scholarly journals Public-Key Revocation and Tracing Schemes with Subset Difference Methods Revisited

2014 ◽  
pp. 1-18 ◽  
Author(s):  
Kwangsu Lee ◽  
Woo Kwon Koo ◽  
Dong Hoon Lee ◽  
Jong Hwan Park
Keyword(s):  
Public Key ◽  
Key Revocation ◽  
Difference Methods ◽  
Subset Difference

scholarly journals BESTIE: Broadcast Encryption Scheme for Tiny IoT Equipment

Electronics ◽  
2020 ◽  
Vol 9 (9) ◽  
pp. 1389
Author(s):  
Jiwon Lee ◽  
Jihye Kim ◽  
Hyunok Oh
Keyword(s):  
The Other ◽  
Public Key ◽  
Broadcast Encryption ◽  
Encryption Scheme ◽  
The Public ◽  
Private Key ◽  
Diffie Hellman ◽  
The Standard Model ◽  
Encryption Decryption ◽  
Subset Difference

In public key broadcast encryption, anyone can securely transmit a message to a group of receivers such that privileged users can decrypt it. The three important parameters of the broadcast encryption scheme are the length of the ciphertext, the size of private/public key, and the performance of encryption/decryption. It is suggested to decrease them as much as possible; however, it turns out that decreasing one increases the other in most schemes. This paper proposes a new broadcast encryption scheme for tiny Internet of Things (IoT) equipment (BESTIE), minimizing the private key size in each user. In the proposed scheme, the private key size is O(logn), the public key size is O(logn), the encryption time per subset is O(logn), the decryption time is O(logn), and the ciphertext text size is O(r), where n denotes the maximum number of users, and r indicates the number of revoked users. The proposed scheme is the first subset difference-based broadcast encryption scheme to reduce the private key size O(logn) without sacrificing the other parameters. We prove that our proposed scheme is secure under q-Simplified Multi-Exponent Bilinear Diffie-Hellman (q-SMEBDH) in the standard model.

scholarly journals Combinatorial Subset Difference—IoT-Friendly Subset Representation and Broadcast Encryption

Sensors ◽  
2020 ◽  
Vol 20 (11) ◽  
pp. 3140 ◽  
Author(s):  
Jiwon Lee ◽  
Seunghwa Lee ◽  
Jihye Kim ◽  
Hyunok Oh
Keyword(s):  
Public Key ◽  
Broadcast Encryption ◽  
Experimental Result ◽  
The Internet ◽  
Ip Address ◽  
The Public ◽  
Semantic Security ◽  
Subset Difference ◽  
Chosen Ciphertext Attack ◽  
The Internet Of Things

In the Internet of Things (IoT) systems, it is often required to deliver a secure message to a group of devices. The public key broadcast encryption is an efficient primitive to handle IoT broadcasts, by allowing a user (or a device) to broadcast encrypted messages to a group of legitimate devices. This paper proposes an IoT-friendly subset representation called Combinatorial Subset Difference (CSD), which generalizes the existing subset difference (SD) method by allowing wildcards (*) in any position of the bitstring. Based on the CSD representation, we first propose an algorithm to construct the CSD subset, and a CSD-based public key broadcast encryption scheme. By providing the most general subset representation, the proposed CSD-based construction achieves a minimal header size among the existing broadcast encryption. The experimental result shows that our CSD saves the header size by 17% on average and more than 1000 times when assuming a specific IoT example of IP address with 20 wildcards and 2 20 total users, compared to the SD-based broadcast encryption. We prove the semantic security of CSD-based broadcast encryption under the standard l-BDHE assumption, and extend the construction to a chosen-ciphertext-attack (CCA)-secure version.

scholarly journals Improved Identity Based Encryption System (IIBES): A Mechanism for Eliminating the Key-Escrow Problem

2021 ◽  
Vol 5 (1) ◽  
pp. 77-84
Author(s):  
Maitri Patel ◽  
Rajan Patel
Keyword(s):  
Key Management ◽  
Public Key Cryptography ◽  
Public Key ◽  
Key Generation ◽  
Revolutionary Change ◽  
Key Escrow ◽  
Identity Based Encryption ◽  
Identity Based ◽  
Key Revocation ◽  
Identity Based Cryptography

A revolutionary change to public-key cryptography can be considered as an Identity Based Cryptography (IBC) in which identity of the receiver is being used as a public key for encrypting a message and Key Generation Centre (KGC). IBC will generate and distribute the private key to each user to decrypt a message. The thought behind presenting the scheme was to improve and reduce the complexity of certificate and key management, but it also gives rise to key escrow problem, access to encrypted information to unauthorized users. The paper represents Improved Identity-Based Encryption Scheme (IIBES) for Domain Name System (DNS) security which provides confidentiality and authentication through modified identity based encryption and identity based digital signatures. The IIBES comprises key revocation mechanism for non-revoked users and also eliminates key escrow problem. Thus, the IIBES aids to implement the identity-based cryptography more safely in reality and protects DNS against cache poisoning, spoofing attack and masquerade attack. Doi: 10.28991/esj-2021-01259 Full Text: PDF

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