Frequency plan for wireless communication system that accommodates demand growth to high efficiency reuse factors
First Claim
1. A cellular communications system consisting of a plurality of cells, the plurality of cells being located substantially adjacent to one another, and the cellular communication system operating over a specified radio frequency range, the cellular communication system making use of a frequency allocation plan that arranges the cells into groups of twelve, with each of the twelve cells in a cell group having a unique group of carrier frequencies characterized in that that the carrier frequencies in each group are being assigned from the specified available radio frequency range by first dividing the radio frequency range into a lower (A), middle (B), and upper (C) frequency range, and with the radio channels in each range (A, B, C) being further identified by a sequential frequency index number (0, 1, 2, or 3) to permit further identification of each of the frequency groups as either an even index group or an odd index group, thereby providing a total of twelve identifiable frequency groups (A0, A1, A2, A3, B0, B1, B2, B3, C0, C1, C2, C3), and with the group of twelve cells being laid out in an approximately rectangular shape of four cells wide by three cells high, with a first group of three cells in an upper left portion of the twelve cell group being assigned to use the first even index frequency group in each range (A0, B0, C0), and with the second group of three cells in the lower left portion of the twelve cell group being assigned to use the second even index frequency group (A2, B2, C2), and with a third group of cells in an upper right portion of the twelve cell group being assigned to the first odd index frequency group(A1, B1, C1), and a fourth group of three cells in a lower right portion of the twelve cell group being assigned to use the second odd index frequency group (A3, B3, C3).
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Accused Products
Abstract
A frequency allocation plan for a wireless communication system that accommodates growth in demand from a low density reuse pattern of twelve cells to a high efficiency reuse pattern of three cells. The available radio spectrum is first divided into three ranges and each range is further divided into four groups. The frequencies in each range are sequentially assigned to the four groups, and the groups are further identified as even and/or odd index groups. The twelve cell groups are laid out in rectangular shapes of four cells across by three cells high, with a first set of three cells in the upper left portion being assigned to use a first even index frequency group. A second group of three cells in a lower left portion are assigned to use a second even index frequency group. A third and fourth group of three cells associated with upper right and lower right positions are assigned the first and second odd index frequency group. As traffic density increases the cells are split into six sectors with each sector being assigned the other odd or even frequency group to achieve a reuse factor of six. Sectorizing to a cell reuse pattern of three is then implemented by swapping the resulting frequency assignments made to a leftmost column of three cells with a non-adjacent center column of a cell group to the left. In order to implement times three reuse in the rightmost column of cells, odd and even frequency assignments are similarly swapped between the leftmost column and the non-adjacent center column of the cell group to the right.
53 Citations
5 Claims
- 1. A cellular communications system consisting of a plurality of cells, the plurality of cells being located substantially adjacent to one another, and the cellular communication system operating over a specified radio frequency range, the cellular communication system making use of a frequency allocation plan that arranges the cells into groups of twelve, with each of the twelve cells in a cell group having a unique group of carrier frequencies characterized in that that the carrier frequencies in each group are being assigned from the specified available radio frequency range by first dividing the radio frequency range into a lower (A), middle (B), and upper (C) frequency range, and with the radio channels in each range (A, B, C) being further identified by a sequential frequency index number (0, 1, 2, or 3) to permit further identification of each of the frequency groups as either an even index group or an odd index group, thereby providing a total of twelve identifiable frequency groups (A0, A1, A2, A3, B0, B1, B2, B3, C0, C1, C2, C3), and with the group of twelve cells being laid out in an approximately rectangular shape of four cells wide by three cells high, with a first group of three cells in an upper left portion of the twelve cell group being assigned to use the first even index frequency group in each range (A0, B0, C0), and with the second group of three cells in the lower left portion of the twelve cell group being assigned to use the second even index frequency group (A2, B2, C2), and with a third group of cells in an upper right portion of the twelve cell group being assigned to the first odd index frequency group(A1, B1, C1), and a fourth group of three cells in a lower right portion of the twelve cell group being assigned to use the second odd index frequency group (A3, B3, C3).
Specification