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\select@language {english}
\addvspace {10\p@ }
\contentsline {figure}{\numberline {1.1}{\ignorespaces Cell-ID position estimation technique where a mobile user can be connected to only one BTS.\relax }}{4}{figure.caption.5}
-\contentsline {figure}{\numberline {1.2}{\ignorespaces Basic idea of the RSS estimation technique. One rectangle location is represented by two RSS measurements for two BTS, blue is BTS1 and red is BTS2.\relax }}{5}{figure.caption.6}
-\contentsline {figure}{\numberline {1.3}{\ignorespaces Basic idea of the E-OTD positioning technique. Current time information are transmitted from 3 different BTS's at the same time.Then the MS observes the difference of time when the information arrive and using trilateration technique calculates the relative position of the MS.\relax }}{6}{figure.caption.7}
-\contentsline {figure}{\numberline {1.4}{\ignorespaces Basic idea of the Angle of Arrival positioning technique. The angle of the reception signal on the BTS antenna is measured. By knowing at least two angles on two BTS's, it is possible to interpolate the intersection point where the MS is located.\relax }}{8}{figure.caption.8}
+\contentsline {figure}{\numberline {1.2}{\ignorespaces Basic idea of the RSS estimation technique. One rectangle location is represented by two RSS measurements for two BTS, blue indicates BTS1 and red indicates BTS2.\relax }}{5}{figure.caption.6}
+\contentsline {figure}{\numberline {1.3}{\ignorespaces Basic idea of the E-OTD positioning technique. Current time information is transmitted from 3 different BTS's at the same time. Then the MS observes the difference of time when the information arrive and using trilateration technique calculates the relative position of the MS.\relax }}{6}{figure.caption.7}
+\contentsline {figure}{\numberline {1.4}{\ignorespaces Basic idea of the Angle-of-Arrival positioning technique. The angle of the reception signal on the BTS antenna is measured. By knowing at least two angles on two BTS's, it is possible to interpolate the intersection point where the MS is located.\relax }}{8}{figure.caption.8}
\contentsline {figure}{\numberline {1.5}{\ignorespaces Wireless Access Point tagging. The MS could be located anywhere where all three access points are visible, this area has a wavy background and is between access points 1, 2 and 4.\relax }}{9}{figure.caption.9}
\addvspace {10\p@ }
\contentsline {figure}{\numberline {2.1}{\ignorespaces GPS Simple working principle, a) example in 3D space with spheres b) example in 2D space with circles.\relax }}{13}{figure.caption.11}