EC-ElGamal and Genetic Algorithm-Based Enhancement for Lightweight Scalable Blockchain in IoT Domain

Jayabalasamy, Guruprakash; Koppu, Srinivas

doi:10.1109/access.2020.3013282

Cited by 37 publications

(16 citation statements)

References 40 publications

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“…Gene inversions can be classified as single or multiple inversions. Single-point inversions are performed by inverting only one substring of a chromosome, while multipoint inversions are performed by inverting j substrings of a chromosome with a random number j(1 ≤ j ≤ u) for a pre-given positive integer u [21][22][23].…”

Section: Gene Inversion Operatormentioning

confidence: 99%

Construction Model of E-Commerce Agricultural Product Online Marketing System Based on Blockchain and Improved Genetic Algorithm

Chao¹

2022

Security and Communication Networks

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To build an agricultural product network marketing system in the era of e-commerce, it is necessary for agricultural product business enterprises or farmers to recognize the benefits of using e-commerce to market agricultural products and face up to its influencing factors and to build a support system, application system, and guarantee system with the support of the government to promote agricultural product e-commerce marketing to obtain healthy development. In this study, we study the construction mode of e-commerce agricultural product online marketing system based on the end of blockchain and improved genetic algorithm. This study adopts the design idea of coalition chain and proposes a multichain agricultural product trading information blockchain application technology including agricultural product trading information chain, user information chain, and agricultural product information chain. The agricultural product information chain provides detailed information of agricultural products and ensures the traceability and non-tamperability of the information. It automatically divides the profits of transactions through smart contracts to improve execution efficiency and reduce transaction costs and finally establishes a transparent, efficient, and applicable blockchain architecture for agricultural product transactions.

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Section: Gene Inversion Operatormentioning

confidence: 99%

Construction Model of E-Commerce Agricultural Product Online Marketing System Based on Blockchain and Improved Genetic Algorithm

Chao¹

2022

Security and Communication Networks

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“…In this section, we review some of the methods for finding the problem formulation of the blockchain technology required for developing efficient security enhancement. Guruprakash and Koppu (2020) Guo et al (2021) introduced efficient traceable attribute-based encryption with dynamic access control (TABE-DAC). Blockchains are also used to integrate access control and distributed storage for the sharing of personal information.…”

Section: Related Workmentioning

confidence: 99%

An efficient dynamic access control and security sharing scheme using blockchain

Alkhliwi¹

2022

Int. j. adv. appl. sci.

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This study seeks to understand the role of institutions and organizations that have used cloud service providers to store and share data as ensuring third-party access to storage is a major challenge to avoid data theft and unwanted access. Hence, in this paper, Blockchain-Based Data Access and Secure Sharing Method (BDASS) is introduced to enhance security processes related to personal data through data access control and secure sharing method, the proposed method uses blockchain aggregation, file system (IPFS), dynamic access control (DAC), and ciphertext-attribute-based encryption (CP-ABE) to enhance the security of personal data. To keep the owner safe, a blockchain-based DAC is designed. To keep data storage and sharing secure, the blockchain-based CP-ABE is designed. In this proposed methodology, the data owner encrypts the data they have stored in IPFS, thus enhancing data security, which has been improved with the help of CP-ABE regarding detailed access policy and data owner. Policy parameters are managed by the DAC. In the proposed methodology, the data owner uses the blockchain to control security and access to the data. Finally, the paper has come up with a set of findings in order to achieve data security and access control for the data owner through the blockchain-based approach. To evaluate the performance of the proposed method, MATLAB was used. The proposed technology also contrasts with existing technologies, such as the Blockchain-Based Security Sharing Scheme for Personal Data (BSSPD) as well as the Rivest-Shamir-Adleman Algorithm (RSA) and Elliptic Curve Cryptography (ECC).

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“…They showed that application of ECC significantly help to improve the overall performance. Healthcare Storage optimisation, Efficiency improvement, Access control, Authentication, Security enhancement, Privacy, Identity management [22], [23], [28], [36], [37] IoT Mobile Privacy, Authentication, Key generation, Privacy-preserving, Security enhancement [35], [26] Security Enhancement Enhance security, Runtime optimisation [42], [72] ECDSA Cloud Cloud storage Performance improvement, Security enhancement, Storage, Signature , Privacy, Data management [27], [33], [41], [31] Cryptocurrency Signature generation verification, Provability, Privacy, Enhanced security, Identity Key management [29], [34], [38], [40], [24] Electric vehicle Storage, Security enhancement, Privacy, protection [37], [25], [39] Table 3: Application of ECC in blockchain.…”

Section: Application Of Elliptic Curve Cryptography In Blockchainmentioning

confidence: 99%

“…As presented in Figure 5 on page 284, the Edwards curve security level is far stronger at all security levels of 128,192 and 256 compared with the Weierstrass curve. Security level comparison of rho complexity is derived from [71] and [72].…”

Section: Security Comparisonmentioning

confidence: 99%

An empirical study to demonstrate that EdDSA can be used as a performance improvement alternative to ECDSA in Blockchain and IoT

Jayabalasamy

Koppu

2022

IJCAI

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Digital signatures are a vital part of the digital world. The trust factor in the digital world is ensured with a digital signature. Over the evolution, the purpose remained constant, but the applicability and frontier continued to evolve, thus raising the demand for continuous performance, security level and computational improvement. Especially with emerging IoT, blockchain and cryptocurrency, the digital signature security level and performance improvement demand continue to rise. A digital signature scheme (DSS) is used to generate signatures. This paper investigates the widely used elliptic curve digital signature algorithm (ECDSA) and its application to blockchain and IoT. Then, we performed an empirical comparison of ECDSA with the Edwards curve digital signature algorithm (EdDSA). The study concludes by showing that EdDSA is superior to ECDSA and can be applied in blockchain and IoT domains to reap immediate benefits.Povzetek: Avtorja primerjata dve metodi generiranja varnih digitalnih podpisov in pokažeta, da je EdDSA boljša kot ECDSA.

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EC-ElGamal and Genetic Algorithm-Based Enhancement for Lightweight Scalable Blockchain in IoT Domain

Cited by 37 publications

References 40 publications

Construction Model of E-Commerce Agricultural Product Online Marketing System Based on Blockchain and Improved Genetic Algorithm

Construction Model of E-Commerce Agricultural Product Online Marketing System Based on Blockchain and Improved Genetic Algorithm

An efficient dynamic access control and security sharing scheme using blockchain

An empirical study to demonstrate that EdDSA can be used as a performance improvement alternative to ECDSA in Blockchain and IoT

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