The booming of powerful sharing/transmission tools of digital media contents has created an urgent need to explore the algorithms of information hiding which is widely adopted in copyright protection, content authentication, and media asset management. Digital watermarking or data hiding is the process of embedding information into a digital medium such as an image, audio or video. However, for many data hiding scheme, there exist a drawback that the process usually introduces irreversible degradation of the original content. Although this degradation is slight, it may not acceptable in applications dictating high fidelity, e.g. military and medical uses, and hence, there is an essential for a reversible data embedding. In this thesis, we would present a lossless data hiding algorithm for color images and videos based on Jun Tian’s difference expansion (DE) technique. Tian used a difference expansion transform of a pair of pixels to embed a large amount of data into gray scale images. In this work, we would apply the prediction errors to a cover media with the concept of difference expansion of triplets, which is a derivation of DE method. The performance of the proposed reversible data hiding scheme is evaluated by using different images and compared with two methods, proposed by Adnan M. Alattar and V. Sachnev et al. Further, we would like to employ this algorithm to the blocked-based DCT coefficients, that is to say, the video contents. We expected the results indicate that the proposed method allowed a high embedding capacity and less image degradation