The study of monitoring process or product profiles by means of statistics already has extensive development. Most research works focus on one-dimensional profile monitoring schemes of Phase I or Phase II. This thesis is directed towards two-dimensional profiles with profile-to-profile variation. We utilize principal component analysis (PCA) and multilinear principal component analysis (MPCA) to propose monitoring schemes of Phase II. Since two-dimensional profile data are represented as matrices, we vectorize these matrix data for PCA to analyze the covariance structure of the resulting one-dimensional vectors. With that, we propose a control chart based on principal component scores. For using MPCA, we first utilize the algorithm proposed by Ye (2005) to search for two basis matrices, one for columns and one for rows, and then project an incoming two-dimensional profile onto the two basis matrices simultaneously to obtain a score matrix. We construct a monitoring scheme based on this score matrix. Both control charts use the Hotelling’s T 2 statistic to monitor the stability of the process.The performances of the two methods are evaluated and compared in terms of the average run length. Generally, MPCA performs better than PCA. Moreover, for the execution time, the MPCA method is not affected as much as the PCA method when the size of the profile matrix increases.