WO2005006585A1 - Arranging antenna method of polarization base station in wireless system - Google Patents

Abstract

An anti-jamming arranging antennas method of polarization base station in wireless system in which there is no communication between base stations of mobile, PHS wireless local call etc, but the base stations communicate with the third party, between the base stations of which one antenna transmits and the other antenna receives the same or neighbor frequency in wireless disturbing cell, the antennas are vertically polarization and horizontally polarization respectively. The base stations which can bring disturbing, one transmits vertically polarization wave, the other receives horizontally polarization, and it is not possible to occur disturbing between vertically and horizontally polarization wave, and solve the disturbing between signs of the same frequency or neighbor frequency of same polarization radically. The signs of horizontally and vertically polarization all can be received by handsets, and the signs transmitted by the handsets can be received by the antennas of horizontally and vertically polarization base station, and improve the rate of using frequency resource.

Description

 Method for arranging polarized base station antennas in wireless systems

 The invention patent relates to a system for performing wireless communication between a base station and a base station, such as mobile and PHS wireless local calls, and a third party without wireless communication, and the anti-interference arrangement of radio frequency differently polarized base station antennas in engineering and applications. Background technique

 At present, wireless communication systems such as mobile and PHS wireless local telephones are widely used by major communication companies. In the application, many radio waves between the receiving and transmitting radio-frequency co-frequency base stations have problems with transmission interference and reception. This is because now The mobile, PHS wireless local telephone system and other systems all use the same polarization of radio waves, fewer frequency points, and high base station antenna distribution density in cities and other reasons. When the antennas between the base stations transmit and receive the same radio frequency, the wireless signal transmission between the base stations will interfere with the wireless signal reception. In addition, when the radio frequency signals transmitted and received by the base stations are adjacent frequencies, due to the reason of communication equipment, It may transmit or receive very accurate wireless signals, and the transmitted signals may fall into the frequency band of the received signals, which will cause interference. Summary of the invention

A method for arranging polarized base station antennas in a wireless system, which is characterized in that adjacent base stations are located in a wireless interference area. The antennas transmitting signals of one base station and the antennas receiving signals of another base station are antennas of different polarizations, which are vertical. Polarization and horizontal polarization. In this way, if the base stations that might have interfered with each other had one antenna as a vertically polarized wave, and the other antenna received a horizontally polarized wave, there would be no interference between the vertically polarized wave and the horizontally polarized wave. This fundamentally solves the problem of interference between signals of the same frequency or adjacent frequencies that originally used the same polarization. At the same time, in order to build a new enterprise or have the ability to transform the wireless network, regardless of whether the antenna receiving and transmitting are base stations of the same frequency or adjacent frequencies, or whether the wireless system has or does not have interference, the design is more convenient. The receiving and transmitting antennas are polarized in an orderly manner, that is, the transmitting antennas are uniformly vertically polarized, and the receiving antennas are uniformly horizontally polarized. The transmitting antennas may also be uniformly horizontally polarized, and the receiving antennas are uniformly vertically polarized; This can bring great convenience to the expansion of the wireless network in the future; thereby improving the utilization of frequency resources.

 This solution can be applied to the problem of interference between the transmitting radio frequency and the receiving radio frequency of the same frequency base station, and between the transmitting radio frequency and the receiving radio frequency of the adjacent frequency base station; at the same time, it does not matter whether the receiving and transmitting of the antenna are the same frequency and adjacent frequency. The base station can also use the orderly arrangement of antennas with different transmit and receive polarizations to prevent interference problems caused by future wireless network reconstruction.

 The above-mentioned method for arranging polarized base station antennas of a wireless system is characterized in that a transmitting radio frequency and another receiving radio frequency are on the same frequency or adjacent frequencies in a wireless interference area. The low-power base stations arranged in the interference range of the power base station, and the antennas of the low-power base stations for receiving and transmitting antennas are set to horizontal polarization. This is mainly used to retrofit the original antenna anti-interference arrangement.

 The foregoing method for arranging polarized base station antennas of a wireless system is characterized in that a transmitting radio frequency and another receiving radio frequency are on the same frequency or adjacent frequencies in a wireless interference area, and the antenna transmitting and receiving are horizontally polarized. Low-power base stations are arranged within the interference range of the power base stations, and the antennas of the low-power base stations receive and transmit antennas are set to vertical polarization. This is also used to retrofit the original antenna anti-interference arrangement.

 The foregoing method for arranging polarized base station antennas of a wireless system is characterized in that one transmitting radio frequency and another receiving radio frequency are on the same frequency or adjacent frequencies in a wireless interference area, and a plurality of base stations transmitting on a vertically polarized antenna Increase the horizontally polarized antenna between the receiving base stations.

