Increasing channel capacity of wireless local loop via polarization diversity antenna distribution scheme
First Claim
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1. A method of configuring a communication network comprising the steps of:
- (a) providing a wireless local loop network having an arrangement of cells, each of which contains a base station, an omnidirectional antenna, and wireless transceiver equipment operative with a multiple frequency reuse factor, and that serves a plurality of fixed customer wireless transceiver sites, said fixed customer wireless transceiver sites being geographically dispersed relative to said base station and communicating with said base station using a prescribed communication signal polarization therebetween, said base station being arranged to interface customer calls with a public telephone switch network (PTSN); and
(b) assigning communication frequency reuse and communication signal polarization diversity among respective cells of said network, so as to satisfy a prescribed carrier to interference ratio (C/I) criterion by employing antennas in non-contiguous cells of only a first vertical polarization for wireless communications between base stations and customer wireless transceiver sites in first selected rows of said cells and employing antennas in non-contiguous cells of only a second horizontal polarization for wireless communications between base stations and customer wireless transceiver sites in second selected rows of said cells, between said first rows of said cells, wherein said first and second selected rows of cells have the same channel frequency allocation and are separated by a row of cells having a different channel frequency allocation.
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Abstract
In order to increase the channel capacity of a wireless local loop network, advantage is taken of the fixed location of each subscriber radio, and the ability to independently configure each subscriber'"'"'s antenna, to provide antenna cross polarization isolation into the cellular layout of the WLL network, and thereby provide an additional layer of interference rejection. Such a cross polarization assignment scheme, in combination with frequency reuse allocation, provides a substantial increase in the C/I ratio and thereby allows an expansion of the reuse of frequency channels.
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Citations
8 Claims
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1. A method of configuring a communication network comprising the steps of:
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(a) providing a wireless local loop network having an arrangement of cells, each of which contains a base station, an omnidirectional antenna, and wireless transceiver equipment operative with a multiple frequency reuse factor, and that serves a plurality of fixed customer wireless transceiver sites, said fixed customer wireless transceiver sites being geographically dispersed relative to said base station and communicating with said base station using a prescribed communication signal polarization therebetween, said base station being arranged to interface customer calls with a public telephone switch network (PTSN); and
(b) assigning communication frequency reuse and communication signal polarization diversity among respective cells of said network, so as to satisfy a prescribed carrier to interference ratio (C/I) criterion by employing antennas in non-contiguous cells of only a first vertical polarization for wireless communications between base stations and customer wireless transceiver sites in first selected rows of said cells and employing antennas in non-contiguous cells of only a second horizontal polarization for wireless communications between base stations and customer wireless transceiver sites in second selected rows of said cells, between said first rows of said cells, wherein said first and second selected rows of cells have the same channel frequency allocation and are separated by a row of cells having a different channel frequency allocation. - View Dependent Claims (2, 3, 4)
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5. A wireless local loop communication network comprising:
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an arrangement of cells, each of which contains a base station, an omnidirectional antenna, and wireless transceiver equipment operative with a multiple frequency reuse factor, and that serves a plurality of fixed customer wireless transceiver sites, said fixed customer wireless transceiver sites being geographically dispersed relative to said base station and communicating with said base station using a prescribed communication signal polarization therebetween, said base station being arranged to interface customer calls with a public telephone switch network (PTSN); and
a distribution of polarization diversity antennas among said base station wireless transceiver equipments, and wherein communication frequency reuse and polarization diversity antennas distributed among respective cells of said network are such as to satisfy a prescribed caller to interference ratio (C/I) criterion, wherein said distribution of polarization diversity antennas includes first antennas of only a first polarization for wireless communications between base stations and customer wireless transceiver sites in non-contiguous first selected ones of said cells and second antennas of only a second polarization for wireless communications between base stations and customer wireless transceiver sites in non-contiguous second selected ones of said cells wherein said first and second antennas of respective first and second polarizations are separated by a row of cells having a different channel frequency allocation. - View Dependent Claims (6, 7, 8)
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Specification