METHOD FOR LOCATION DETECTION IN INDOOR NAVIGATION SYSTEMS

Abstract

The article author consider wireless network technologies, in particular, the possibilities pro- vided by the standards of WiFi, ZigBee, BLE 4.0, RFI and LTE. However, when using indoor-navigation sys- tems, there remain problems with the accuracy of determining the coordinates, the speed of processing data, and determining the correct route. To correctly display an object in-door location, it is impotent to deter- mine the current coordinates, compare the position with the cartographic representation, and update the location in real time and check the correspondence of the current position with the theoretical route. The authors analysis method of object positioning on the basis of iBeacon signal, accelerometer val- ues&Kalman filter. In the article it is suggested an integrated method for determining the current location. The object position were obtained in several ways and after the correction the route was constructed. To display the position on the map, you must have a map view of the room with the marked position of each iBeacon-beacon and be able to navigate the route. For this purpose, an algorithm was used to find the short- est path through two points and searching for the shortest path to the specified beacon are presented. The application consists of a CMS(content management system) and an Android mobile application.

Author Biographies

Ольга Анатольевна Петрова, Zaporizhzhya National Technical University

PhD student of Software Tools Department of Zaporizhzhya National Technical University

Галина Владимировна Табунщик, Zaporizhzhya National Technical University

PhD, Prof of Software Tool Department of Zaporizhzhya National Technical Univerity

Дирк Ван Мероде, Research Engineer EmSys Thomas More Mechelen-Antwerpen

Msc, Research Engineer EmSys Thomas More Mechelen- Antwerpen

Published
2017-05-10
How to Cite
Петрова, О., Табунщик, Г., & Ван Мероде, Д. (2017). METHOD FOR LOCATION DETECTION IN INDOOR NAVIGATION SYSTEMS. Electrotechnic and Computer Systems, (25(101), 270-278. https://doi.org/10.15276/eltecs.25.101.2017.31
Section
Information systems and technologies

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