In this paper, we present the notion of recipient-revocable identity-based broadcast encryption scheme. In this notion, a content provider will produce encrypted content and send them to a third party (which is a broadcaster). This third party will be able to revoke some identities from the cipher-text. We present a security model to capture these requirements, as well as a concrete construction. The ciphertext consists of k + 3 group elements, assuming that the maximum number of revocation identities is k. That is, the ciphertext size is linear in the maximal size of R, where R is the revocation identity set. However, we say that the additional elements compared to that from an IBBE scheme are only for the revocation but not for decryption...
Attribute Based Broadcast Encryption (ABBE) is a combination of Attribute Based Encryption (ABE) and...
Abstract—In the standard setting of broadcast encryption, information about the receivers is transmi...
The British Computer Society 2017. All rights reserved. A revocable ID-based broadcast encryption sc...
Traditionally, a ciphertext from an identity-based broadcast encryption can be distributed to a grou...
International audienceBroadcast Encryption is a fundamental cryptographic primitive, that gives the ...
Part 2: Work in ProgressInternational audienceIn this work, we design a new attribute-based encrypti...
In this work, we design a new attribute-based encryption scheme with the revocation capability. In t...
© 2019 Elsevier B.V. Identity-based broadcast encryption (IBBE) enables a sender to broadcast a mess...
Identity-based revocation (IBR) is a specific kind of broadcast encryption that can effectively send...
Digital security as a service is a crucial aspect as it deals with user privacy provision and secure...
International audienceIn this paper, we describe a new broadcast encryption scheme for stateless rec...
Abstract. Broadcasting is a very efficient way to securely transmit information to a large set of ge...
An Identity-based encryption (IBE) simplifies key management by taking users’ identities as pu...
An Identity-based encryption (IBE) simplifies key management by taking users’ identities as public k...
For identity-based encryption (IBE), if a user’s private key is compromised, the security of his/her...
Attribute Based Broadcast Encryption (ABBE) is a combination of Attribute Based Encryption (ABE) and...
Abstract—In the standard setting of broadcast encryption, information about the receivers is transmi...
The British Computer Society 2017. All rights reserved. A revocable ID-based broadcast encryption sc...
Traditionally, a ciphertext from an identity-based broadcast encryption can be distributed to a grou...
International audienceBroadcast Encryption is a fundamental cryptographic primitive, that gives the ...
Part 2: Work in ProgressInternational audienceIn this work, we design a new attribute-based encrypti...
In this work, we design a new attribute-based encryption scheme with the revocation capability. In t...
© 2019 Elsevier B.V. Identity-based broadcast encryption (IBBE) enables a sender to broadcast a mess...
Identity-based revocation (IBR) is a specific kind of broadcast encryption that can effectively send...
Digital security as a service is a crucial aspect as it deals with user privacy provision and secure...
International audienceIn this paper, we describe a new broadcast encryption scheme for stateless rec...
Abstract. Broadcasting is a very efficient way to securely transmit information to a large set of ge...
An Identity-based encryption (IBE) simplifies key management by taking users’ identities as pu...
An Identity-based encryption (IBE) simplifies key management by taking users’ identities as public k...
For identity-based encryption (IBE), if a user’s private key is compromised, the security of his/her...
Attribute Based Broadcast Encryption (ABBE) is a combination of Attribute Based Encryption (ABE) and...
Abstract—In the standard setting of broadcast encryption, information about the receivers is transmi...
The British Computer Society 2017. All rights reserved. A revocable ID-based broadcast encryption sc...