Douglas F Carey

US Patent:

6418327, Jul 9, 2002

Filed:

Apr 6, 1999

Appl. No.:

09/287142

Inventors:

Douglas Carey - New York NY
Thomas Peragine - Nashua NH
Edward Dziadek - Mont Vernon NH
Naftali Herscovici - Framingham MA
Donna Ryan - Amherst NH

Assignee:

Spike Broadband Systems, Inc. - Nashua NH

International Classification:

H04Q 720

US Classification:

455562, 455422, 455446, 455453, 455561

Abstract:

Methods for determining an optimum sector distribution within a coverage area of a wireless communication system are disclosed. A coverage area is divided into a number of sectors, each sector having a respective sector width. The wireless communication system emits a respective radiation pattern designated for each sector. The methods of the invention evaluate the interference in a given sector due to both neighboring radiation pattern main lobes and sidelobes from all other sectors within the coverage area using the same frequency channels. According to the methods of the invention, a sector width and/or radiation pattern may be determined which minimizes the interference, or undesired signal level, while maintaining a sufficiently uniform distribution of the desired signal level in each sector. The various embodiments of methods according to the invention may be implemented using software, for example, in the form of a simulation program.

US Patent:

20020068612, Jun 6, 2002

Filed:

Feb 9, 2001

Appl. No.:

09/780291

Inventors:

Douglas Carey - New York NY, US
Thomas Peragine - Nashua NH, US
Edward Dziadek - Mont Vernon NH, US
Naftali Herscovici - Framingham MA, US
Donna Ryan - Amherst NH, US

International Classification:

H04B001/38

US Classification:

455/562000, 455/422000, 455/446000

Abstract:

Wireless communication systems employing a sectored coverage area, and methods for determining a sector distribution within the coverage area. In one example, a wireless communication system emits radiation patterns in a sectored coverage area divided into at least two sectors. A first radiation pattern is designated substantially for a first sector, and one or more other radiation patterns are designated substantially for one or more other sectors. The sector distribution is based at least in part on a first desired signal level in the first sector due to the first radiation pattern and a first undesired interference level in the first sector due to the one or more other radiation patterns. In another example, the sector distribution is selected so as to maximize a ratio of the first desired signal level and the first undesired interference level. In another example, desired and undesired signal levels in other sectors are considered.