350 rub
Journal Electromagnetic Waves and Electronic Systems №3 for 2017 г.
Article in number:
Approach to the development of a system for monitoring objects
Authors:
T.A. Onufrieva - Ph. D. (Eng.), Associate Professor, Department «Computer systems and networks», Kaluga branch of the Bauman MSTU
E-mail: onufrievata@mail.ru
L.A. Schavelev - Master, Department «Computer systems and networks», Kaluga branch of the Bauman MSTU
E-mail: leon15shavelev@gmail.com
Abstract:
For enterprises with a complex internal structure of the indoor positioning system of objects, in many cases, necessary. This system al-lows to reduce time to a spatial orientation inside the building, to determine the coordinates of the object in the room. Modern positioning indoors allow not just positioning with acceptable accuracy, but the solution of problems of navigation indoors, the collection of statistical information on the movements of people, objects, buildings and more.
This article features the use of global and local positioning. Next, the main stages of development of the monitoring system, including: methods of determining the coordinates of the objects, methods, object identification, approaches to software development of the auto-mated system. In the end, the sequence of steps to solve the problem of monitoring: mapping radio maps; get the values of RSS from access points; analysis of the obtained RSS values and the pixel values of the calibration; the display object, saving data.
In conclusion, the conclusions were made about the further work on creation of the monitoring system.
Pages: 17-21
References
- Baklanov A.I. Sistemy nabljudenija i monitoringa. M.: Binom. 2009. 234 s.
- Urlichich JU.M. GLONASS - rossijjskaja nacionalnaja sistema. Sostojanie, perspektivy razvitija i primenenija sistemy GLONASS. URL = http://elibrary.ru/item.asp-id=12229664.
- Onufrieva T.A., SHHavelev L.A. Obzor avtomatizirovannykh sistem pozicionirovanija obektov // Innovacionnaja nauka. 2017. № 3−1. S. 71−73.
- Gromyko V.D. Osnovy obrabotki i peredachi informacii. M.: Voenizdat. 1978. 350 s.
- Anikin A.V. Opredelenie mestopolozhenija mobilnogo obekta s pomoshhju priemoperedatchikov nanoLOC firmy Nanotron // Besprovodnye tekhnologii. 2007. № 3. S. 38−41.
- Emeljanov E.V. Tekhnologija pozicionirovanija v realnom vremeni. URL = http://www.rtlsnet.ru/technology/view/4/.
- Kormen T., Lejjzerson CH. Algoritmy. Postroenie i analiz. SPb.: Viljams. 2013. 1324 s.
- Malyshev V.V. Sputnikovye sistemy monitoringa. Analiz, sintez i upravlenie. M.: MAI. 2000. 568 s.
- Kurdin V.A., SHarapov A.P. Metody pozicionirovanija abonentov vnutri pomeshhenijj, osnovannye na radiootpechatkakh (location fingerprinting methods) // Vychislitelnye seti. Teorija i praktika. 2012. № 2 (21). S. 1−8.
- Ovchinnikov S. Sistemy pozicionirovanija i monitoringa // Tekhnologii i sredstva svjazi. 2014. № 2. 22 s.
- Maksimova E.A., Maksimov A.V. Reshenie zadachi orientacii v nejjrosetevom bazise // Radiopromyshlennost. 2011. № 1. S. 99−113.