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IdentityBased Encryption from the Weil Pairing
, 2001
"... We propose a fully functional identitybased encryption scheme (IBE). The scheme has chosen ciphertext security in the random oracle model assuming an elliptic curve variant of the computational DiffieHellman problem. Our system is based on bilinear maps between groups. The Weil pairing on elliptic ..."
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Cited by 1748 (28 self)
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We propose a fully functional identitybased encryption scheme (IBE). The scheme has chosen ciphertext security in the random oracle model assuming an elliptic curve variant of the computational DiffieHellman problem. Our system is based on bilinear maps between groups. The Weil pairing
Reusable garbled circuits and succinct functional encryption
, 2013
"... Garbled circuits, introduced by Yao in the mid 80s, allow computing a function f on an input x without leaking anything about f or x besides f(x). Garbled circuits found numerous applications, but every known construction suffers from one limitation: it offers no security if used on multiple inputs ..."
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Cited by 42 (3 self)
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x. In this paper, we construct for the first time reusable garbled circuits. The key building block is a new succinct singlekey functional encryption scheme. Functional encryption is an ambitious primitive: given an encryption Enc(x) of a value x, and a secret key skf for a function f, anyone can
A Fuzzy Commitment Scheme
 ACM CCS'99
, 1999
"... We combine wellknown techniques from the areas of errorcorrecting codes and cryptography to achieve a new type of cryptographic primitive that we refer to as a fuzzy commitment scheme. Like a conventional cryptographic commitment scheme, our fuzzy commitment scheme is both concealing and binding: i ..."
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Cited by 344 (1 self)
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that it accepts a witness that is close to the original encrypting witness in a suitable metric, but not necessarily identical. This characteristic of our fuzzy commitment scheme makes it useful for applications such as biometric authentication systems, in which data is subject to random noise. Because the scheme
Succinct Garbling Schemes and Applications
, 2014
"... Assuming the existence of iO for P/poly and oneway functions, we show how to succinctly garble boundedspace computations (BSC) M: the size of the garbled program (as well as the time needed to generate the garbling) only depends on the size and space (including the input and output) complexity of ..."
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Cited by 1 (0 self)
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encryption for BSC from iO for P/poly and oneway functions; • reusable succinct garbling schemes for BSC from iO for P/poly and oneway functions; • succinct iO for BSC from subexponentiallysecure iO for P/poly and subexponentially secure oneway functions; • (Perfect NIZK) SNARGS for bounded space
Optimal Asymmetric Encryption
, 1994
"... Given an arbitrary kbit to kbit trapdoor permutation f and a hash function, we exhibit an encryption scheme for which (i) any string z of length slightly less than k bits can be encrypted as where r= is a simple probabilistic encoding of z depending on the hash function; and (ii) the scheme ca ..."
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Cited by 275 (14 self)
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Given an arbitrary kbit to kbit trapdoor permutation f and a hash function, we exhibit an encryption scheme for which (i) any string z of length slightly less than k bits can be encrypted as where r= is a simple probabilistic encoding of z depending on the hash function; and (ii) the scheme
A survey of peertopeer content distribution technologies
 ACM Computing Surveys
, 2004
"... Distributed computer architectures labeled “peertopeer ” are designed for the sharing of computer resources (content, storage, CPU cycles) by direct exchange, rather than requiring the intermediation or support of a centralized server or authority. Peertopeer architectures are characterized by t ..."
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Cited by 378 (7 self)
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typically allow personal computers to function in a coordinated manner as a distributed storage medium by contributing, searching, and obtaining digital content. In this survey, we propose a framework for analyzing peertopeer content distribution technologies. Our approach focuses on nonfunctional
Optimal Asymmetric Encryption – How to Encrypt with RSA
, 1995
"... Given an arbitrary kbit to kbit trapdoor permutation f and a hash function, we exhibit an encryption scheme for which (i) any string x of length slightly less than k bits can be encrypted as f(rx), where rx is a simple probabilistic encoding of x depending on the hash function; and (ii) the scheme ..."
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Cited by 224 (21 self)
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Given an arbitrary kbit to kbit trapdoor permutation f and a hash function, we exhibit an encryption scheme for which (i) any string x of length slightly less than k bits can be encrypted as f(rx), where rx is a simple probabilistic encoding of x depending on the hash function; and (ii
On the (im)possibility of obfuscating programs
 Lecture Notes in Computer Science
, 2001
"... Informally, an obfuscator O is an (efficient, probabilistic) “compiler ” that takes as input a program (or circuit) P and produces a new program O(P) that has the same functionality as P yet is “unintelligible ” in some sense. Obfuscators, if they exist, would have a wide variety of cryptographic an ..."
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Cited by 348 (24 self)
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approximately preserve the functionality, and (c) only need to work for very restricted models of computation (TC 0). We also rule out several potential applications of obfuscators, by constructing “unobfuscatable” signature schemes, encryption schemes, and pseudorandom function families.
Succinct functional encryption and applications: Reusable garbled circuits and beyond
, 2013
"... Functional encryption is a powerful primitive: given an encryption Enc(x) of a value x and a secret key skf corresponding to a circuit f, it enables efficient computation of f(x) without revealing any additional information about x. Constructing functional encryption schemes with succinct ciphertext ..."
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Cited by 2 (0 self)
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Functional encryption is a powerful primitive: given an encryption Enc(x) of a value x and a secret key skf corresponding to a circuit f, it enables efficient computation of f(x) without revealing any additional information about x. Constructing functional encryption schemes with succinct
Implementing Gentry’s fullyhomomorphic encryption scheme
 of Lecture Notes in Computer Science
"... We describe a working implementation of a variant of Gentry’s fully homomorphic encryption scheme (STOC 2009), similar to the variant used in an earlier implementation effort by Smart and Vercauteren (PKC 2010). Smart and Vercauteren implemented the underlying “somewhat homomorphic ” scheme, but wer ..."
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Cited by 133 (3 self)
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We describe a working implementation of a variant of Gentry’s fully homomorphic encryption scheme (STOC 2009), similar to the variant used in an earlier implementation effort by Smart and Vercauteren (PKC 2010). Smart and Vercauteren implemented the underlying “somewhat homomorphic ” scheme
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