Russian Journal of Construction Science and Technology

The paper considers the problem of constructing a full group of failure scenarios for physical infrastructures when subjected to cyber attacks (CAs). Physical infrastructures actually are systems of systems, or network of networks [1]. The main idea of the research rests on the assumption, that in order to damage any physical infrastructure by a cyber attack, it has to be able to produce a powerful enough physical impact on the most vulnerable part(s) of the infrastructure. Only civil engineering and industrial structures and installations connected to Internet and World Wide Web are considered. Hence, all infrastructures discussed below have to be elements of the Enterprise IoT or IoT, namely: electrical grids, oil, gas and product pipeline systems, water supply and disposal (waste) systems, rail networks, air traffic control and telecommunications (finance, commerce, business) networks, etc.

Kramer F.D., Starr S.H., Wentz L.K. Cyber Power and National Security National Defense University. Center for Technology and National Security Policy. 2009, chapter 9.

Miller B., Rowe D. A survey of SCADA and critical infrastructure incidents. Proc. of the 1st Annual conference on Research in information technology. 2012, p. 51-56.

Panda Security Rus. November 30 2016 at 12:04 (https://habr.com/company/panda/blog/316500/)

Lennon M. Cyber Attacks Targeted Key Components of Natural Gas Pipeline Systems Security Week. 2013

Kushner D. The real story of Stuxnet. Spectrum IEEE. 2013, vol 50, no 3, p. 48-53

Gorman S. Electricity Grid in US Penetrated By Spies. Wall Street Journal. 2019

Russian computer network (RUNET) integrated into the global network Available from: http://900igr.net/prezentacija/informatika/globalnaja-kompjuternaja-set-internet-99778/regionalnye-kompjuternye-seti-obedinennye-v-globalnuju-set-7.html [Accessed 28 Sept 2018]

Backbone network of the Russian JSC Rostelecom Available from: https://www.expertsvyazi.ru/forum/printpage.php?forum=37&topic=4 [Accessed 28 Sept 2018]

Backbone of a new Russian digital communication operator Available from: http://www.gudok.ru/newspaper/?ID=720435 [Accessed 28 Sept 2018]

Krioukov D. et al. The Workshop on Internet Topology (WIT) Report. Computer Communication Review. 2007, vol 37, no 1, p. 69–73

Computer Science and Telecommunications Board. The Internet Under Crisis Conditions: Learning from September 11. Washington: National Academies Press, 2007

Unified national electric grid of the European part of Russia Available from: http://present5.com/vvedenie-v-elektroenergetiku-l-edinaya-energeticheskaya-sistema-rossii/ [Accessed 28 Sept 2018]

Vulnerability Analysis of Energy Delivery Control Systems. Idaho Falls: Idaho National Laboratory, 2011

U.S. - Canada Power System Outage Task Force. Final Report on the August 14 2003 Blackout in the United States and Canada: Causes and Recommendations. Washington DC and Ottawa: U.S. Department of Energy and Natural Resources Canada, 2004

Farhangi H. The path of the smart grid. Power and Energy Magazine IEEE. 2010, vol 8, no 1, p. 18-28

Yan Y., Qian Y., Sharif H., Tipper D. A Survey on Smart Grid Communication Infrastructures: Motivations, Requirements and Challenges Communications Surveys & Tutorials. IEEE. 2013, vol 15, no 1 p. 5-20

Markey E. J., Henry A.W. Staff of Representatives. Idem. p. 4-5.

Staged cyber attack reveals vulnerability in power grid Available from: http://www.cnn.com/2007/US/09/26/power.at.risk/ [Accessed 20 Aug 2014]

Structure of the North American Electric Power Infrastructure. IEEE Systems Journal. 2012, vol 6, no 4, p. 616-626