 The above-mentioned method for arranging polarized base station antennas of a wireless system is characterized in that in a wireless interference area, a base station with one transmitting radio frequency and another receiving radio frequency at the same frequency or adjacent frequencies, horizontally polarizes a plurality of transmitting antennas. A receiving base station with a vertically polarized antenna is added between the base stations.

 The above two methods can be used for the reconstruction of existing arrangements and the addition of base stations.

The above-mentioned method for polarizing a base station antenna in a wireless system is characterized in that A base station transmitting a radio frequency and another base station receiving a radio frequency on the same frequency or an adjacent frequency, the base station antennas transmitting vertical polarization and the base station antennas receiving horizontal polarization are arranged crosswise.

 The foregoing method for arranging polarized base station antennas of a wireless system is characterized in that a transmitting radio frequency and another receiving radio frequency are on the same frequency or adjacent frequencies in a wireless interference area, and the horizontally polarized base station antennas are perpendicular to the receiving base stations. The polarized base station antennas are arranged crosswise.

 The above two types of cross permutations are a common arrangement. Cross permutation refers to the method of cross-arrangement within the interference range. This method can also be applied to this case.

 The foregoing method for arranging polarized base station antennas in a wireless system is characterized by the orderly arrangement of transmitting a vertically polarized base station antenna and receiving a horizontally polarized base station antenna.

 The foregoing method for arranging polarized base station antennas of a wireless system is characterized by the orderly arrangement of a horizontally polarized base station antenna and a vertically polarized base station antenna.

 The ordered layout is used for the original design of the regional antenna. Regardless of whether the antenna is involved in interference, it is mainly used for the original design of non-interference. The overall design of the antenna layout of the original base station in this way can lay a good foundation for future expansion and help increase the utilization of frequency points. BRIEF DESCRIPTION OF THE DRAWINGS

 Figure 1 shows the prior art layout method 1

 Figure 2 shows the prior art layout method 2.

 FIG. 3 is a layout method according to Embodiment 1 of the present invention.

 FIG. 4 is a layout method according to Embodiment 2 of the present invention.

 FIG. 5 is a layout method according to Embodiment 3 of the present invention. detailed description

Referring to the drawings, the existing arrangement generally has two commonly used forms. One is as shown in Fig. 1. A, B, and C. The transmitting radio frequency of B and the receiving radio frequency of A are signals of the same frequency and the same polarization. The receiving radio frequency is a signal with the same polarization at adjacent frequencies; and the transmitting radio frequency of A is at the same polarity with the receiving radio frequency of B 化 信号。 The signal. A, B, and C are the geographic locations of the base station antennas with the same frequency or adjacent frequencies and vertical polarization. The circle centered on the geographic location of each base station antenna indicates the electromagnetic field strength of the radio frequency of the base station within the circle. It is enough to interfere with the normal communication range of the same frequency or adjacent frequency co-polarized receiving base station radio waves. It can be seen that the radio waves transmitted by the B base station antenna directly interfere with the wireless communication of 7 A and C base stations, while the radio transmitted by the A base station antenna The wave directly interferes with the wireless communication of the B base station.

 Referring to FIG. 2, the antenna base station shown in the figure is a large and small covered array. A, B, C, D, E, F are the geographical locations of the base station antennas with the same frequency or adjacent frequencies and vertical polarization. The circle centered on the geographical location of each base station antenna indicates the radio frequency of the base station antenna. The electromagnetic field in this circle is strong enough to interfere with the normal communication range of the same frequency or adjacent frequency co-polarized receiving base station radio waves. The high-power base station A interferes with the low-power base stations 8, C, D, E, F located in it. The B base station also interferes with the normal communication of the A base station. Referring to FIG. 3, for the arrangement shown in FIG. 1, the antenna transmitting signals from the B base station can be changed to an antenna with a different polarization from the signals received by other base stations. The antennas of the signals received by other base stations are set to horizontal polarization; the antennas of the signals transmitted by base station B can also be set to horizontal polarization, and the antennas of signals received by other base stations are set to vertical polarization; similarly, the The antenna is set to vertical polarization, and the antenna for receiving signals at base station B is set to horizontal polarization; the antenna for signals transmitted at base station A may be set to horizontal polarization, and the antenna for signals received at base station B is set to vertical polarization. In this way, the signals received by antennas with different polarizations will not cause interference, thereby ensuring the normal communication. Multiple antennas can also be arranged in this order to achieve the purpose of anti-interference.

