首页|Towards cheat-preventing in block-based progressive visual cryptography for general access structures
Towards cheat-preventing in block-based progressive visual cryptography for general access structures
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NSTL
Elsevier
Existing block-based progressive visual cryptography schemes (BPVCS) that prevent cheating are limited to (2, n) and (k, n) thresholds. They are unsuitable for implementing complex sharing techniques in the actual world. A cheating immune BPVCS for general access structure (GAS) is proposed in this paper. To find the parameters that make up the proposed scheme, a simplified multiple assignment procedure based on integer linear programming is introduced. The secret parts can be decrypted by the members of a qualified set. Participants in a forbidden set, on the other hand, are not allowed to know about the secret. The proposed scheme includes cheat-prevention and progressive recovery capabilities. In addition, to generate meaningful shadows for BPVCS, a modified extended VCS (EVCS) is proposed. Our modified EVCS can solve the cover-interference problem in conventional BPVCS. The effectiveness and benefits of the proposed BPVCS are supported through the experimental findings and comparisons. (c) 2021 Elsevier Inc. All rights reserved.
NSTL
Elsevier
