Abstract
The fuzzy identity-based encryption schemes are attribute-based encryption schemes such that each party with the private key for an attribute set \(\mathcal{S}\) is allowed to decrypt ciphertexts encrypted by an attribute set \(\mathcal{S}'\), if and only if the two sets \(\mathcal{S}\) and \(\mathcal{S}'\) are close to each other as measured by the set-overlap-distance metric. That is, there is a threshold t and, if t out of n attributes of \(\mathcal{S}\) are also included in \(\mathcal{S}'\), the receivers can decrypt the ciphertexts. In previous schemes, this threshold t is fixed when private keys are generated and the length of ciphertexts are linear to n. In this paper, we propose a novel fuzzy identity-based encryption scheme where the threshold t is flexible by nature and the length of ciphertexts are linear to n − t. The latter property makes the scheme short if it allows receivers to decrypt ciphertexts when error rate n − t, i.e., distance between the two attribute sets, is low.
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Furukawa, J., Attrapadung, N., Sakai, R., Hanaoka, G. (2008). A Fuzzy ID-Based Encryption Efficient When Error Rate Is Low. In: Chowdhury, D.R., Rijmen, V., Das, A. (eds) Progress in Cryptology - INDOCRYPT 2008. INDOCRYPT 2008. Lecture Notes in Computer Science, vol 5365. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-89754-5_10
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DOI: https://doi.org/10.1007/978-3-540-89754-5_10
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