Rib is a typical feature in CAD models. It is generally used to provide extra strength for the product design. In CAE analysis, it is required to convert CAD models into meshes. The extraction of ribs from a CAD model can help the development of the meshing algorithm for generating appropriate meshes. The purpose of this study is to develop a feature recognition algorithm for ribs for the application in CAE meshing process. In the proposed algorithm, the topological data among edges and faces must be established. We employ the AAG (attributed adjacency graph) method to record topological information among edges and faces. Moreover, fillets often appear on the CAD model and complicate the adjacent relationship among edges and faces. Therefore, a topological data related to fillets must also be established and employed. The search method used in the proposed algorithm is a rule-based method, in which a set of rules are provided to determine the faces which belong to a rib. The overall flowchart of the proposed method is described in this thesis, and a detailed description for each of the steps is explained. To verify the feasibility of the proposed method, more than 30 CAD models are tested and results are listed in tables and discussed. Most of the ribs on these cases can be detected accurately. The situations which may result in erroneous recognition of ribs for limited cases are discussed.