Face recognition is an old but important issue in the field of pattern recognition, and many of its related research and methods have become milestones, such as Eigenface (PCA-based method) and Fisherface (LDA-based method). Until now, PCA and LDA are the most widely used statistical-based techniques, and the latter is the most popular and a still ongoing research topic; however, LDA is prone to suffer from the small sample size problem and needs to be coped with. On the other hand, general feature extraction methods are restrict to their own properties, thus, the selection of classifier could affect the recognition rate. This thesis proposed a regression-based technique ‒ Classwise Partial Least Squares (CW-PLS), which has the following properties: 1) implicitly classify data during feature extraction, 2) the trained regression model can be used to predict new testing data without other classifier, 3) computation is highly parallelizable, 4) completely avoid the convergence problem that occurs in traditional PLS, and thus reduces computational time, 5) high recognition rate with few principal components. In the experiment, ORL, Yale, and PIE databases are used for verification, where Eigenface, Fisherface, and traditional PLS are compared with CW-PLS. The results shows that CW-PLS works much faster than traditional PLS and the recognition rates are the highest among all three methods; moreover, the dimension reduced is significantly lower, thus, only a few principal components are sufficient to represent the original data.