Север и рынок. 2019, № 1.

44. Big Potential for Drones in the Arctic. UAS Vision, 2016. Available at: https://www.uasvision.com/2016/06/22/big-potential-for-drones-in-the-arctic/ (accessed 30.08.2018). 45. Dasgupta, S., De Cian У. Institutions and Environment: Existing Evidence and Future Directions. Nota di Lavoro. Fondazione Eni Enrico Mattei. Milano, 2016, 41, 35 p. 46. Gladun E., Dressler H., von, Kamp H. J. Law and Policy for Sustainable Development of the Russian Arctic. University of Tyumen. Tyumen, Publishing House, 2017, 160 p. 47. Education for Sustainable Development Goals Learning Objectives . UNESCO, 2017, 63 p. Available at: http://unesdoc.unesco.org/images/0024/002474/247444e.pdf (accessed 10.08.2018). 48. Didenko N., Skripnuk D. Socio-cyberphysical systems and intellectual space in the development of the Arctic zone of the Russian Federation. SHSWeb ofConferences, 2018, 44. Available at: https://www.shs- conferences.org/articles/shsconf/pdf/2018/05/shsconf_cc-tesc2018_00028.pdf (accessed 30.01.2019). 49. Abramov V. M., Karlin L. N., Gogoberidze G. G. The information-analytical system for decision support in the field of environmental security and environmental monitoring in environmental management in the Arctic zone of the Russian Federation, taking into account different scales of climate change RU135822U1. Google Patents, 2013. Available at: https://patents.google.com/patent/RU135822U1/en (accessed 02.09.2018). 50. Buchanan J., Kelle, B., Hatch A. Digital workplace and culture: How digital technologies are changing the workforce and how enterprises can adapt and evolve. Deloitte Development LLC, 2016. Available at: https://www2.deloitte.com/content/dam/Deloitte/us/Documents/human-capital/us-cons-digital-workplace- and-culture.pdf (accessed 30.08.2018). 51. Horvath I., Gerritsen B. H. Cyber-physical systems: concepts technologies and implementation principles. Proceedings of TMCE, 2012. Available at: https://www.researchgate.net/publication/ 229441298_CYBER- PHYSICAL_SYSTEMS_CONCEPTS_TECHNOLOGIES_AND_IMPLEMENT ATION_PRINCIPLES (accessed 30.08.2018). 52. Cherenkov V. I. Osnovy mezhdunarodnoy logistiki [Basics of International Logistics]. Sankt-Peterburg, Izd-vo SPbGU, 2016. 487 p. 53. Kolar J. Logistics activities in relation to tangible and intangible operations. Scientific journal on transport and logistics, 2010, No. 2 (1), pp. 29-34. 54. Fedotovskikh A. Polyarnaya aviatsiya Rossii [Polar Aviation of Russia]. Pro-Arctic , 2014. Available at: http://pro-arctic.ru/16/05/2014/technology/8454 (accessed 12.09.2018). (In Russ.). 55. Grazhdanskiye BPLA budut integrirovany v edinoye vozdushnoye prostranstvo [Civilian UAVs will be integrated into a single airspace]. Russian Drone , 2019, 20 mart. (In Russ.). Available at: https://russiandrone.ru/news/grazhdanskie_bpla_budut_integrirovany_v_edinoe_vozdushnoe_prostranst vo/ (accessed 21.03.2018). 56. Arktiku zhdet «zolotaya likhoradka» v kommercheskoy bespilotnoy aviatsii [The Arctic is waiting for the "gold rush" in commercial unmanned aircraft]. Pro-Arctic , 2019. (In Russ.). Available at: http://pro- arctic.ru/18/03/2019/technology/36102 (accessed 21.03.2018). 57. Unmanned Aerial Vehicle in Logistics: A DHL perspective on implications and use cases for the logistics industry. DHL Trend Research, 2014. Available at: http://www.dhl.com/content/ dam/downloads/g0/about_us/logistics_insights/DHL_TrendReport_UAV.pdf (accessed 30.01.2019). 58. Drone Industry Report . Oppenheimer & Co Inc., 2016. Available at: http://pdf.zacks.com/pdf/ FA/H4947044.PDF (accessed 30.01.2019). 59. Clarity from above. PwC global report on the commercial applications of drone technology, 2016. Available at: https://www.pwc.kz/en/services/drones-technologies/clarity-from-above-rus.pdf (accessed 31.08.2018). 60. Unmanned aircraft systems roadmap 2005-2030, 2005. Available at: https://fas.org/irp/ program/collect/uav_roadmap2005.pdf (accessed 31.08.2018). 61. Shakhatreh H., Sawalmeh A., Al-Fuqaha A., Dou Z., Almaita E., Khalil I., Othman N. S., Khreishah A., Guizani M. Unmanned Aerial Vehicles: A Survey on Civil Applications and Key Research Challenges, 2018. Available at: https://arxiv.org/pdf/1805.00881.pdf (accessed 30.08.2018). 62. SMI: kitayskiy passazhirskiy bespilotnik sovershil pervyy pokazatelnyy polet [Media: Chinese passenger drone made the first demonstration flight]. TASS , 2018, 7 fevralya. (In Russ.). Available at: https://tass.ru/ekonomika/4936532 (accessed 12.02.2019). 63. The market of drones in Russia and in the world. Market Watch J'son & Partners Consulting, 2017. Available at: http://json.tv/ict_telecom_analytics_view/rynok-dronov-v-rossii-i-v-mire-2017-g- bespilotnye-letatelnye-apparaty-bla-bpla-20180427124557 (accessed 31.08.2018). 25