Xiaofeng Wang scite author profile

Motivated by privacy and usability requirements in various scenarios where existing cryptographic tools (like secure multi-party computation and functional encryption) are not adequate, we introduce a new cryptographic tool called Controlled Functional Encryption (C-FE). As in functional encryption, C-FE allows a user (client) to learn only certain functions of encrypted data, using keys obtained from an authority. However, we allow (and require) the client to send a fresh key request to the authority every time it wants to evaluate a function on a ciphertext. We obtain efficient solutions by carefully combining CCA2 secure public-key encryption (or rerandomizable RCCA secure public-key encryption, depending on the nature of security desired) with Yao's garbled circuit. Our main contributions in this work include developing and formally defining the notion of C-FE; designing theoretical and practical constructions of C-FE schemes achieving these definitions for specific and general classes of functions; and evaluating the performance of our constructions on various application scenarios.

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Shape recognition based on neural networks trained by differential evolution algorithm

Huang

Wang

et al. 2007

Neurocomputing

131

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Sensing mechanism of SnO2(1 1 0) surface to H2: Density functional theory calculations

Chen

Wang

Shi

et al. 2015

Sensors and Actuators B: Chemical

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Xiaofeng Wang

Controlled Functional Encryption

Shape recognition based on neural networks trained by differential evolution algorithm

Sensing mechanism of SnO2(1 1 0) surface to H2: Density functional theory calculations

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