 Example 2:

Referring to FIG. 4, with regard to the arrangement of FIG. 2, the antenna used by the base station A to transmit and receive signals can be changed to an antenna with a different polarization from the signals received and transmitted by other base stations. Vertically polarized antenna. The signals received and transmitted by other base stations are set as horizontally polarized antennas. The transmitted and received signals of base station A can also be set as horizontally polarized antennas, and other base stations receive and transmit signals. The transmitted signal is set to a vertically polarized antenna. The base station A transmission can also be set to a vertically polarized antenna, and the receiver can be set to a horizontally polarized antenna. The other base stations can be set to receive a horizontally polarized antenna, and the transmission can be set to a vertically polarized antenna; The antennas and receivers are set to be vertically polarized antennas, the other base stations are set to be vertically polarized antennas, and the transmissions are set to horizontally polarized antennas; the transmissions of all antennas can also be set to be vertically polarized antennas, and the receive set to be horizontally polarized antennas. Antenna; the transmission of all antennas can also be set as a horizontally polarized antenna, and the reception can be set as a vertically polarized antenna. In this way, signals with different polarizations will not cause interference, thereby ensuring the normal communication.

 Example 3:

 The base station arrangement method is added. This embodiment is a method for adding a new base station based on the original rational arrangement. As shown in FIG. 5, A, B, C, D, F, G, H, I, J, K, L, M, N, and O are the base station antennas of the same frequency or adjacent frequency that are currently deployed and the other party receives the same polarization. If you want to add a new base station in the interference area of A, you can choose to place the A1 base station on 8. In the area in the middle of B, F, and G base stations, this is a better way of arranging. The radio frequencies of Al and A base stations are base stations of the same frequency or adjacent frequencies. Among them, the transmission of base station A is set as a vertically polarized antenna, the reception of base station A1 is set as a horizontally polarized antenna, the reception of base station A is set as a vertically polarized antenna, and the transmission of base station A1 is set as a vertically polarized antenna. It is a horizontally polarized antenna; A base station transmission can be set as a horizontally polarized antenna, A1 base station reception can be set as a vertically polarized antenna, A base station reception can be set as a horizontally polarized antenna, and A1 base station transmission can be set as a vertically polarized antenna.

Claims

Rights request

1. A method for arranging polarized base station antennas in a wireless system, which is characterized in that adjacent base stations are located in a wireless interference area, and an antenna transmitting signals of one base station and an antenna receiving signals of another base station use different polarization methods. , Respectively for vertical polarization and horizontal polarization.

 2. The method for arranging polarized base station antennas of a wireless system according to claim 1, characterized in that a transmitting radio frequency and another receiving radio frequency are on the same frequency or adjacent frequencies in a wireless interference area, and the transmitting and The low-power base stations are arranged within the interference range of the high-power base stations that receive the vertically polarized antennas. The antennas of the low-power base stations that receive and transmit signals are set to horizontal polarization.

 3. The method for arranging polarized base station antennas of a wireless system according to claim 1, characterized in that a transmitting radio frequency and another receiving radio frequency are on the same frequency or adjacent frequencies in a wireless interference area, and the transmitting and Low-power base stations are arranged within the interference range of high-power base stations that receive horizontally polarized antennas. The antennas of the low-power base stations that receive and transmit signals are set to vertical polarization.

 4. The method for polarizing a base station antenna of a wireless system according to claim 1, wherein one base station transmitting a radio frequency and another base station receiving the same radio frequency or adjacent frequencies in a radio interference area are using vertical A horizontally polarized receive antenna base station is added between multiple base stations of a polarized transmit antenna.

 5. The method for arranging polarized base station antennas of a wireless system according to claim 1, characterized in that in a wireless interference area, a base station with one transmitting radio frequency and another receiving radio frequency on the same frequency or adjacent frequencies is in use. A vertically polarized receiving antenna base station is added between multiple base stations of the polarized transmitting antenna.

 6. The method for arranging polarized base station antennas of a wireless system according to claim 1, characterized in that, in a wireless interference area, a transmitting radio frequency and another receiving radio frequency base station having the same frequency or adjacent frequencies are arranged in a crosswise manner. The base station antenna is arranged in such a way that the transmitting vertically polarized base station antenna and the receiving horizontally polarized base station antenna are arranged crosswise.

7. The method for arranging polarized base station antennas of a wireless system according to claim 1, characterized in that, in a wireless interference area, a transmitting radio frequency and another receiving radio frequency base station having the same frequency or adjacent frequencies are arranged in a crosswise manner. Base station antenna for transmitting horizontally polarized base station antennas and receiving vertically polarized base station antennas Lines are crossed.

 8. The method for arranging polarized base station antennas of a wireless system according to claim 1, wherein the base station antennas transmitting vertically polarized and the antennas receiving horizontally polarized base stations are arranged in order.

 9. The method for arranging polarized base station antennas of a wireless system according to claim 1, wherein the base station antennas transmitting horizontally polarized and the base station antennas receiving vertical polarization are arranged in an orderly manner.