Angular diversity/spaced diversity cellular antennas and methods
First Claim
1. An angular diversity/spaced diversity method, for providing both higher antenna gain in an azimuth sector and spaced diversity reception in a communication system including a receiver system for receiving user signals from a user located in said sector, comprising the steps of:
- (a) providing a first antenna assembly having a multi-beam antenna pattern providing coverage in said sector and including a plurality of beams each having a peak gain value along its respective beam center line and a crossover gain value in a region of beam crossover between adjacent ones of the beams of said first antenna assembly;
(b) aligning the antenna pattern of said first antenna assembly at a first azimuth within said sector;
(c) providing a second antenna assembly laterally spaced from said first antenna assembly by a plurality of wavelengths at an operating frequency, having a multi-beam antenna pattern providing coverage in said sector, and including a plurality of beams each having a peak gain value along its respective beam center line and a crossover gain value in a region of beam crossover between adjacent ones of the beams of said second antenna assembly;
(d) aligning the antenna pattern of said second antenna assembly at a different azimuth within said sector relative to said first azimuth to position at least one of the beam center lines of said second antenna assembly in alignment with a region of beam crossover of said first antenna assembly so that each beam of said second antenna assembly provides coverage partially overlapping coverage provided by at least one beam of said first antenna assembly;
(e) providing first signals received from said user in one of the beams of said first antenna assembly;
(f) providing second signals received from said user in a beam of said second antenna assembly providing coverage partially overlapping coverage provided by one of said beams of said first antenna assembly; and
(g) processing in said receiver system one of the following, said first signals, said second signals, and a combination of said first and second signals, to provide spaced diversity reception of signals from said user with a resulting gain value higher than either of said crossover gain values regardless of the azimuth at which signals are received from said user located in said sector.
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Accused Products
Abstract
In a communication system, two multi-beam antennas laterally spaced from each other each provide coverage of an azimuth sector for receiving signals from a system user. Each antenna provides lower gain performance at regions of crossover between its beams, as compared to peak gain along the center line of each beam. By aligning the two multi-beam antennas at different azimuths within the sector of interest, angular diversity is achieved. With the peak gain beam center lines of one multi-beam antenna aligned with regions of beam crossover of a similar antenna, a minimum gain improvement of 5 dB may typically be obtained with two four-beam antennas, as compared to coverage of the same sector by one or more antennas each having a single sector-wide beam. Systems and methods for achieving angular diversity/spaced diversity operation are described.
40 Citations
11 Claims
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1. An angular diversity/spaced diversity method, for providing both higher antenna gain in an azimuth sector and spaced diversity reception in a communication system including a receiver system for receiving user signals from a user located in said sector, comprising the steps of:
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(a) providing a first antenna assembly having a multi-beam antenna pattern providing coverage in said sector and including a plurality of beams each having a peak gain value along its respective beam center line and a crossover gain value in a region of beam crossover between adjacent ones of the beams of said first antenna assembly; (b) aligning the antenna pattern of said first antenna assembly at a first azimuth within said sector; (c) providing a second antenna assembly laterally spaced from said first antenna assembly by a plurality of wavelengths at an operating frequency, having a multi-beam antenna pattern providing coverage in said sector, and including a plurality of beams each having a peak gain value along its respective beam center line and a crossover gain value in a region of beam crossover between adjacent ones of the beams of said second antenna assembly; (d) aligning the antenna pattern of said second antenna assembly at a different azimuth within said sector relative to said first azimuth to position at least one of the beam center lines of said second antenna assembly in alignment with a region of beam crossover of said first antenna assembly so that each beam of said second antenna assembly provides coverage partially overlapping coverage provided by at least one beam of said first antenna assembly; (e) providing first signals received from said user in one of the beams of said first antenna assembly; (f) providing second signals received from said user in a beam of said second antenna assembly providing coverage partially overlapping coverage provided by one of said beams of said first antenna assembly; and (g) processing in said receiver system one of the following, said first signals, said second signals, and a combination of said first and second signals, to provide spaced diversity reception of signals from said user with a resulting gain value higher than either of said crossover gain values regardless of the azimuth at which signals are received from said user located in said sector. - View Dependent Claims (2, 3)
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4. An angular diversity/spaced diversity antenna system, suitable for use in a communication system including a receiver system for receiving user signals from a user located in an azimuth sector, comprising:
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a first antenna assembly having a multi-beam antenna pattern providing coverage in said sector via a plurality of beams each having a peak gain value along its respective beam center line and a crossover gain value in a region of beam crossover between adjacent ones of the beams of said first antenna assembly; a second antenna assembly similar to said first antenna assembly, laterally spaced from said first antenna assembly by a plurality of wavelengths at an operating frequency and providing coverage in said sector via a plurality of beams each having a peak gain value and a crossover gain value as described for said first antenna assembly, said second antenna assembly aligned at a different azimuth within said sector relative to said first antenna assembly to position at least one of the beams of said second antenna assembly in alignment with a region of beam crossover of said first antenna assembly so that each beam of said second antenna assembly provides coverage partially overlapping coverage provided by at least one beam of said first antenna assembly; a first output port, coupled to said first antenna assembly, providing first signals received from said user in one of the beams of said first antenna assembly; and a second output port, coupled to said second antenna assembly, providing second signals received from said user in a beam of said second antenna assembly; the antenna system arranged to enable a receiver system having access to signals provided at said first and second output ports to process one of the following, said first signals, said second signals, and a combination of said first and second signals, to provide spaced diversity and angle diversity reception of signals from said user with a resulting gain value higher than said crossover gain value regardless of the azimuth angle at which signals are received from said user located in said sector. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11)
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Specification