JP2001102995A - Mobile radio antenna control system using gps - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a stable communication with small electric power and to suppress interference with a different-area station by sending a radio wave out with an optimum transmission output and an optimum antenna direction. SOLUTION: A mobile station device 1 is connected to a position detecting device 2 and always stores the latest position information. An antenna direction and transmission output controller 6 hold the optimum antenna direction and transmission output at a position in the form of a database from up and down received electric field intensity and data of BER obtained by carrying out a previous radio wave propagation experiment. The mobile station device 1 when performing transmission or reception for communication sends position information to a base station 9 at the same time. The base station 9 calculates which position the mobile station 4 is present at from the position information received by the antenna direction and transmission output controller 6 connected to the base station device 5 and performs transmission with the optimum transmission output at the position by a directional base station transmitting antenna 7 set in the optimum direction.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile radio antenna control system, and more particularly, to a mobile radio system such as an automobile telephone, which receives base station information transmitted from a mobile station and transmits location information of a vehicle from a mobile station. To determine the optimal transmission direction and transmission power for that position obtained in the radio wave propagation experiment,
By transmitting through an antenna having directivity in that direction, stable power-saving communication can be performed, and the influence of interference on adjacent areas is reduced, so that GPS (Global) that can effectively use the frequency is used. Posi
The present invention relates to a mobile radio antenna control system using a switching system.

[0002]

2. Description of the Related Art Japanese Unexamined Patent Publication No.
The mobile radio communication system disclosed in Japanese Patent Application Laid-Open No. 20620618 is a mobile radio communication system having a radio communication device that forms a communication line by emitting radio waves of signals in all directions and capturing radio waves of incoming signals. The communication device has a narrow directivity transmitting antenna and a pair of receiving antennas, and when the communication line is formed, both terminals emit radio waves of a predetermined pilot signal from the narrow directivity transmitting antenna. While receiving the radio wave of the pilot signal emitted by the partner device with a pair of receiving antennas to recognize the arrival direction of the radio wave, the radio emission direction of the narrow directivity transmitting antenna, the communication during the continuation, the pilot It has a basic configuration for adjusting and maintaining the direction of arrival of a signal radio wave. While emitting a predetermined start signal radio wave, the transmitting antenna is driven to rotate in all directions. As a result, the receiving side receiving the start signal radio wave recognizes the arrival direction of the received radio wave and recognizes the direction of the received radio wave. The transmitting antenna is set to emit a radio wave of a predetermined response signal, and then the transmitting side that has received the radio wave of the response signal recognizes the arrival direction of the received radio wave, and sets the transmitting antenna in this direction to set the transmitting antenna. It is characterized by forming a communication line.

[0003] Japanese Patent Application Laid-Open No. Hei 9-1990 mentioned as a second prior art example.
The remote control antenna control system disclosed in Japanese Patent No. 233564 is a remote control antenna control system for performing broadband data transmission between a mobile station and a base station that remotely controls the mobile station, The mobile station includes: first position measuring means for measuring the position of the mobile station; position information transmitting means for transmitting position information measured by the first position measuring means to the base station; A first directional antenna for receiving broadband data from the first antenna, and first antenna control means for tracking the direction of arrival of the wideband data based on the wideband data received by the first directional antenna, The base station includes: a position information receiving unit that receives position information of the mobile station transmitted from the mobile station; a second directional antenna for transmitting the broadband data; Is obtained by; and a second antenna control means for directing said second directional antenna on the basis of more obtained position information in the direction of the mobile station.

[0004]

However, the first and second prior arts described above have the following problems.

The first problem is that, in the prior art, there is a method in which the direction of the mobile station is calculated by measuring the direction of the high reception input (the direction of the incoming radio wave) by rotating the antenna of the base station. The radio wave from the mobile station does not always have high reception input from the direction where the mobile station is located due to multipath. Therefore, in the conventional method, the error in the direction of the mobile station viewed from the base station is considered to be large.

[0006] Similarly, from the received electric field strength of the base station,
Although there is a technique for changing the transmission output to the mobile station, it is considered that the optimum transmission output is not always transmitted due to the influence of fading or the like.

Further, the second prior art described above transmits position information of a mobile station to a base station and transmits the information in a direction in which the mobile station is located by a directional antenna of the base station. Although it is not transmitted in an unnecessary direction, it is considered that unnecessary transmission power is being transmitted.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned circumstances, and has been made to solve the above-mentioned drawbacks inherent in the prior art. Therefore, an object of the present invention is to calculate the position of a mobile station using GPS. The base station can determine the location of the mobile station, which is almost accurate, and the optimal transmission power and antenna direction obtained from the radio station in advance and obtained as a database for the location of the mobile station. It is an object of the present invention to provide a new mobile radio antenna control system capable of transmitting stable radio waves with low power consumption and suppressing interference with other regional stations.

[0009]

In order to achieve the above object, a mobile radio antenna control system using a GPS according to the present invention is connected to an antenna for a mobile station and a position detecting device which will be described later. Mobile station device that always stores the latest position information of the mobile station, a mobile station having a position detecting device that detects the position of the mobile station, and a base station transmitting antenna and a base station receiving antenna. Base station device, and a database that stores an optimal transmission output and an optimal direction at an arbitrary position of the mobile station, and the position information transmitted from the mobile station through the base station receiving antenna and the base station device. To search the database to generate a predetermined antenna direction signal and transmission output.
And a base station having a transmission power control device.

The contents of the database include the uplink and downlink reception electric field strengths and B
The mobile station is characterized by the optimum antenna direction and transmission power at the position determined from the ER data.

