In 2015, Chou and Orlandi presented an oblivious transfer protocol that already drew a lot of attention both from theorists and practitioners due to its extreme simplicity and high efficiency. Chou and Orlandi claimed that their protocol is universally composable secure (UC-secure) in the random oracle model under dynamic corruptions. UC-security is a very strong security guarantee that assures that, not only the protocol in itself is secure, but can be also used safely in larger protocols. Unfortunately, in this work we point out a flaw in their security proof for the case of a corrupt sender. In more detail, we define a decisional problem and we prove that, if a correct security proof for the Chou and Orlandi's protocol is provided, then ...
We demonstrate how to carry out cryptographic security analysis of distributed protocols within the ...
We study the cryptographic complexity of two-party differentially-private protocols for a large natu...
Oblivious Transfer (OT) is the fundamental building block of cryptographic protocols. In this paper ...
In 2015, Chou and Orlandi presented an oblivious transfer protocol that already drew a lot of attent...
peer reviewedIn 2015, Chou and Orlandi presented an oblivious transfer protocol that already drew a ...
Oblivious Transfer (OT) is a simple, yet fundamental primitive which suffices to achieve almost ever...
We show that random oblivious transfer protocols that are statistically secure according to a defini...
Oblivious Transfer (OT) is a fundamental cryptographic protocol that finds a number of applications,...
Without the use of computational assumptions, unconditionally secure oblivious transfer (OT) is impo...
We describe how to construct an oblivious transfer protocol which security is based on subset member...
In this work, we study the intrinsic complexity of black-box Universally Composable (UC) secure comp...
1 We demonstrate how to carry out cryptographic security analysis of distributed protocols within th...
The seminal result of Impagliazzo and Rudich (STOC 1989) gave a black-box separation between one-way...
Oblivious transfer (OT) is one of the most fundamental primitives in cryptography and is widely used...
Abstract—In a distributed key distribution scheme, a set of servers helps a set of users in a group ...
We demonstrate how to carry out cryptographic security analysis of distributed protocols within the ...
We study the cryptographic complexity of two-party differentially-private protocols for a large natu...
Oblivious Transfer (OT) is the fundamental building block of cryptographic protocols. In this paper ...
In 2015, Chou and Orlandi presented an oblivious transfer protocol that already drew a lot of attent...
peer reviewedIn 2015, Chou and Orlandi presented an oblivious transfer protocol that already drew a ...
Oblivious Transfer (OT) is a simple, yet fundamental primitive which suffices to achieve almost ever...
We show that random oblivious transfer protocols that are statistically secure according to a defini...
Oblivious Transfer (OT) is a fundamental cryptographic protocol that finds a number of applications,...
Without the use of computational assumptions, unconditionally secure oblivious transfer (OT) is impo...
We describe how to construct an oblivious transfer protocol which security is based on subset member...
In this work, we study the intrinsic complexity of black-box Universally Composable (UC) secure comp...
1 We demonstrate how to carry out cryptographic security analysis of distributed protocols within th...
The seminal result of Impagliazzo and Rudich (STOC 1989) gave a black-box separation between one-way...
Oblivious transfer (OT) is one of the most fundamental primitives in cryptography and is widely used...
Abstract—In a distributed key distribution scheme, a set of servers helps a set of users in a group ...
We demonstrate how to carry out cryptographic security analysis of distributed protocols within the ...
We study the cryptographic complexity of two-party differentially-private protocols for a large natu...
Oblivious Transfer (OT) is the fundamental building block of cryptographic protocols. In this paper ...