Multi-beam antenna system for cellular radio base stations
First Claim
1. An antenna arrangement for a cellular radio base station, said arrangement being configurable to service calling mobile stations located in a cell sector, said arrangement comprising:
- a main antenna array arranged to discriminate transmitted signals within a plurality of received beam zones occupying an area of said sector, said main antenna being thereby configured to receive communication signals on a plurality of spatially directional beams;
a diversity antenna, arranged to receive signals over a whole of said sector via operation of a full sector received beam;
a diversity receiver arranged to receive a call output signal on one of said beams of said main antenna array and on said diverse antenna beam, said receiver arranged to combine said call output signal from both said beams to provide a diversity call output signal.
6 Assignments
0 Petitions
Accused Products
Abstract
A base transceiver station operating a sectorized cell of a cellular radio system operates a plurality of narrow uplink main receive beams, and one or a plurality of uplink diversity received beams. A scanning means scans each of the uplink main receive beams to locate a communications channel on the main uplink beams. A diversity receiver receives a diverse beam signal from the diverse beam(s), which is compared with a beam signal received from a main uplink beam, and the main beam signal from the main beam, or a diverse beam signal from the diversity antenna is selected, depending on the comparative signal to noise ratio and signal strength of the main beam signal and diversity beam signal.
264 Citations
30 Claims
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1. An antenna arrangement for a cellular radio base station, said arrangement being configurable to service calling mobile stations located in a cell sector, said arrangement comprising:
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a main antenna array arranged to discriminate transmitted signals within a plurality of received beam zones occupying an area of said sector, said main antenna being thereby configured to receive communication signals on a plurality of spatially directional beams; a diversity antenna, arranged to receive signals over a whole of said sector via operation of a full sector received beam; a diversity receiver arranged to receive a call output signal on one of said beams of said main antenna array and on said diverse antenna beam, said receiver arranged to combine said call output signal from both said beams to provide a diversity call output signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of receiving communications call signals in a cellular radio communications system, the method comprising the steps of:
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forming a first plurality of directional narrow uplink beams at a main antenna;
receiving communications signals on said first plurality of directional uplink beams;forming at least one second full sector uplink beam at a diverse antenna;
receiving communications signals on said second uplink beam;periodically scanning across said plurality of first uplink beams to locate a beam receiving an optimal communication signal associated with a given call; handing said call to said located first uplink beam; and providing a diversity signal by combining said received signals from said second uplink beam and said located first uplink beam. - View Dependent Claims (14, 15)
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16. An antenna arrangement for a cellular radio system configurable to handle a call from a mobile station, comprising:
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a first antenna array capable of receiving first antenna signals; a first beam forming means capable of receiving said first antenna signals and outputting a plurality of first beam signals corresponding to a first plurality of narrow beams; a second antenna spaced apart from said first antenna, said second antenna capable of receiving second antenna signals; a second beam former means capable of receiving said second antenna signals and outputting a second beam signal corresponding to at least one full sector second beam; locating means for periodically scanning across said plurality of first beam signals to locate a communications signal received on a said beam; and a receiver for receiving said first and second beam signals so as to hand said call to said located beam;
said receiver arranged to combine said second beam signal and said located first beam signal to provide a diversity signal. - View Dependent Claims (17, 18, 19, 20, 21)
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22. A method of receiving communications call signals in a cellular radio communications system the method comprising the steps of:
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receiving first antenna signals on a first antenna array; inputting first antenna signals into a first beam former means; outputting from said first beam former means a plurality of first beam signals corresponding to a plurality of narrow beams; receiving second antenna signals on a second antenna array, said second antenna array spaced apart from said first antenna array; inputting said second antenna signals to a second beam former means; outputting from said second beam former means second beam signals corresponding to a full sector beam; periodically scanning said plurality of narrow beam signals to locate an optimal communications call signal received on a said beam; and inputting said located narrow beam and said full sector beam signals into a receiver which combines said signals to provide a diversity signal.
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23. An antenna arrangement for a cellular radio system configurable to handle a communications call from a mobile station, comprising:
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an antenna array capable of receiving signals from a plurality of main narrow uplink beams, and at least one full sector diverse uplink beam, and producing corresponding antenna signals, said main and diverse uplink beams being distinguishable from each other on a polarization basis; beam former means for receiving said antenna signals and producing a plurality of main beam signals corresponding to said plurality of main narrow beams, and at least one diverse beam signal corresponding to said at least one full sector diverse uplink beam; and a locating means operating to; periodically scan across said plurality of main beams signals to identify a beam of said first plurality of main uplink beams on which a communications channel call signal is received; a receiver means operating to compare said communication signals received on said identified main beam with said communications signal identified on said diverse beam said receiver means being configured to select the main narrow beam having the optimal signal and thereby hand the call to said selected main beam;
said receiver combining said selected main beam and said diverse beam signals to provide a diversity signal. - View Dependent Claims (24)
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25. A method of receiving communication signals in a cellular radio communications system so as to handle a communications call from a mobile station, the method comprising the steps of:
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forming a plurality of main uplink narrow beams, said at least one diverse full sector uplink beam, said main and diverse beams being distinguishable from each other on a polarization basis; receiving a communications channel signal of said main and diverse uplink beam; periodically scanning across said plurality of main beams to identify a said beam on which a communications channel call signal is received; combining said communications channel signal received on a said main identified beam with said communications signals received on a said diverse beam; and handing said call to said identified main beams. - View Dependent Claims (26, 27)
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28. A method of receiving communications signals from a mobile station in a cellular radio communications call system, said method comprising the steps of;
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forming a plurality of main uplink beams; forming a plurality of diverse uplink beams; selecting at least, by a periodic scanning process, one beam from said plurality of main uplink beams and said plurality of diverse uplink beams; and inputting said selected at least beam into a receiver so as to hand said call to said selected beam; wherein said plurality of main uplink beams operate to distinguish signals of a first polarization; and said plurality of diverse beams operate to distinguish signals of a second polarization.
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29. A method of receiving communications call signals from a mobile station in a sectorised cellular radio communications system, said method comprising the steps of:
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forming a plurality of main uplink narrow beams in a sector; forming at least one diverse full sector uplink beam in said sector; serving a said main uplink beam and by monitoring signals received on said main uplink beam monitoring signals received on said diverse uplink beams; and periodically monitoring signals received on at least one said main uplink beam other than said served main uplink beam; and for a given call, handing said call to a main beam determined to receive an optimal call signal;
combining said optimal call signal and said diverse signal. - View Dependent Claims (30)
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Specification