Related papers: Artificial Intelligence for Secured Information Systems in Smart Cities: Collaborative IoT Computing with Deep Reinforcement Learning and Blockchain

Artificial Intelligence for Secured Information Systems in Smart Cities: Collaborative IoT Computing with Deep Reinforcement Learning and Blockchain

URL: http://arxiv.org/abs/2409.16444v1
Date: Tue, 24 Sep 2024 20:25:20 GMT
Title: Artificial Intelligence for Secured Information Systems in Smart Cities: Collaborative IoT Computing with Deep Reinforcement Learning and Blockchain
Authors: Amin Zakaie Far, Mohammad Zakaie Far, Sonia Gharibzadeh, Shiva Zangeneh, Leila Amini, Morteza Rahimi,
Abstract summary: The accelerated expansion of the Internet of Things (IoT) has raised challenges associated with privacy, security, and data integrity, specifically in infrastructures such as smart cities or smart manufacturing. This paper investigates the integration of blockchain and deep reinforcement learning to optimize mobile transmission and secure data exchange in IoT-assisted smart cities.
Score: 0.8906214436849204
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The accelerated expansion of the Internet of Things (IoT) has raised critical challenges associated with privacy, security, and data integrity, specifically in infrastructures such as smart cities or smart manufacturing. Blockchain technology provides immutable, scalable, and decentralized solutions to address these challenges, and integrating deep reinforcement learning (DRL) into the IoT environment offers enhanced adaptability and decision-making. This paper investigates the integration of blockchain and DRL to optimize mobile transmission and secure data exchange in IoT-assisted smart cities. Through the clustering and categorization of IoT application systems, the combination of DRL and blockchain is shown to enhance the performance of IoT networks by maintaining privacy and security. Based on the review of papers published between 2015 and 2024, we have classified the presented approaches and offered practical taxonomies, which provide researchers with critical perspectives and highlight potential areas for future exploration and research. Our investigation shows how combining blockchain's decentralized framework with DRL can address privacy and security issues, improve mobile transmission efficiency, and guarantee robust, privacy-preserving IoT systems. Additionally, we explore blockchain integration for DRL and outline the notable applications of DRL technology. By addressing the challenges of machine learning and blockchain integration, this study proposes novel perspectives for researchers and serves as a foundational exploration from an interdisciplinary standpoint.

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