Energy-Efficient Routing in Wireless Sensor Networks Using Blockchain-Driven Deep Learning Architectures

Authors

  • Mrs. Saranya S UG Scholar, Department of Computer Science and Engineering, RAAK College of Engineering and Technology, Puducherry, India Author
  • Aravind V Assistant Professor, Department of Computer Science and Engineering, RAAK College of Engineering and Technology, Puducherry, India Author
  • Marimuthu N UG Scholar, Department of Computer Science and Engineering, RAAK College of Engineering and Technology, Puducherry, India Author
  • Mohanraj D UG Scholar, Department of Computer Science and Engineering, RAAK College of Engineering and Technology, Puducherry, India Author

DOI:

https://doi.org/10.32628/IJSRST

Keywords:

Wireless Sensor Networks, Energy-Efficient Routing, Blockchain, Deep Learning, Decentralized Ledger

Abstract

Wireless Sensor Networks (WSNs) have emerged as a pivotal technology for diverse applications, yet they face significant challenges related to energy consumption and data security. This study proposes an innovative approach leveraging blockchain-driven deep learning architectures to address these challenges in WSNs. The integration of blockchain technology ensures secure data transmission and validates transactions while deep learning models optimize energy-efficient routing protocols. The primary focus of this research lies in developing a novel framework that harnesses the advantages of blockchain's decentralized ledger for secure and tamper-resistant data handling in WSNs. Additionally, deep learning techniques, such as neural networks and reinforcement learning, are employed to optimize routing strategies and minimize energy consumption across sensor nodes. The proposed architecture aims to enhance network performance by mitigating the overhead associated with traditional routing protocols while ensuring data integrity and confidentiality. The integration of blockchain technology enables a transparent and immutable record of data transactions, thereby fortifying the network against various security threats. The study conducts comprehensive simulations and experiments to evaluate the performance of the proposed framework. Metrics including energy efficiency, network lifetime, latency, and security are assessed to validate the effectiveness of the blockchain-driven deep learning architecture in WSNs. The findings of this research demonstrate the potential of this hybrid approach in significantly improving the energy efficiency and security of wireless sensor networks. The results showcase promising advancements in mitigating the energy constraints of sensor nodes while maintaining robust security measures, thereby contributing to the evolution of sustainable and secure WSNs.

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References

Nouman, M., Qasim, U., Nasir, H., Almasoud, A., Imran, M., & Javaid, N. (2023). Malicious Node Detection Using Machine Learning and Distributed Data Storage Using Blockchain in WSNs. IEEE Access, 11, 6106-6121.

Kandasamy, M., Anto, S., Baranitharan, K., Rastogi, R., Satwik, G., & Sampathkumar, A. (2023). Smart Grid Security Based on Blockchain with Industrial Fault Detection Using Wireless Sensor Network and Deep Learning Techniques. Journal of Sensors, 2023.

Gebremariam, G. G., Panda, J., & Indu, S. (2023). Blockchain-Based Secure Localization against Malicious Nodes in IoT-Based Wireless Sensor Networks Using Federated Learning. Wireless Communications and Mobile Computing, 2023.

Elsadig, M. A. (2023). Detection of Denial-of-Service Attack in Wireless Sensor Networks: A lightweight Machine Learning Approach. IEEE Access.

Ismail, S., Dawoud, D. W., & Reza, H. (2023). Securing Wireless Sensor Networks Using Machine Learning and Blockchain: A Review. Future Internet, 15(6), 200.

El Akrami, N., Hanine, M., Flores, E. S., Aray, D. G., & Ashraf, I. (2023). Unleashing the Potential of Blockchain and Machine Learning: Insights and Emerging Trends from Bibliometric Analysis. IEEE Access.

Afaq, Y., & Manocha, A. (2023). Blockchain and Deep Learning Integration for Various Application: A Review. Journal of Computer Information Systems, 1-14.

Sable, N. P., & Rathod, V. U. (2023). Rethinking Blockchain and Machine Learning for Resource-Constrained WSN. In AI, IoT, Big Data and Cloud Computing for Industry 4.0 (pp. 303-318). Cham: Springer International Publishing.

Sudheer, B. N., & Sujatha, K. (2023, March). A Brief Survey on Data Aggregation and Data Compression Models using Blockchain Model in Wireless Sensor Network. In 2023 International Conference on Innovative Data Communication Technologies and Application (ICIDCA) (pp. 406-413). IEEE.

Ismail, S., Dawoud, D. W., & Reza, H. (2023). Securing Wireless Sensor Networks Using Machine Learning and Blockchain: A Review. Future Internet 2023, 15, 200.

Saba, T., Haseeb, K., Rehman, A., & Jeon, G. (2023). Blockchain-Enabled Intelligent IoT Protocol for High-Performance and Secured Big Financial Data Transaction. IEEE Transactions on Computational Social Systems.

Kalapaaking, A. P., Khalil, I., & Yi, X. (2023). Blockchain-based Federated Learning with SMPC Model Verification Against Poisoning Attack for Healthcare Systems. IEEE Transactions on Emerging Topics in Computing.

Saba, T., Rehman, A., Haseeb, K., Bahaj, S. A., & Lloret, J. (2023). Trust-based decentralized blockchain system with machine learning using Internet of agriculture things. Computers and Electrical Engineering, 108, 108674.

Ali, A., Pasha, M. F., Guerrieri, A., Guzzo, A., Sun, X., Saeed, A., ... & Fortino, G. (2023). A Novel Homomorphic Encryption and Consortium Blockchain-based Hybrid Deep Learning Model for Industrial Internet of Medical Things. IEEE Transactions on Network Science and Engineering.

Ajao, L. A., & Apeh, S. T. (2023). Secure Fog Computing Vulnerability in Smart City using Machine Learning and Blockchain Technology. networks, 20, 23.

Cai, J., Liang, W., Li, X., Li, K., Gui, Z., & Khan, M. K. (2023). Gtxchain: A secure iot smart blockchain architecture based on graph neural network. IEEE Internet of Things Journal.

Mazumdar, H., Chakraborty, C., Venkatakrishnan, S. B., Kaushik, A., & Gohel, H. A. (2023). Quantum-inspired heuristic algorithm for secure healthcare prediction using blockchain technology. IEEE Journal of Biomedical and Health Informatics.

Rajendran, T., Bharathi, S. S., Sridhar, S., & Anitha, T. (2023). A Study on Blockchain Technologies for Security and Privacy Applications in a Network. SSRG International Journal of Electronics and Communication Engineering, 10(6), 69-91.

Heidari, A., Navimipour, N. J., & Unal, M. (2023). A Secure Intrusion Detection Platform Using Blockchain and Radial Basis Function Neural Networks for Internet of Drones. IEEE Internet of Things Journal.

Kumar, P., Kumar, R., Gupta, G. P., Tripathi, R., Jolfaei, A., & Islam, A. N. (2023). A blockchain-orchestrated deep learning approach for secure data transmission in IoT-enabled healthcare system. Journal of Parallel and Distributed Computing, 172, 69-83.

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Published

06-05-2024

Issue

Section

Research Articles

How to Cite

Energy-Efficient Routing in Wireless Sensor Networks Using Blockchain-Driven Deep Learning Architectures. (2024). International Journal of Scientific Research in Science and Technology, 11(3), 120-127. https://doi.org/10.32628/IJSRST

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