Your search keyword '"S. Krishnaraj"' showing total 2 results

1. Enhancing Cloud Communication Security: A Blockchain-Powered Framework with Attribute-Aware Encryption.

Author

R., Raghunandan K., Kallapu, Bhavya, Dodmane, Radhakrishna, S., Krishnaraj Rao N., Thota, Srinivasarao, and Sahu, Aditya Kumar

Subjects

ACCESS control, ELLIPTIC curves, BLOCKCHAINS, SECURITY systems, PUBLIC key cryptography, KEYWORD searching, TRUST

Abstract

The global production of information continuously increases in quantity and variety. However, the tools and technologies developed to handle such large volumes of data have not adequately met the security and privacy requirements. Existing cloud security systems, often managed by a trusted third party, are susceptible to various security risks. To address these challenges and ensure the protection of personal information, blockchain technology emerges as a crucial solution with substantial potential. This research uses the blockchain-powered attribute-aware encryption method to establish a real-time secure communication approach over the cloud. By employing attribute-based encryption technology, data owners can implement fine-grained search permissions for data users. The proposed solution incorporates accessible encryption technology to enable secure access to encrypted data and facilitate keyword searches on the blockchain. This study provides a functional comparison of recently developed attribute-based encryption algorithms. The access control strategy comprises two access tree types and a linear secret-sharing system, serving as the main components. The elliptic curve's base field was set to 512b, and the bilinear pairing parameter type used was Type-A. This approach involves storing keywords on a remote server and encrypting them using attribute-based encryption. Furthermore, the encrypted data blockchain and the corresponding ciphertext are stored in the blockchain. Numerical experiments were conducted to evaluate the system's key generation, trapdoor building, and keyword retrieval capabilities. [ABSTRACT FROM AUTHOR]

Published

2023

2. Blockchain-Based Automated Market Makers for a Decentralized Stock Exchange.

Author

Dodmane, Radhakrishna, K. R., Raghunandan, N. S., Krishnaraj Rao, Kallapu., Bhavya, Shetty, Surendra, Aslam, Muhammad, and Jilani, Syeda Fizzah

Subjects

MARKET makers, INFORMATION superhighway, STOCKS (Finance), INFORMATION asymmetry, FINANCIAL markets

Abstract

The advancements in communication speeds have enabled the centralized financial market to be faster and more complex than ever. The speed of the order execution has become exponentially faster when compared to the early days of electronic markets. Though the transaction speed has increased, the underlying architecture or models behind the markets have remained the same. These models come with their own disadvantages. The disadvantages are usually faced by non-institutional or small traders. The bigger players, such as financial institutions, have an advantage over smaller players because of factors such as information asymmetry and access to better infrastructure, which give them an advantage in terms of the speed of execution. This makes the centralized stock market an uneven playing field. This paper discusses the limitations of centralized financial markets, particularly the disadvantage faced by non-institutional or small traders due to information asymmetry and better infrastructure access by financial institutions. The authors propose the usage of blockchain technology and the data highway protocol to create a decentralized stock exchange that can potentially eliminate these disadvantages. The data highway protocol is used to generate new blocks with a flexible finality condition that allows for the consensus mechanism to configure security thresholds more freely. The proposed framework is compared with existing frameworks to confirm its effectiveness and identify areas that require improvement. The evaluation of the proposed approach showed that the improved highway protocol boosted the transaction rate compared to the other two mechanisms (PoS and PoW). Specifically, the transaction rate of the proposed model was found to be 2.2 times higher than that of PoS and 12 times higher than that of the PoW consensus model. [ABSTRACT FROM AUTHOR]

Published

2023