Multi-path resistant frequency-hopped spread spectrum mobile location system
First Claim
1. A mobile transmitter location system, comprising:
- a mobile transmitter having a unique identifier, and having a transmitter for sending a frequency-hopped spread spectrum carrier signal containing the unique identifier;
a first base station having an array of irregularly spaced dipole antennas operable for receiving the frequency-hopped spread spectrum carrier signal and capable of determining a first direction of origin of the frequency-hopped spread spectrum carrier signal;
a second base station also having an array of irregularly spaced dipole antennas operable for receiving the frequency-hopped spread spectrum carrier signal and capable of determining a second direction of origin of the frequency-hopped spread spectrum carrier signal; and
a central station connected to the first base station and the second base station, and operable for;
1.) receiving the first direction of origin of the frequency-hopped spread spectrum carrier signal from the first base station;
2.) receiving the second direction of origin of the frequency-hopped spread spectrum carrier signal from the second base station;
3.) triangulating the first direction with the second direction to determine the location.
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Accused Products
Abstract
A multi-path resistant frequency-hopped spread spectrum mobile vehicle or personal location system is described which provides low cost manufacture and low power operation while still enabling the accurate location of the mobile unit over long distances and in moderate to severe multi-path conditions. The frequency-hopped spread spectrum mobile vehicle or personal location system consists of a central station, a plurality of base stations and a plurality of mobile transmitters which transmit using a frequency-hopped spread-spectrum differential bi-phase shift keying communication signal. Frequency Shift Keying modulation may also be used. Each of the plurality of base stations include an array of receiving dipole antennas and employs special algorithms for retrieving very low power frequency-hopped spread spectrum signals in a noisy and multi-path environment. The base stations use computational algorithms for determining the phase difference between each of receiving dipole antennas to determine the direction of the transmitter relative to the location of the respective base station. The multiple direction of arrival angles of the received signal at each base station are corrected based on an n-dimensional ambiguity space to locate most probable angles of arrival. The ambiguity space plot is used to eliminate erroneous comparisons of dissimilar phases of the incoming signal. The most probable values are then tracked over multiple frequency hops and a histogram analysis of the strongest surviving angles of arrival is performed. The two peaks of the histogram are used as the two most probable directions of arrival. Each base station then communicates the two relative directions of the transmitter to a central station where the location of the transmitter is determined by triangulation. The direction of arrival angles from the multiple base stations are summed in a least mean square approach to find a single direction of arrival which is then plotted on a gnomonic projection to correct for the curvature of the earth.
217 Citations
7 Claims
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1. A mobile transmitter location system, comprising:
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a mobile transmitter having a unique identifier, and having a transmitter for sending a frequency-hopped spread spectrum carrier signal containing the unique identifier; a first base station having an array of irregularly spaced dipole antennas operable for receiving the frequency-hopped spread spectrum carrier signal and capable of determining a first direction of origin of the frequency-hopped spread spectrum carrier signal; a second base station also having an array of irregularly spaced dipole antennas operable for receiving the frequency-hopped spread spectrum carrier signal and capable of determining a second direction of origin of the frequency-hopped spread spectrum carrier signal; and a central station connected to the first base station and the second base station, and operable for; 1.) receiving the first direction of origin of the frequency-hopped spread spectrum carrier signal from the first base station; 2.) receiving the second direction of origin of the frequency-hopped spread spectrum carrier signal from the second base station; 3.) triangulating the first direction with the second direction to determine the location. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of locating a mobile transmitter location, comprising the steps of:
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receiving at a first base station a radio frequency signal on a plurality of irregularly spaced antennas; receiving at a second base station a radio frequency signal on a plurality of irregularly spaced antennas; calculating the observed angle of arrival of the radio frequency signal by comparing the phase difference of the radio frequency signal between pairs of the plurality of irregularly spaced antennas; determining the most probable angle of arrival of the radio frequency signal by comparing the observed angle of arrival to ambiguity lines in an n-dimensional space where the number of antennas is n+1; calculating an histogram of the most probable values and selecting the strongest most probable values; applying a spatial filter to the strongest most probable values from each base station and selecting the location based on the closest grouping of the strongest most probable values.
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Specification