Volume- 9
Issue- 2
Year- 2022
DOI: 10.55524/ijirem.2022.9.2.44 | DOI URL: https://doi.org/10.55524/ijirem.2022.9.2.44
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0) (http://creativecommons.org/licenses/by/4.0)
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Dr. S S P M Sharma B , Dr. Heli Amit Shah
Internet of things (IoT) has wide applications; one of which is flood monitoring and coordinating. Imperativeness sensibility methodologies can be reproduced in IoT, which can alleviate both essentialness draining and human undertakings legitimate to complete the obligation. In India, there are no vigilant techniques for the opening of dam gates or when there is huge probabilities arise in floods. The existing procedure in India is physical which one of the major issues is. Because of the unexpected lifting of gates of the dam villages surrounding that area are extremely influenced and cause to death of the public. This impact on the survival of the public at many times. The suggested system is a defined as the process that can be installed in the dam's catchment regions and will serve as a watchful module that will alert the public to the condition of the dam's gates and even the water level at the dam's gates. The proposed system consists of Dam storage information, Temperature levels & Humidity levels and SMS vigilant module, public information system. A web application is designed for efficient utilization of the proposed system which will indicate the position of gates all over the dams in India.
[1] M. Hasan, M. M. Islam, M. I. I. Zarif, and M. M. A. Hashem, “Attack and anomaly detection in IoT sensors in IoT sites using machine learning approaches,” Internet of Things (Netherlands), 2019.
[2] M. S. Farooq, S. Riaz, A. Abid, K. Abid, and M. A. Naeem, “A Survey on the Role of IoT in Agriculture for the Implementation of Smart Farming,” IEEE Access. 2019.
[3] H. Mrabet, S. Belguith, A. Alhomoud, and A. Jemai, “A survey of IoT security based on a layered architecture of sensing and data analysis,” Sensors (Switzerland). 2020.
[4] A. Panarello, N. Tapas, G. Merlino, F. Longo, and A. Puliafito, “Blockchain and iot integration: A systematic survey,” Sensors (Switzerland). 2018.
[5] A. R. H. Hussein, “Internet of Things (IOT): Research challenges and future applications,” Int. J. Adv. Comput. Sci. Appl., 2019.
[6] A. Reyna, C. Martín, J. Chen, E. Soler, and M. Díaz, “On blockchain and its integration with IoT. Challenges and opportunities,” Futur. Gener. Comput. Syst., 2018.
[7] J. Hou and B. Li, “The evolutionary game for collaborative innovation of the IoT industry under government leadership in China: An IoT infrastructure perspective,” Sustain., 2020.
[8] S. M. Tahsien, H. Karimipour, and P. Spachos, “Machine learning based solutions for security of Internet of Things (IoT): A survey,” J. Netw. Comput. Appl., 2020.
[9] E. Al-Masri et al., “Investigating Messaging Protocols for the Internet of Things (IoT),” IEEE Access, 2020.
[10] B. Afzal, M. Umair, G. Asadullah Shah, and E. Ahmed, “Enabling IoT platforms for social IoT applications: Vision, feature mapping, and challenges,” Futur. Gener. Comput. Syst., 2019.
[11] O. Alfandi, S. Khanji, L. Ahmad, and A. Khattak, “A survey on boosting IoT security and privacy through blockchain: Exploration, requirements, and open issues,” Cluster Comput., 2021.
[12] A. Khraisat and A. Alazab, “A critical review of intrusion detection systems in the internet of things: techniques, deployment strategy, validation strategy, attacks, public datasets and challenges,” Cybersecurity, 2021.
[13] M. S. Farooq, S. Riaz, A. Abid, T. Umer, and Y. Bin Zikria, “Role of iot technology in agriculture: A systematic literature review,” Electronics (Switzerland). 2020.
[14] J. C. S. Sicato, S. K. Singh, S. Rathore, and J. H. Park, “A comprehensive analyses of intrusion detection system for IoT environment,” J. Inf. Process. Syst., 2020.
[15] Y. Lu and L. Da Xu, “Internet of things (IoT) cybersecurity research: A review of current research topics,” IEEE Internet Things J., 2019.
[16] M. Noura, M. Atiquzzaman, and M. Gaedke, “Interoperability in Internet of Things: Taxonomies and Open Challenges,” Mob. Networks Appl., 2019.
[17] L. Vu, Q. U. Nguyen, D. N. Nguyen, D. T. Hoang, and E. Dutkiewicz, “Deep Transfer Learning for IoT Attack Detection,” IEEE Access, 2020.
[18] T. Elsaleh, S. Enshaeifar, R. Rezvani, S. T. Acton, V. Janeiko, and M. Bermudez-Edo, “IoT-Stream: A Lightweight Ontology for Internet of Things Data Streams and Its Use with Data Analytics and Event Detection Services,” Sensors, 2020.
[19] W. Rafique, L. Qi, I. Yaqoob, M. Imran, R. U. Rasool, and W. Dou, “Complementing IoT Services through Software Defined Networking and Edge Computing: A Comprehensive Survey,” IEEE Commun. Surv. Tutorials, 2020.
[20] C. Badii, P. Bellini, A. Difino, and P. Nesi, “Smart city IoT platform respecting GDPR privacy and security aspects,” IEEE Access, 2020.
[21] B. Qian et al., “Orchestrating the Development Lifecycle of Machine Learning-based IoT Applications: A Taxonomy and Survey,” ACM Comput. Surv., 2020.
[22] S. Li, L. Da Xu, and S. Zhao, “5G Internet of Things: A survey,” Journal of Industrial Information Integration. 2018.
[23] S. B. Rane and S. V. Thakker, “Green procurement process model based on blockchain–IoT integrated architecture for a sustainable business,” Manag. Environ. Qual. An Int. J., 2020.
[24] R. Vishwakarma and A. K. Jain, “A survey of DDoS attacking techniques and defence mechanisms in the IoT network,” Telecommunication Systems. 2020.
[25] B. El Khalyly, A. Belangour, M. Banane, and A. Erraissi, “A comparative study of microservices-based IoT platforms,” Int. J. Adv. Comput. Sci. Appl., 2020.
Department of Mechatronics, PIT, Parul University, Vadodara, Gujrat, India
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