Contents
Project Synopsis
Abstract:
While not limited to crypto-currency, distributed mechanisms have become an obvious solution. Instead, it has inspired smart houses, electrical grids, agriculture, health care, transportation, and others to develop robust privacy and security solutions. IoT-based smart devices form a network of devices that work together to run these Cyber-Physical Systems. Thus, all their architectural frameworks include security and privacy. The Internet of Things (IoT), Internet of Cyber-Physical Things (IoCPT), Cyber-Physical Systems (CPSs), and Internet of Everything (IoE) have increased the need for distributed solutions. Blockchain, a distributed ledger technology, may aid privacy and security solutions. We update blockchain-based authentication mechanisms that enforce decentralized architectures. We discuss IoT-enabled smart device authentication security. We evaluate and analyze literature schemes that present authentication challenges in terms of computational costs, communication overheads, and robustness models. Thus, lightweight solutions for managing, maintaining, processing, and storing IoT-enabled asset authentication data are necessary. Cloud computing supports integration. Blockchain and lightweight cryptosystems are promising areas for further research. Finally, we discuss future research challenges to improve ambiguities.
Introduction:
IoT-based smart devices are widely used in Cyber-Physical Systems, requiring secure and private authentication. Interconnected IoT devices power smart homes, electrical grids, agriculture, healthcare, and transportation. Thus, architectural frameworks supporting these systems must consider security and privacy.
Objectives:
This project examines blockchain-based authentication mechanisms for IoT-enabled smart devices. This research identifies computational costs, communication overheads, and robustness models by understanding authentication security challenges. Lightweight solutions for managing, maintaining, processing, and storing IoT-enabled asset authentication data are investigated.
Existed Method:
The project examines blockchain authentication methods for IoT-enabled smart devices. The study evaluates schemes’ computational costs, communication overheads, and robustness by reviewing the literature.
Proposed Method:
This project proposes lightweight authentication solutions for IoT-enabled smart devices. We aim to improve authentication security and privacy by integrating cloud computing and exploring decentralized ledger technology like blockchain and lightweight cryptosystems.
Advantages:
Blockchain footprint authentication of IoT-enabled smart devices has many benefits. First, its decentralized architecture guarantees authentication data transparency and immutability. Second, lightweight authentication solutions reduce computational and communication costs. Thirdly, cloud computing and decentralized ledger technology improve IoT-enabled smart device security and privacy.
Conclusion:
This project summary emphasizes blockchain-based authentication for IoT-enabled smart devices in smart cities. The research analyzes authentication schemes and proposes lightweight solutions to address security issues. This project advances IoT privacy and security by integrating cloud computing and exploring decentralized ledger technology.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.
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