The continuous tracking of mobile systems via active or passive RFID is a desirable but difficult to achieve objective. In this paper, we present our experimental results of positioning techniques using passive UHF RFID, Bluetooth, and WLAN. We thereby employ three orthogonal measuring techniques: detection rates, signal strength, and round trip time. The orthogonality of the methods is designed to achieve robustness to noise and unforeseen changes in the surroundings. Moreover, due to their different read ranges, the technologies can complement each other at different scales of the environment.
%0 Conference Paper
%1 ambisense2008positioning-rfid-systech
%A Vorst, Philipp
%A Sommer, Jürgen
%A Hoene, Christian
%A Schneider, Patrick
%A Weiss, Christian
%A Schairer, Timo
%A Rosenstiel, Wolfgang
%A Zell, Andreas
%A Carl, Georg
%B 4th European Workshop on RFID Systems and Technologies (RFID SysTech 2008)
%C Freiburg, Germany
%D 2008
%I VDE Verlag
%K Bluetooth RFID UHF WLAN WiFi filter localization long-range mobile particle passive positioning robot
%N 209
%T Indoor Positioning via Three Different RF Technologies
%U http://www.ra.cs.uni-tuebingen.de/publikationen/2008/ambisense2008positioning-rfid-systech.pdf
%X The continuous tracking of mobile systems via active or passive RFID is a desirable but difficult to achieve objective. In this paper, we present our experimental results of positioning techniques using passive UHF RFID, Bluetooth, and WLAN. We thereby employ three orthogonal measuring techniques: detection rates, signal strength, and round trip time. The orthogonality of the methods is designed to achieve robustness to noise and unforeseen changes in the surroundings. Moreover, due to their different read ranges, the technologies can complement each other at different scales of the environment.
%@ 978-3-8007-3106-0
@inproceedings{ambisense2008positioning-rfid-systech,
abstract = {The continuous tracking of mobile systems via active or passive RFID is a desirable but difficult to achieve objective. In this paper, we present our experimental results of positioning techniques using passive UHF RFID, Bluetooth, and WLAN. We thereby employ three orthogonal measuring techniques: detection rates, signal strength, and round trip time. The orthogonality of the methods is designed to achieve robustness to noise and unforeseen changes in the surroundings. Moreover, due to their different read ranges, the technologies can complement each other at different scales of the environment.},
added-at = {2010-06-10T13:54:49.000+0200},
address = {Freiburg, Germany},
author = {Vorst, Philipp and Sommer, J\"urgen and Hoene, Christian and Schneider, Patrick and Weiss, Christian and Schairer, Timo and Rosenstiel, Wolfgang and Zell, Andreas and Carl, Georg},
biburl = {https://www.bibsonomy.org/bibtex/2b1583f1bde078f4fbe5e4d23fb7b852c/fifo79},
booktitle = {4th European Workshop on RFID Systems and Technologies (RFID SysTech 2008)},
interhash = {28d271ceec650d8551c24e1a450573a9},
intrahash = {b1583f1bde078f4fbe5e4d23fb7b852c},
isbn = {978-3-8007-3106-0},
keywords = {Bluetooth RFID UHF WLAN WiFi filter localization long-range mobile particle passive positioning robot},
month = {June 10-11},
number = 209,
publisher = {VDE Verlag},
series = {ITG-Fachbericht},
timestamp = {2010-06-10T13:54:49.000+0200},
title = {Indoor Positioning via Three Different RF Technologies},
url = {http://www.ra.cs.uni-tuebingen.de/publikationen/2008/ambisense2008positioning-rfid-systech.pdf},
year = 2008
}