块链
计算机科学
认证(法律)
计算机网络
方案(数学)
计算机安全
骨料(复合)
签名(拓扑)
数字签名
散列函数
数学
几何学
数学分析
复合材料
材料科学
作者
Sohini Chowdhury,Rupali Gill,Arti Badhoutiya,Arun Pratap Srivastava,Akhilesh Kumar Khan,Rajesh Singh
标识
DOI:10.1109/iciptm59628.2024.10563901
摘要
The article introduces ASAS, a blockchain-based aggregate signature authentication method tailored for smart home networks. Leveraging blockchain's decentralized and tamper-proof nature, ASAS enhances security by combining gathered signatures. ASAS ensures trustworthiness and efficiency, contributing to a robust and risk-free framework for smart homes. The authentication process involves centikatals identities, enabling identity verification for intelligent terminals with minimal input. These features are enabled by blockchain technology, ensuring compliance with security and privacy standards such as anonymity, traceability, and confidentiality. The article evaluates ASAS's design, functionality, and ability to address authentication and security challenges within smart home ecosystems. Through real-world application and scrutiny, ASAS's viability and conformity to security standards are validated.
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