are proposed for the physical layer.
Considering, as appeared by the IoT security structure, security balance remembers all the layers for the key IoT building, explicitly, wisdom, framework, and application, although it is seen that most by far of the current segments apply to the framework layer. It also can be gathered that a fitting IoT peril showing might be important in arranging fascinating IoT security control.
3.8 Conclusion
Web of Things depends upon the Internet and sensors advancement which make correspondence possible among devices by realizing original shows. After doing the composing study, we talked about some critical issues like the meddled with accessibility among contraptions affecting the correspondence. In like manner, there is a comparability issue with devices. The security of contraptions during the correspondence technique and security of the correspondence channels or associations is in like manner a critical issue. Lots of work is to be practiced for the headway and progress of this field; still, there is more work to do, more standardization of development, shows, and hardware is required to make the reliable and secure space of the IoT. What is to come is depending upon the IoT, so a lot of exercises at the execution level.
References
1. Al-Fuqaha, A., Guizani, M., Mohammadi, M., Aledhari, M., Ayyash, M., Internet of things: A survey on enabling technologies, protocols, and applications. IEEE Commun. Surv. Tutorials, 17, 2347–2376, 2015.
2. Welbourne, E., Battle, L., Cole, G., Gould, K., Rector, K., Raymer, S. et al., Building the internet of things using rfid the rfid ecosystem experience. IEEE Internet Comput., 13, 48–55, 2009.
3. Chen, H.C., Faruque, M.A.A., Chou, P.H., Security and privacy challenges in IoT-based machine-to-machine collaborative scenarios. 2016 International Conference on Hardware/Software Codesign and System Synthesis (CODES+ISSS), Pittsburgh, PA, pp. 1–2, 2016.
4. Miao, W., Ting, L., Fei, L., ling, S., Hui, D., Research on the architecture of Internet of things. IEEE International Conference on Advanced Computer Theory and Engineering (ICACTE), Sichuan province, China, pp. 484–487, 2010.
5. Parashar, R. and Abid Khan, N., A survey: the Internet of Things. Int. J. Tech. Res. Appl., 4, 3, 251–257, May-June, 2016.
6. Li, W., Song, H., Zeng, F., Policy based Secure and Trustworthy Sensing for Internet of Things in Smart Cities. IEEE Internet Things J., 2017.
7. Sha, K., Wei, W., Andrew Yang, T., Wang, Z., Shi, W., On security challenges and open issues in Internet of Things. Futur. Gener. Comput. Syst., 83, 326–337, 2018.
8. Chernyshev, M., Baig, Z., Bello, O., Zeadally, S., IEEE Internet of Things (IoT): Research. 5, 3, 1637–1647, 2018.
9. RiahiSfar, A., Natalizio, E., Challal, Y., Chtourou, Z., A roadmap for security challenges in the Internet of Things. Digit. Commun. Networks, 4, 2, 118–137, 2018.
10. Srinivas, J., Mukhopadhyay, S., Mishra, D., Ad Hoc Networks Secure and efficient user authentication scheme for multi gateway wireless sensor networks. Ad Hoc Networks, 54, 147–169, 2017.
11. Giuliano, R., Mazzenga, F., Neri, A., Vegni, A.M., Member, S., Security Access Protocols in IoT Capillary Networks, in: IEEE Internet of Things Journal, 4, 3, 645–657, 2017.
12. Elgenaidi, W., Rao, M., Dooly, G., Toal, D., Sensors and Actuators A: Physical A secure end-to-end IoT solution. Sensors Actuators A. Phys., 263, 291–299, 2017.
13. Choi, S., Yang, C., Kwak, J., System Hardening and Security Monitoring for IoT Devices to Mitigate IoT Security Vulnerabilities and Threats. 12, 2, 906–918, 2018.
14. Singh, S., Advanced lightweight encryption algorithms for IoT devices: survey, challenges and solutions. J. Ambient Intell. Humaniz. Comput., 0, 0, 0, 2017.
15. Shin, D., Sharma, V., Kim, J., Kwon, S., You, I., Secure and Efficient Protocol for Route Optimization in PMIPv6-Based Smart Home IoT Networks. IEEE Access, 5, 11100–11117, 2017.
16. Shin, D., Sharma, V., Kim, J., Kwon, S., You, I., Member, S., Secure and Efficient Protocol for Route Optimization in PMIPv6 - Based Smart Home IoT Networks, in: IEEE Access, 5, pp. 11100–11117, 2017.
17. Agrawal, S. and Vieira, D., A survey on Internet of Things. Abakós, Belo Horizonte, 1, 2, 78 – 95, maio 2013.
18. Muriel, D. and Juan, F., Expanding the learning environment: combining physicality and virtuality The Internet of Things for eLearning. IEEE International Conference on Advanced Learning Technologies (ICALT), Sousse, Tunisia, pp. 730–731, 2010.
19. Pande, P. and Padwalkar, A.R., Internet of Things –A Future of Internet: A Survey. Int. J. Adv. Res. Comput. Sci. Manage. Stud. Res. Article / Paper / Case Study, 2, 2, 354 – 361, February 2014.
20. Riazul Islam, S., Kwak, D., Humaun Kabir, M., Hossain, M., Kwak, K.S., The internet of things for healthcare: a comprehensive survey. IEEE Access, 3, 678–708, 2015.
21. Zhang, H. and Zhu, L., Internet of Things: Key technology, architecture and challenging problems. 2011 IEEE International Conference on Computer Science and Automation Engineering, Shanghai, pp. 507–512, 2011.
22. Rahul, A., Gokul Krishnan, G., Unni Krishnan, H., Rao, S., Near Field Communication (NFC) Technology: A Survey. Int. J. Cybern. Inf. (IJCI), 4, 2, pp. 251–257, April 2015.
23. Usha Devi, Y. and Rukmini, Dr. M.S.S., IoT in Connected Vehicles: Challenges and Issues- A Review. International Conference on Signal Processing, Communication, Power and Embedded System, 2016.
24. Van Kranenburg, R., A critique of ambient technology and the seeing network of RFID, 2008. http://www.networkcultures.org/_uploads/notebook2_theinternetofthings.pdf
25. Khan, R., Khan, S.U., Zaheer, R., Khan, S., Future internet: the internet of things architecture, possible applications and key challenges. 2012 10th International Conference on Frontiers of Information Technology, pp. 257–260, 2012.
26. Al-Fuqaha, A., Guizani, M., Mohammadi, M., Aledhari, M., Ayyash, M., Internet of things: A survey on enabling technologies, protocols, and applications. IEEE Commun. Surv. Tutorials, 17, 2347–2376, 2015.
27. Zhu, C., Leung, V.C., Shu, L., Ngai, E.C.H., Green internet of things for smart world. IEEE Access, 3, 2151–2162, 2015.
28. Bilal, M., A Review of Internet of Things Architecture, Technologies and Analysis Smartphone based attacks against 3d printers. arXiv preprint arXiv, 1708, 04560, 2017.
29. Borkar, S. and Pande, H., Applications of 5G next generation network to internet of things. Internet of things and Applications, International Conference on 2016, pp. 443–447.
30. Kyriazis, D., Varvarigou, T., Rossi, A., White, D., Cooper, J., Sustainable smart city IoT applications: heat and electricity management & Eco- conscious cruise control for public transportation. IEEE 14th International Symposium and Workshops on World of Wireless, Mobile and Multimedia Networks, pp. 1–5, 2013.
31. Gubbi, J., Buyya, R., Marusic, S., Palaniswami, M., Internet of Things (IoT):
