Abstract
The rapid development of cloud and mobile technologies, as well as the Internet of things and telematics, poses new challenges in the field of safety and cybersecurity of Smart House Systems. Of course, such technologies help to organize data storage, convenient interaction with Smart House services, remote surveillance and device monitoring effectively. At the same time, the usage of such solutions can become a factor that significantly reduces the safety and cybersecurity of the Smart House systems.
Therefore, the vulnerabilities of modern Smart House systems, that can lead to serious problems, both financial and related to people’s health and life are presented in this work. As well as, the methods of the level of safety and cybersecurity increasing for such systems are discussed.
The usage of Remote Lab Smart House & IoT for investigation of the issues of Smart House systems power efficiency, safety and cybersecurity was offered. The application of FMEA method in the case study of vulnerabilities and faults of Remote Laboratory Smart House & IoT hardware and software was shown. The architecture of Remote Lab Smart House & IoT cyber security was proposed, that can be used for real project of Smart House realization.
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References
Rucinski, A., Garbos, R., Jeffords, J., Chowdbury, S.: Disruptive innovation in the era of global cyber-society: with focus on smart city efforts. In: The 9th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, pp. 1102–1104. University Politehnica of Bucharest, Romania (2017)
Gartner Survey Shows Connected Home Solutions Adoption Remains Limited to Early Adopters. https://www.gartner.com/newsroom/id/3629117
Haller, H., Nguyen, V.-B., Debizet, G., Laurillau, Y., Coutaz, J., Calvary, G.: Energy consumption in smarthome: persuasive interaction respecting user’s values. In: The 9th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, pp. 804–809. University Politehnica of Bucharest, Romania (2017)
Zhang, L., Xiong, X.: Optimization of the power flow in a smart home. In: Online Engineering & Internet of Things. Lecture Notes in Network and Systems, vol. 22, pp. 721–730 (2017)
Levshun, D., Chechulin, A., Kotenko, I.: Design lifecycle for secure cyber-physical systems based on embedded devices. In: The 9th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, University Politehnica of Bucharest, Romania, pp. 277–282 (2017)
Hiromoto, R.E., Haney, M., Vakanski, A.: A Secure architecture for IoT with supply chain risk management. In: The 9th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, pp. 431–435. University Politehnica of Bucharest, Romania (2017)
Best smart home system. https://www.techhive.com/article/3206310/connected-home/best-smart-home-system.html
Zhogov, N.: Communication protocols for the “smart house” (in Russian). https://www.ferra.ru/ru/digihome/review/SmartHome-Protocols/#1-Wire
TOR HOME ASSISTANT: How to protect Smart House with “anonymous” network? (in Russian). https://moy-domovoy.ru/news/20161214/tor_home_assistant_kak_zashchitit_umnyy_dom_s_pomoshchju_anonimnoy_seti/
Teslyuk, V., Beregovskyi, V., Pukach, A.: Automation of the smart house system-level design. Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska 4, 81–84 (2013)
Tabunshchyk, G., Van Merode, D., Arras, P., Henke, K.: Remote experiments for reliability studies of embedded systems. In: International Conference on Remote Engineering and Virtual Instrumentation, Madrid, Spain, pp. 68–71 (2016)
Tabunshchyk, G., Van Merode, D., Arras, P., Henke, K. Okhmak, V.: Interactive platform for embedded software development study. In: Online Engineering & Internet of Things. Lecture Notes in Network and Systems, vol. 22, pp. 315–321 (2017)
Cybersecurity of Smart House (in Russian). http://www.bestron.ru/news/kiberbezopasnost_umnogo_doma
Smart home and cybersecurity: how to protect your data (in Russian). http://aquagroup.ru/news/umnyy-dom-i-kiberbezopasnost-kak-zashchitit-svoi-dannye.html
Parkhomenko, A., Tulenkov, A., Sokolyanskii, A., Zalyubovskiy, Y., Parkhomenko, A.: Integrated complex for IoT technologies study. In: Online Engineering & Internet of Things. Lecture Notes in Network and Systems, vol. 22, pp. 322–330 (2017)
Parkhomenko, A., Gladkova, O., Ivanov, E., Sokolyanskii, A., Kurson, S.: Development and application of remote laboratory for embedded systems design. iJOE 11(3), 27–31 (2015)
Abdulmunem, A.-S.M.Q., Al-Khafaji, A.W., Kharchenko, V.S.: The method of IMECA-based security assessment: case study for building automation system. Syst. Inf. Process. 1(138), 138–144 (2016)
Povolotskaya, E., Mach, P.: FMEA and FTA analyses of the adhesive joining process using electrically conductive adhesives. Acta Polytech. 52(2), 48–55 (2012)
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Parkhomenko, A., Tulenkov, A., Sokolyanskii, A., Zalyubovskiy, Y., Parkhomenko, A., Stepanenko, A. (2019). The Application of the Remote Lab for Studying the Issues of Smart House Systems Power Efficiency, Safety and Cybersecurity. In: Auer, M., Langmann, R. (eds) Smart Industry & Smart Education. REV 2018. Lecture Notes in Networks and Systems, vol 47. Springer, Cham. https://doi.org/10.1007/978-3-319-95678-7_44
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