Single base station user terminal positioning method and system
A technology of user terminal and positioning method, applied in the field of communication, can solve the problems of inaccurate positioning of traditional positioning methods, and achieve the effect of accurate positioning
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Embodiment 1
[0044] image 3 Shown is a schematic diagram of signal propagation of the UE in two positions that are relatively close to each other, represented by image 3 It can be seen that when the UE is in two different but relatively close positions, the TA and the AOA will also be relatively close. Conversely, in most cases, if the TA and the AOA are relatively close, the two UE positions are also relatively close. If one of the positions is known, the other can be inferred.
[0045] Figure 4 Shown is a flow chart of a single base station user terminal positioning method proposed in this embodiment based on the above principles, and the method includes:
[0046] S110: Obtain location information of multiple known points in the cell, where the location information includes AOA, time advance, longitude, and latitude information;
[0047] S120: Obtain AOA and TA information of the point to be located;
[0048] S130: Find at least one known point whose AOA and TA are closest to the ...
Embodiment 2
[0052] Figure 5 Shown is a flow chart of a single base station user terminal positioning method in the TD-SCDMA system recorded in this embodiment, and the method includes:
[0053] S210: Measure the position information of multiple points in the cell to form multiple known points, and the multiple known points are evenly distributed in the cell;
[0054] S220: Obtain location information of multiple known points in the cell, where the location information includes AOA, TA, longitude and latitude information;
[0055] S230: Obtain the AOA and TA of the point to be located;
[0056] S240: Calculate the difference between the AOA of all known points and the AOA of the point to be located;
[0057] S250: Find a known point where the AOA difference is within a set range;
[0058] S260: Calculate the distance correlation number between the found known point and the to-be-located point according to the TA and AOA of the found known point and the to-be-located point;
[0059] S2...
Embodiment 3
[0094] Image 6 Shown is a flow chart of a single base station user terminal positioning method described in this embodiment, the method includes:
[0095] S310: Measure the position information of multiple points in the cell to form multiple known points with known position information, and the multiple known points are evenly distributed in the cell;
[0096] S320: Obtain location information of multiple known points in the cell, where the location information includes AOA, TA, longitude and latitude information;
[0097] S330: Obtain AOA and TA information of the point to be located;
[0098] S340: Calculate the difference between the AOA of all known points and the AOA of the point to be located;
[0099] S350: Find a known point where the AOA difference is within a set range;
[0100] S360: Calculate the distance correlation number between the known point found and the point to be located according to the TA and AOA of the found known point and the point to be located;...
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