Position location method and apparatus for a mobile telecommunications system
First Claim
1. A method for estimating a bearing from an antenna situated at a cellsite to a mobile station in a radio telecommunications system, said antenna comprising a plurality of antenna elements for receiving signals transmitted by said mobile station, said received signals having a frequency including a frequency offset, being a Doppler frequency offset due to at least one of motion of said mobile station and a carrier frequency offset, and having a phase and an amplitude at each antenna element dependent on said bearing and on said frequency, comprising the steps of;
- (A);
during each of a plurality of successive times obtaining a set of signal samples, by said signal received at each said antenna element dwell time shorter than said sampling time, such that not all of said received signals are sampled simultaneously;
(B);
estimating said phase and said amplitude of each said signal sample to obtain a corresponding complex phasor;
(C);
estimating said frequency offset using two or more of said phasors derived from signal samples successively received at one of said antenna elements;
(D);
said phasors corresponding to applying a phase-rotation compensation according to said estimate of said frequency offset to each of said antenna elements to obtain compensated phasors; and
(E);
estimating said bearing using a set of compensated phasors corresponding to at least one signal samples.
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Accused Products
Abstract
In a cellular mobile telecommunications system the position of a mobile station can be estimated in terms of its bearing and range from a cell site. A multi-element direction finding antenna at the cell site receives signals from the mobile station and a receiver circuit estimates the bearing using the relative phase of signals received at different antenna elements and estimates the range by measuring round trip delay of signals to and from the mobile station. Motion of the mobile station can introduce errors into the bearing estimate due to frequency offset and frequency spread when element sampling is non-simultaneous. Compensation for these errors is introduced by using signal samples successively received at the same antenna element to estimate Doppler frequency offset and spread. It is necessary to ensure accurate calibration of the direction finding antenna and the receiver circuit. This is done by injecting calibration signals into the circuit near the antenna or into the antenna itself from a near field probe. Other aspects of calibration, such as antenna position, are calibrated using a remote beacon. A beacon emulating a mobile station but at a fixed, known location, or a beacon at an adjacent cell site may be used.
73 Citations
18 Claims
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1. A method for estimating a bearing from an antenna situated at a cellsite to a mobile station in a radio telecommunications system, said antenna comprising a plurality of antenna elements for receiving signals transmitted by said mobile station, said received signals having a frequency including a frequency offset, being a Doppler frequency offset due to at least one of motion of said mobile station and a carrier frequency offset, and having a phase and an amplitude at each antenna element dependent on said bearing and on said frequency, comprising the steps of;
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(A);
during each of a plurality of successive times obtaining a set of signal samples, by said signal received at each said antenna element dwell time shorter than said sampling time, such that not all of said received signals are sampled simultaneously;
(B);
estimating said phase and said amplitude of each said signal sample to obtain a corresponding complex phasor;
(C);
estimating said frequency offset using two or more of said phasors derived from signal samples successively received at one of said antenna elements;
(D);
said phasors corresponding to applying a phase-rotation compensation according to said estimate of said frequency offset to each of said antenna elements to obtain compensated phasors; and
(E);
estimating said bearing using a set of compensated phasors corresponding to at least one signal samples.- View Dependent Claims (2, 3, 4, 5)
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6. A method for estimating a bearing from an antenna situated at a cellsite to a mobile station in a radio telecommunications system, said antenna comprising a plurality of antenna elements for receiving signals transmitted by said mobile station, said received signals having a frequency spectrum, and a phase and an amplitude at each antenna element dependent on said bearing and said frequency spectrum, comprising the steps of;
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(A);
during each of a plurality of successive sampling times obtaining a set of signal samples, by sampling said signal received at each said antenna element during a dwell time shorter than said sampling time such that not all of said received signals are sampled simultaneously, in order to obtain an array of said signal samples, each row of said array comprising one of said sets of signal samples and each column of said array containing a plurality of said signal samples from one of said antenna elements;
(B);
estimating said phase and said amplitude of each said signal sample to generate a corresponding complex phasor so as to obtain a corresponding array of said phasors;
(C);
performing a Fourier transform on each column of said array of phasors, each said Fourier transform having an output quantized into frequency components to obtain a frequency-component phasor representing the contribution of each frequency component to said phase and said amplitude of said signal samples at said corresponding antenna element during said plurality of sampling times;
(D);
compensating each said frequency-component phasor according to a frequency of said corresponding frequency component; and
(E);
estimating said bearing on the basis of said compensated phasors.- View Dependent Claims (7, 8, 9, 10, 11)
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12. An apparatus for estimating a bearing from a cellsite to a mobile station in a radio telecommunications system, comprising;
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an antenna situated at said cellsite and comprising a plurality of antenna elements for receiving signals transmitted by said mobile station, said received signals having a frequency including Doppler frequency offset due to at least one of motion of said mobile station and a carrier frequency offset, and a relative phase and an amplitude at each said antenna element dependent on said bearing and on said frequency;
a receiver circuit; and
a switch for, during each of a plurality of successive sampling times, sequentially coupling each of said plurality of antenna elements to said receiver circuit to enable sampling by said receiver circuit of signals received by each said antenna element from said mobile station;
and said receiver circuit comprising;
a signal sampler for sampling said signals from said antenna elements;
a phase and amplitude estimator for estimating a phasor representing said phase and said amplitude of each said signal sample;
a frequency offset-estimator for estimating said frequency offset using two or more of said phasors derived from one of said antenna elements in successive sampling times;
a phase compensator for compensating said phasors according to said frequency offset; and
a bearing estimator for estimating said bearing using said compensated phasors. - View Dependent Claims (13, 14, 15)
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16. An apparatus for estimating a bearing from a cellsite to a mobile station in a radio telecommunications system, comprising;
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an antenna situated at said cell site and comprising a plurality of antenna elements for receiving signals transmitted by said mobile station, said signals having a frequency spectrum, and having a relative phase and an amplitude at each antenna element dependent on said bearing and said frequency spectrum;
a receiver circuit; and
a switch for coupling each said antenna element to said receiver circuit during each of a plurality of sampling times for sampling of said received signals by said receiver circuit, said received signals on each antenna element not all being sampled simultaneously during each sampling time;
and said receiver circuit comprising;
a signal sampler for sampling said signals from said antenna elements;
a phase and amplitude estimator for estimating said phase and said amplitude of each said signal sample to generate a corresponding complex phasor in order to obtain an array of said complex phasors, each row of said array comprising a set of one of said complex phasors derived from each said antenna element during one of said sampling times, and each column of said array containing a plurality of said complex phasors derived from one said antenna element during successive sampling times;
a frequency spectrum analyser for performing a Fourier transform on each column of said array of complex phasors to estimate a frequency-component phasors representing a contribution by each of a plurality of frequency components of said frequency spectrum to said phase of said received signal at each antenna a phase compensator for compensating each said frequency-component phasor according to a frequency of said corresponding frequency component; and
a bearing estimator for estimating said bearing on the basis of said compensated frequency-component phasors. - View Dependent Claims (17, 18)
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Specification