ORGANIZATION OF IMPLEMENTATION OF UBIQUITOUS SENSOR NETWORKS
Sergey Toliupa
tolupa@i.uaKyiv National Taras Shevchenko University, Department of Cybersecurity and Information Protection (Ukraine)
Yuriy Kravchenko
Kyiv National Taras Shevchenko University, Department of Network and Internet Technologies (Ukraine)
Aleksander Trush
Kyiv National Taras Shevchenko University, Department of Network and Internet Technologies (Ukraine)
Abstract
The article deals with the implementation of one of the most promising technologies of the 21st century – the permeable sensor networks of the USN. The features, architecture, organization and routing algorithms of sensory networks are described. It is determined that further improvement of the work of such networks requires standardization of the development process and implementation process. USN's Vertical Sensor Networks is one of the most promising technologies of the 21st century. Cheap and "smart" sensors, in large quantities combined into a wireless network connected to the public communications network, today provide an unprecedentedly wide range of control and management services for buildings, businesses, cars, and so forth. USN networks, depending on the type of sensors, can be deployed on the ground, in the air, under and over water, in buildings and, finally, on the skin and inside living organisms, including humans. They are also widely used in such important areas as military affairs, crisis and emergency management, and the fight against terrorism.
Keywords:
ubiquitous sensor networks USN, network architecture, touch-route routing algorithmsReferences
Akyildiz I.F.: Key Wireless Networks Technological in the Next Decade. NEW2AN 2006, St. Petersburg, Russia June 2006.
Google Scholar
Berkman L.N., Tolupa S.V.: The architectural concept of construction, the principle of implementation, the efficiency of the application of intelligent telecommunication network. Problematic sciences works of VITI NTUU-KPI 3/2007, 9–17.
Google Scholar
Burov E.: Computer networks. Baku, Lviv 1999.
Google Scholar
Golishko A.: IMS: useful recommendations. CONNECT 5/2009, 2–6.
Google Scholar
Retana A., Slice D., Ras U.: Principles of Designing Corporate IP Networks. Williams Publishing House 2002.
Google Scholar
Steklov V.K, Kilchytsky Ye.V.: Fundamentals of management of networks and telecommunication services. Technique, Kiev 2002.
Google Scholar
Tikhvin O.V., Terentyev S.V.: SV LTE mobile communication networks and architecture. Moscow, Eco-Trend Publishing House 2010.
Google Scholar
Ujukha T.: Prospects of SDN on a telecom. Market. Technologies and media 2(107)/2015, 52–54.
Google Scholar
Authors
Sergey Toliupatolupa@i.ua
Kyiv National Taras Shevchenko University, Department of Cybersecurity and Information Protection Ukraine
Authors
Yuriy KravchenkoKyiv National Taras Shevchenko University, Department of Network and Internet Technologies Ukraine
Authors
Aleksander TrushKyiv National Taras Shevchenko University, Department of Network and Internet Technologies Ukraine
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