Building Scalable Security Configuration Systems for IoT Devices

Authors

  • Laxmana Kumar Bhavandla   Independent Researcher, USA

Keywords:

IoT, DDoS, NAC , I, Scalable Security Systems, Real-Time Adaptability, Automated Deployment, Security Threat Landscape, Cloud-Based Systems, Distributed Architectures, Security Resiliency, Regulatory Compliance

Abstract

The exponential growth of the IoT devices has brought new concerns in terms of security settings across a large population. Due to the multiple interconnected smart devices, differentiation of the operating conditions and active changes in the security threat landscape, solutions for IoT must be scalable and adaptive. This present paper examines the prospects of designing scalable security configuration systems for IoT devices with particular focus on factors such as real time adaptability, automated deployment and control. The essential areas include studying the present issues, assessing the existing paradigms and contributions which recommended emerging approaches relying on cloud based systems and distributed architectures. The results also show that the models put forward do not only improve security resiliency at scale but also simplify compliance with regulations during the development process. In the final part, distinct possibilities of using artificial intelligence and blockchain to enhance IoT security settings are considered to provide practical guidelines for developing a more secure IoT environment.

References

  1. Shaik, M., Venkataramanan, S., Sadhu, A.K.R. and Gudala, L., 2017. Envisioning Secure and Scalable Network Access Control: A Framework for Mitigating Device Heterogeneity and Network Complexity in Large-Scale Internet-of-Things (IoT) Deployments. Distributed Learning and Broad Applications in Scientific Research, 3, pp.1-24.
  2. Noorman, J., Bulck, J.V., Mühlberg, J.T., Piessens, F., Maene, P., Preneel, B., Verbauwhede, I., Götzfried, J., Müller, T. and Freiling, F., 2017. Sancus 2.0: A low-cost security architecture for iot devices. ACM Transactions on Privacy and Security (TOPS), 20(3), pp.1-33.
  3. Cirani, S., Davoli, L., Ferrari, G., Léone, R., Medagliani, P., Picone, M. and Veltri, L., 2014. A scalable and self-configuring architecture for service discovery in the internet of things. IEEE internet of things journal, 1(5), pp.508-521.
  4. Li, F., Vögler, M., Claeßens, M. and Dustdar, S., 2013, June. Efficient and scalable IoT service delivery on cloud. In 2013 IEEE sixth international conference on cloud computing (pp. 740-747). IEEE.
  5. Sarkar, C., SN, A.U.N., Prasad, R.V., Rahim, A., Neisse, R. and Baldini, G., 2014. DIAT: A scalable distributed architecture for IoT. IEEE Internet of Things journal, 2(3), pp.230-239.
  6. Jiang, H., Shen, F., Chen, S., Li, K.C. and Jeong, Y.S., 2015. A secure and scalable storage system for aggregate data in IoT. Future Generation Computer Systems, 49, pp.133-141.
  7. Gupta, A., Christie, R. and Manjula, R., 2017. Scalability in internet of things: features, techniques and research challenges. Int. J. Comput. Intell. Res, 13(7), pp.1617-1627.
  8. Vögler, M., Schleicher, J.M., Inzinger, C. and Dustdar, S., 2016. A scalable framework for provisioning large-scale IoT deployments. ACM Transactions on Internet Technology (TOIT), 16(2), pp.1-20.
  9. Hernández-Ramos, J.L., Moreno, M.V., Bernabé, J.B., Carrillo, D.G. and Skarmeta, A.F., 2015. SAFIR: Secure access framework for IoT-enabled services on smart buildings. Journal of Computer and System Sciences, 81(8), pp.1452-1463.
  10. Puliafito, A., Celesti, A., Villari, M. and Fazio, M., 2015. Towards the integration between IoT and cloud computing: An approach for the secure self-configuration of embedded devices. International Journal of Distributed Sensor Networks, 11(12), p.286860.
  11. Abera, T., Asokan, N., Davi, L., Koushanfar, F., Paverd, A., Sadeghi, A.R. and Tsudik, G., 2016, June. Things, trouble, trust: on building trust in IoT systems. In Proceedings of the 53rd Annual Design Automation Conference (pp. 1-6).
  12. Dalipi, E., Van den Abeele, F., Ishaq, I., Moerman, I. and Hoebeke, J., 2016, December. EC-IoT: An easy configuration framework for constrained IoT devices. In 2016 IEEE 3rd World Forum on Internet of Things (WF-IoT) (pp. 159-164). IEEE.

IInternational Journal of Scientific Research in Computer Science, Engineering and Information Technology

Downloads

Published

2021-12-30

Issue

Volume 7, Issue 6, November-December-2021

Section

Research Articles

License

Copyright (c) IJSRCSEIT

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Laxmana Kumar Bhavandla , " Building Scalable Security Configuration Systems for IoT Devices" International Journal of Scientific Research in Computer Science, Engineering and Information Technology(IJSRCSEIT), ISSN : 2456-3307, Volume 7, Issue 6, pp.453-458, November-December-2021.