Claims
- 1. In a system for wireless transmitter location finding, a method for selecting from a set of calibrated transmitter locations a set of most likely locations, the method comprising:
- measuring at a base station a transmitter signal signature R;
- calculating a difference between a function L.sub.R and each function L.sub.R.sbsb.i in a set of functions L.sub.R.sbsb.1, . . . , L.sub.R.sbsb.M, where the function L.sub.R represents how signature R compares to a set of calibrated signatures which corresponds to the set of calibrated locations, and where the functions L.sub.R.sbsb.1, . . . , L.sub.R.sbsb.M represent how each signature in a set of M calibrated signatures compares to the set of calibrated signatures;
- selecting a set of most likely signatures, such that, for each most likely signature R.sub.k, the calculated difference between the function L.sub.R and L.sub.R.sbsb.k is smaller than a predetermined threshold; and
- identifying a subset of the set of calibrated transmitter locations, wherein each location in the subset corresponds to a signature in the selected subset of most likely signatures.
- 2. The method of claim 1 wherein the function L.sub.R evaluated at a calibrated location i is a function of the cosines of the principle angles between a transmitter signature R and a calibrated signature U.sub.i.
- 3. The method of claim 1 wherein the function L.sub.R evaluated at a calibrated location i is a trace of a projection of R onto a subspace spanned by a calibrated signature U.sub.i.
- 4. The method of claim 1 wherein the difference between the function L.sub.R and each function L.sub.R.sbsb.i is calculated by calculating a sum of squared distances between L.sub.R and L.sub.R.sbsb.i.
- 5. The method of claim 1 wherein the difference between the function L.sub.R and each function L.sub.R.sbsb.i is calculated by calculating the Kullback-Liebler distance between L.sub.R and L.sub.R.sbsb.i.
- 6. In a system for wireless transmitter location finding, a method for selecting from a set of calibrated transmitter locations a set of most likely locations, the method comprising:
- measuring at a first base station a transmitter signal signature R;
- measuring at a second base station a transmitter signal signature R';
- calculating a difference between a function L.sub.R and each function L.sub.R.sbsb.i in a set of functions L.sub.R.sbsb.1, . . . , L.sub.R.sbsb.M, where the function L.sub.R represents how signature R compares to a set of first base station calibrated signatures which corresponds to the set of calibrated locations, and where the functions L.sub.R.sbsb.1, . . . , L.sub.R.sbsb.M represent how each signature in a set of likely first calibrated signatures compares to the set of calibrated signatures;
- calculating a difference between a function L.sub.R' and each function L.sub.R'.sbsb.i in a set of functions L.sub.R'.sbsb.1, . . . , L.sub.R'.sbsb.M, where the function L.sub.R represents how signature R' compares to a set of second base station calibrated signatures which corresponds to the set of calibrated locations, and where the functions L.sub.R'.sbsb.1, . . . , L.sub.R'.sbsb.M represent how each signature in a set of likely second calibrated signatures compares to the set of second calibrated signatures;
- selecting from the sets of first and second likely signatures a subset of most likely common signatures, such that, for each most likely signature R.sub.k, and for each most likely signature R'.sub.k, an arithmetic combination of the calculated difference between the functions L.sub.R and L.sub.R.sbsb.k, and the calculated difference between the function L.sub.R and L.sub.R.sbsb.k, is smaller than a predetermined threshold; and
- identifying a subset of the set of calibrated transmitter locations, wherein each location in the subset corresponds to a signature in the selected subset of most likely signatures.
- 7. The method of claim 6 wherein the function L.sub.R evaluated at a calibrated location i is a function of the cosines of the principle angles between the transmitter signature R and a calibrated signature U.sub.i.
- 8. The method of claim 6 wherein the function L.sub.R evaluated at a calibrated location i is a trace of a projection of R onto a subspace spanned by a calibrated signature U.sub.i.
- 9. The method of claim 6 wherein the difference between the function L.sub.R and each function L.sub.R.sbsb.i is calculated by calculating a sum of squared distances between L.sub.R and L.sub.R.sbsb.i.
- 10. The method of claim 6 wherein the difference between the function L.sub.R and each function L.sub.R.sbsb.i is calculated by calculating the Kullback-Liebler distance between L.sub.R and L.sub.R.sbsb.i.
Parent Case Info
This application is a continuation-in-part of U.S. patent application Ser. No. 08/949,069, filed Oct. 10, 1997, now abandoned, which is a continuation-in-part of U.S. patent application Ser. No. 08/780,565, filed Jan. 7, 1997, both of which are incorporated herein by reference.
US Referenced Citations (7)
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
949069 |
Oct 1997 |
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Parent |
780565 |
Jan 1997 |
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