TH22241A - Cellular network - Google Patents

Abstract

An enhanced cellular communication network. Divided A number of cells were formed. Where each cell contains a base station. It has at least two directional antennas, each of which operates to communicate with a number of units. In which each antenna will be turned In different directions And they operate in different frequency bands. One of the characteristics of a communication network is that the antennas in the adjacent cell. Operating in Similar frequency bands are turned in different directions.

Claims (1)

1. A small communication network, divided according to topography, into a number of cells, each with a base station located at the center, each base station consisting of a pole. At least three directional weather In which each directional antenna will operate in a manner At least one part of the circle corresponding to that of a cell for at least one unit of sample communication. It consists of a directional antenna. Which the network has a frequency group of transmitting that is Allocated by distance by All these frequencies were divided into groups. All such groups can be found in each cell. Each of these groups corresponds to at least one such frequency. Each part of the circle is assigned at least one such frequency group. Where each part Such circles consist of at least one frequency group, allocated in a circular order. It is the same in all cells, and each cell has a particular loop direction of that part of the circle. Two adjacent cells of the network The antenna of the base station operating in Similar frequency groups are turned in different directions. 2. A type of communication network according to claim 1, where such network is a cellular network. 3. A type of communication network according to Clause 1. Clause 1, where such network is a telecommunication network 4. A type of communication network according to claim 1, where such network is a network. Cellular telecommunication 5. Methods for determining the frequency in communications networks that are geographically distributed. To cover the area Consists of the steps of Dividing that area into a number of cells Each cell has a base station that is located at the center. Each central base station consists of at least three directional columns. In which each antenna The directional pattern operates in at least one part of the circle corresponding to that of the cell. Communicate with at least one unit The unit consists of a directional antenna. Which network It has transmission frequency groups that are allocated according to distance. All these frequency divisions were divided into groups. All of these groups can be found in each cell, each of which corresponds to at least one such frequency. Defining each part of the circle with at least one such frequency group, where each part of the circle consists of at least one sample, is allocated in a circular order. The same in all cells Arrangement of each cell There is a fixed-specific loop direction of that circle segment relative to that network in such a way that there are at least two adjacent cells of the network. Such network The base station antennas, operating in a similar frequency group, were 6. Clause 5, whereby the network is a cellular communication network 7. Method according to claim 5, whereby the network is a network. Telecommunication network 8. Method according to claim 5, where such network is a cellular communication network 9. Communication network according to claim 1, where each at least one part of the circle meets Each directional antenna is part of a different circle of the cell 1 0. Communication network according to claim 9, where the different circular segments do not overlap 1. 1. A communication network according to claim 10, where at least two adjacent cells are It consists of two or more cells to form such a communication network.