Author:
Ott A. T.,Shalaby M.,Siart U.,Kaliyaperumal E.,Eibert T. F.,Engelbrecht J.,Collmann R.
Abstract
Abstract. In this paper an approach for indoor localization based on already installed communication transceiver infrastructure is presented. Only marginal additional hardware is required to implement the localization functionality. The idea is to use a power level detection evaluation of the received signals in communication receivers to localize participants. In the planned configuration the power transmitted from mobile terminals is received by a leaky wave cable. Its length and coupling properties are dimensioned according to the dynamic range of two access points connected to the two cable heads. In order to adapt the problem to circuit-based analysis techniques the leaky wave cable is represented by a distributed antenna system. Thereby the considered design consists of a cascade of coupling structures with broadband Vivaldi antennas connected to the coupling ports. An experimental system has been built and also tested using an automated frequency domain measurement setup. Measurement results relating the system bandwidth to positioning accuracy show good agreement with theoretical investigations.
Reference20 articles.
1. Bill, R., Cap, C., Kofahl, M., and Mundt, T.: Indoor and Outdoor Positioning in Mobile Environments – a Review and some Investigations on WLAN-Positioning, Geographic Information Sciences, 10, 91–98, 2004.
2. Buddendick, H. and Eibert, T F.: Acceleration of Ray-Based Radar Cross Section Predictions Using Monostatic-Bistatic Equivalence, IEEE Transactions on Antennas and Propagation, 58, 531–539, 2010.
3. Delogne, P P. and Deryck, L.: Underground Use of a Coaxial Cable with Leaky Sections, IEEE Transactions on Antennas and Propagation, 28, 875–883, 1980.
4. Engelbrecht, J., Collmann, R., Birkel, U., and Weber, M.: Methodical leaky feeder design for indoor positioning considering multipath environments, in: Proc. IEEE Radio and Wireless Symposium (RWS), pp. 164–167, New Orleans, LA, 2010.
5. Farr, E G. and Baum, C E.: Time Domain Characterization of Antennas with TEM Feeds, prefixhttp://www.farr-research.com/Papers/ssn426.pdf, 1998.
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