Multi-key Fully homomorphic encryption (MFHE)schemes allow computation on the encrypted data under different keys. However, traditional multi-key FHE schemes based on Learning with errors (LWE) have the undesirable property that is the number of keys has to be fixed in advance. A dynamic multi-key FHE scheme is the most versatile variant which the information about the participants is not required before key generation. To support further homomorphic computation on extended ciphertexts and ciphertexts encrypted under additional keys, Peikert and Shiehian (TCC ’16) proposed a leveled dynamic multi-key FHE scheme. Nevertheless, it introduces the circular-security assumption for the ...
A fully homomorphic encryption (FHE) scheme allows anyone to transform an encryption of a message, m...
Multikey fully homomorphic encryption proposed by Lopez-Alt et al. (STOC12) is a significant primiti...
Since Gentry discovered in 2009 the first fully homomorphic encryption scheme, the last few years h...
Multi-key Fully homomorphic encryption (MFHE)schemes allow computation on the encrypted data und...
There has been a great deal of work on improving the efficiency of fully homomorphic encryption (FHE...
With the development of new computing models such as cloud computing, user’s data are at the risk of...
We propose multi target homomorphic attribute-based encryption (MT-HABE) with fully dynamic homomorp...
Traditional fully homomorphic encryption (FHE) schemes support computation on data encrypted under a...
The efficiency of fully homomorphic encryption is a big question at present. To improve efficiency o...
Very recently, Costache and Smart proposed a fully homomorphic encryption (FHE) scheme based on the ...
Multi-key Fully Homomorphic Encryption (\MK), based on the Learning With Error assumption (\LWE), us...
We construct a general multiparty computation (MPC) protocol with only two rounds of interaction in ...
Fully homomorphic encryption (FHE) is a class of encryption algorithms that support any computation ...
Since Gentry's breakthrough construction of fully homomorphic encryption from lattice-based assumpti...
We present a novel approach to fully homomorphic encryption (FHE) that dramatically improves perform...
A fully homomorphic encryption (FHE) scheme allows anyone to transform an encryption of a message, m...
Multikey fully homomorphic encryption proposed by Lopez-Alt et al. (STOC12) is a significant primiti...
Since Gentry discovered in 2009 the first fully homomorphic encryption scheme, the last few years h...
Multi-key Fully homomorphic encryption (MFHE)schemes allow computation on the encrypted data und...
There has been a great deal of work on improving the efficiency of fully homomorphic encryption (FHE...
With the development of new computing models such as cloud computing, user’s data are at the risk of...
We propose multi target homomorphic attribute-based encryption (MT-HABE) with fully dynamic homomorp...
Traditional fully homomorphic encryption (FHE) schemes support computation on data encrypted under a...
The efficiency of fully homomorphic encryption is a big question at present. To improve efficiency o...
Very recently, Costache and Smart proposed a fully homomorphic encryption (FHE) scheme based on the ...
Multi-key Fully Homomorphic Encryption (\MK), based on the Learning With Error assumption (\LWE), us...
We construct a general multiparty computation (MPC) protocol with only two rounds of interaction in ...
Fully homomorphic encryption (FHE) is a class of encryption algorithms that support any computation ...
Since Gentry's breakthrough construction of fully homomorphic encryption from lattice-based assumpti...
We present a novel approach to fully homomorphic encryption (FHE) that dramatically improves perform...
A fully homomorphic encryption (FHE) scheme allows anyone to transform an encryption of a message, m...
Multikey fully homomorphic encryption proposed by Lopez-Alt et al. (STOC12) is a significant primiti...
Since Gentry discovered in 2009 the first fully homomorphic encryption scheme, the last few years h...