Locating a mobile unit
First Claim
1. A system for determining a location of a receiver of radio signals, wherein a first MU (mobile receiver unit) receives signals of a navigation satellite, and wherein said location is relative to a second receiver unit of said satellite system having known location parameters, and wherein said first and said second receivers are capable of receiving signals of a locally deployed cellular network, comprising:
- at least three receivable transmitters of countable time related structures, in each receiver, at least one digitizing circuit for sampling signals of said satellite system and of said cellular network, a local clock installed in each of said receivers for determining a rate for said sampling, at least one processor for processing said sampled data installed in each of said receivers, at least one receivable BTS (base transceiver station) of said cellular network, producing within their signals a sequence of uniquely identifiable time related structures, at least one navigation satellite of a constellation of navigation satellites, wherein a received navigation signal thereof is powerful enough to facilitate detection of code periods of said navigation signal, and a connection between said receivers.
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Accused Products
Abstract
A mobile receiver unit (12) of the GPS navigation satellite system is located in accordance with the present invention relative to a reference unit (14) of the same satellite system having known geographic location parameters. Within the frame work of a cell of a cellular network, a plurality of signals of the respective number of radio sources are received by a MU (mobile unit) and by a reference unit. The differences in time of reception of time related structures of the signals are calculated. The difference between the calculated reception time and the measured reception time of each of the respective signals is used to calculate the distance to the radio sources and to the reference unit. Compensation for radio clock drift is performed when required to radio sources by comparing nominal time related structure transmission rate with measured structure transmission rate as referenced by a satellite signal containing a sequence of time related structures.
25 Citations
6 Claims
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1. A system for determining a location of a receiver of radio signals, wherein a first MU (mobile receiver unit) receives signals of a navigation satellite, and wherein said location is relative to a second receiver unit of said satellite system having known location parameters, and wherein said first and said second receivers are capable of receiving signals of a locally deployed cellular network, comprising:
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at least three receivable transmitters of countable time related structures, in each receiver, at least one digitizing circuit for sampling signals of said satellite system and of said cellular network, a local clock installed in each of said receivers for determining a rate for said sampling, at least one processor for processing said sampled data installed in each of said receivers, at least one receivable BTS (base transceiver station) of said cellular network, producing within their signals a sequence of uniquely identifiable time related structures, at least one navigation satellite of a constellation of navigation satellites, wherein a received navigation signal thereof is powerful enough to facilitate detection of code periods of said navigation signal, and a connection between said receivers. - View Dependent Claims (2, 3)
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4. A method for determining a location of a first receiver unit of radio signals within a framework of a cell of a cellular network, wherein said receiver unit and a second receiver unit receive countable time related structures of a navigation satellite signal and of said cellular network, comprising:
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receiving at a first snap, by a receiver unit, a first set of radio signals transmitted by at least three radio sources, and wherein at least one source of which transmits uniquely identifiable timing frames, and wherein at least one of said radio sources is a BTS (base transceiver station) having a known set of location parameters, receiving at a second snap by a receiver unit other than the one receiving signals at said first snap, a second set of radio signals transmitted by said at least three radio sources, determining a difference in reception time of said time related structures of said signals of said radio source in said receivers, compensating said differences in arrival times of BTS signals for source clock drift, and calculating location of said first receiver unit with reference to said radio sources and with reference to said second unit. - View Dependent Claims (5, 6)
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Specification