In this paper, we study timed-release cryptography with information-theoretic security. As fundamental cryptographic primitives with information-theoretic security, we can consider key-agreement, encryption, and authentication codes. Therefore, in this paper we deal with information-theoretic timed-release security for all those primitives. Specically, we propose models and formal-izations of security for information-theoretic timed-release key-agreement, encryption, and authenti-cation codes; we also derive tight lower bounds on entities ' memory-sizes required for all those ones; and we show optimal constructions of all those ones. Furthermore, we investigate a relationship of mechanisms between information-theoretic timed-release ke...
We study the design of cryptographic primitives resistant to a large class of side-channel attacks, ...
Timed-release encryption allows senders to send a message to a receiver which cannot decrypt until a...
Abstract. We consider the problem of sending messages \into the future." Previous construct...
Abstract—While information-theoretic security is stronger than computational security, it has long b...
This thesis is divided into two distinct parts. The first part of the thesis explores security issue...
Abstract—Timed-Release Encryption(TRE) is an encryption mechanism that allows a receiver to decrypt ...
Security assurance is an important challenge for modern computing. Intentional information release (...
Time travel has always been a fascinating topic in literature and physics. In cryptography, one may ...
There are two principal notions of security for cryptographic systems. For a few systems, they can b...
In this paper, we propose a new notion of timed encryption, in which the encryption is secure withi...
Abstract: We propose a new server-based protocol for timed-release encryption (TRE), sometimes refer...
In this paper, we revisit formalizations of information-theoretic security for symmetric-key encrypt...
We discuss the setting of information-theoretically secure channel protocols where confidentiality o...
. We consider the problem of sending messages "into the future. " Previous constructions f...
Cryptographic primitive of timed-release encryption (TRE) enables the sender to encrypt a message wh...
We study the design of cryptographic primitives resistant to a large class of side-channel attacks, ...
Timed-release encryption allows senders to send a message to a receiver which cannot decrypt until a...
Abstract. We consider the problem of sending messages \into the future." Previous construct...
Abstract—While information-theoretic security is stronger than computational security, it has long b...
This thesis is divided into two distinct parts. The first part of the thesis explores security issue...
Abstract—Timed-Release Encryption(TRE) is an encryption mechanism that allows a receiver to decrypt ...
Security assurance is an important challenge for modern computing. Intentional information release (...
Time travel has always been a fascinating topic in literature and physics. In cryptography, one may ...
There are two principal notions of security for cryptographic systems. For a few systems, they can b...
In this paper, we propose a new notion of timed encryption, in which the encryption is secure withi...
Abstract: We propose a new server-based protocol for timed-release encryption (TRE), sometimes refer...
In this paper, we revisit formalizations of information-theoretic security for symmetric-key encrypt...
We discuss the setting of information-theoretically secure channel protocols where confidentiality o...
. We consider the problem of sending messages "into the future. " Previous constructions f...
Cryptographic primitive of timed-release encryption (TRE) enables the sender to encrypt a message wh...
We study the design of cryptographic primitives resistant to a large class of side-channel attacks, ...
Timed-release encryption allows senders to send a message to a receiver which cannot decrypt until a...
Abstract. We consider the problem of sending messages \into the future." Previous construct...