Meaningful Encryption: Generating Visually Meaningful Encrypted Images by Compressive Sensing and Reversible Color Transformation

Meaningful Encryption: Generating Visually Meaningful Encrypted Images by Compressive Sensing and Reversible Color Transformation

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Recently, compressive sensing (CS) and visual security (VS) have caught researchers attention in information security field.However, the measurement matrix is often reused in CS, which makes it vulnerable to chosen plaintext attack (CPA).In addition, when iphone 13 atlanta generating meaningful cipher images, the size of the copyright image is usually not less than the size of the plain image.In order to overcome these drawbacks, a new visually secure image encryption scheme using CS and reversible color transformation is proposed.The algorithm consists of two stages: compression and embedding.

In the first stage, chaotic sequence is used to generate different structurally random matrices.When CS is performed, a random number is added during the process of us polo assn mens sweaters sampling.By choosing different random numbers, different measurement matrices can be used to compress and encrypt the same image in different order.In the second stage, block pairing, color transformation and block replacement are employed to obtain a meaningful image.Different from the block replacement between two similar images, this paper first attempts to replace the block of the copyright image with a compressed noise-like image block.

Thus, the copyright image can be smaller than the plain image, which saves the bandwidth of transmission.Both theoretical analysis and experimental results show that the proposed encryption scheme has good encryption performance, can effectively resist common attacks, and is suitable for meaningful image encryption.