DocumentCode
491953
Title
Effects of antenna polarization on RSSI based location identification
Author
Barralet, Mark ; Huang, Xu ; Sharma, Dharmendra
Author_Institution
Fac. of Inf. Sci. & Eng., Univ. of Canberra, Canberra, ACT
Volume
01
fYear
2009
fDate
15-18 Feb. 2009
Firstpage
260
Lastpage
265
Abstract
Real-time position localization of moving objects in an indoor environment is an encouraging technology for realizing the vision of creating numerous novel location-aware services and applications in various market segments. Increasing the accuracy of these location tracking systems will increase their usefulness. An off the shelf development platform that uses radio signal strength indication (RSSI) based location tracking technique is studied. In this paper we investigate the affects of polarization on the accuracy of an indoor location tracking system. The accuracy of the location calculation is mainly dependent on accuracy of the range measurements. We present an approach to increase system accuracy based on this investigation. We established a model for determining range from RSSI and showed that the model fits our own experimental data. The model includes parameters used to account of environmental effects and we use the least squares method of determining the parameter values. Antenna polarization angle will affect RSSI and thus range accuracy. We empirically show that the model is still valid for polarization mismatch but with different environmental parameter values. We then analyze the affects that these parameters and polarization have on our location system. A method based on semi-automated trail and error is proposed as a better method for selecting the environmental parameters. Using experimental data we show that if we adjust the model parameters to account for polarization angle then we can increase location accuracy. Adjusting parameters for polarization is fairly trivial to implement when the polarization angle is known. A practical solution for determining the polarization angle is with an accelerometer. The addition of an accelerometer could also be used to increase the battery life of the node.
Keywords
antennas; electromagnetic wave polarisation; radio networks; antenna polarization angle; antenna polarization effect; indoor location tracking system; location identification; location-aware services; radio signal strength indication; real-time position localization; semiautomated trail; wireless network; Accelerometers; Batteries; Costs; Global Positioning System; Optical propagation; Polarization; Radio frequency; Radiofrequency identification; Receivers; Wireless networks; Location; RFID; RSSI; Sensor Networking; Zigbee;
fLanguage
English
Publisher
ieee
Conference_Titel
Advanced Communication Technology, 2009. ICACT 2009. 11th International Conference on
Conference_Location
Phoenix Park
ISSN
1738-9445
Print_ISBN
978-89-5519-138-7
Electronic_ISBN
1738-9445
Type
conf
Filename
4809947
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