithm to extract building roof points from airborne LIDAR data for building reconstruction. Based on the assumption that building roofs are composed of either horizontal or oblique planes and that the heights of roofs should be higher than ground surface, image segmentation algorithms are employed first to segment the possible regions covered roofs from airborne LIDAR data. Based on the theory of data snooping, least square plane fitting algorithm are developed to remove non-roof points and extract the coplanar roof points by fusing those detected roof region outlines for subsequent accurate building reconstruction. From experiments, it also proves the feasibility of the proposed algorithm.