[0011] The position detecting device of the mobile station includes a GPS receiver for receiving information from a GPS satellite, a vehicle speed sensor for adding information of a vehicle on which the mobile station is mounted for improving the accuracy of position data, and An azimuth sensor, the vehicle speed,
It has a direction sensor and a position data processing device for processing position information of the GPS receiver.

The antenna direction / transmission output control device of the base station includes a position data receiving device for receiving position data from the base station device, and a position data received from the position data receiving device as an address, An antenna direction / transmission output storage device including the database for reading out an optimum antenna output signal and supplying the optimum transmission output to the base station apparatus and supplying the optimum transmission output to an antenna direction control device described later; and the antenna direction / transmission output storage An antenna direction control device that controls an antenna rotator that rotates the base station transmission antenna based on the transmission output supplied from the device.

[0013] Further, the antenna transmitting / receiving power control device of the base station includes a plurality of antennas for transmitting the base station, a position data receiving device for receiving position data from the base station device, Antenna direction data including the database, which reads the optimal antenna direction signal from the database as an address with the position data received from the device and supplies the optimum antenna output to the base station device and reads the optimal transmission output to supply to the antenna direction control device described later. A transmission output storage device, and an antenna direction control device that controls an antenna selector that selects one of the plurality of base station transmission antennas based on the transmission output supplied from the antenna direction / transmission output storage device. Have.

[0014]

In FIG. 1, the mobile station device 1 of the mobile station 4 is connected to the position detecting device 2 and always stores the latest position information.

The antenna direction / transmission output control device 6 of the base station 9 performs an up-down reception electric field strength and a BER (Bit Error) obtained by conducting a radio wave propagation experiment in advance.
From the data of (Rate bit error rate), the optimum antenna direction and transmission output at that position are stored as a database.

When the mobile station apparatus 1 transmits or receives data for communication, it transmits position information to the base station receiving antenna 8 of the base station 9 at the same time. In the base station 9, the base station device 5
The mobile station 4 is calculated based on the position information received by the antenna direction / transmission power control device 6 connected to the mobile station 4 and directed to the optimum direction with the optimum transmission power at that position. Then, the signal is transmitted through the directivity antenna 7 for transmitting the base station.

Further, during communication, the mobile station apparatus 1 transmits position information at a certain fixed period to correct the direction of the base station transmitting antenna 7, so that the optimum transmission power and direction are always maintained. To.

In this manner, the base station transmitting antenna 7 is always directed toward the mobile station 4 and transmitted with an optimum transmission output, so that stable communication can be performed with less transmission power than an omnidirectional antenna. Will be possible. In addition, since transmission is not performed in an unnecessary area, interference with other areas is reduced.

[0019]

Next, a preferred embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing one embodiment of the present invention.

[Configuration of Embodiment] Referring to FIG.
The system outline configuration as one embodiment according to the present invention is shown therein. The system is composed of a mobile station 4 and a base station 9, and the mobile station 4 and the base station 9 communicate with each other.

[Embodiment] FIG. 2 is a block diagram showing an embodiment of the mobile station 4 according to an embodiment of the present invention.

Referring to FIG. 2, the mobile station 4 has a mobile station device 1, a position detecting device 2, and a mobile station antenna 3. The mobile station device 1 is a device for communicating with the base station device 5 of the base station 9, and the mobile station antenna 3 performs the communication with high efficiency. The position detecting device 2 is a device for transmitting position data to the base station 9, and is provided with a GPS receiver 10 for receiving information from GPS satellites and a mobile station 4 for improving the accuracy of position data. It comprises a vehicle speed sensor 11 and an azimuth sensor 12 for adding information on the vehicle in which the vehicle is located, and a position data processing device 13 for processing the position information of the elements 10 to 12 thereof.

FIG. 3 is a block diagram showing a first example of the base station 9 in one embodiment of the present invention.

Referring to FIG. 3, the base station 9 includes a base station device 5, an antenna direction / transmission output control device 6, a base station transmitting antenna 7, a base station receiving antenna 8, and an antenna rotator. 14. The base station device 5 is a device that communicates with the mobile station device 1 of the mobile station 4. Antenna rotator 14
Is to rotate the antenna for base station transmission 7 in the antenna direction / direction instructed by the transmission output control device 6.

As the antenna direction / transmission output control device 6,
A position data receiving device 15 for receiving position data from the base station device 5, based on the position data received by the position data receiving device 15, storing an optimum antenna direction and transmission output, and transmitting the data to the base station 5 and the antenna direction. Optimum antenna direction / transmission output storage device 1 to be output to control device 17
6. An antenna direction control device 17 for controlling the antenna rotator 14 to direct the base station transmission antenna 7 in the calculated direction.

The antenna direction / transmission power storage device 16 of the base station 9 has an optimum transmission power at the position from the data obtained in advance in the propagation experiment as a database on the base station side, and the mobile station is located. Only the required transmission power for the position is to be transmitted, which is one of the major features of the present invention.

That is, the antenna direction / transmission output storage device 16
The transmission direction and the transmission power optimum for the position obtained in a radio wave propagation experiment in an area where the corresponding mobile station is located in advance are stored as a database. This database is expected to be largely different even if the distance from the base station is the same due to the local environment, weather condition, the presence or absence of mountains, buildings, etc., so the contents of this database apply It depends on the region.

Here, an antenna having directivity is always used as the transmitting antenna 7 for the base station. Base station transmitting antenna 7
If the correction of the direction is performed at short intervals in time, it is better to use one with sharp directivity, but if the correction is not performed at too short intervals, the direction will shift when the vehicle moves, so the position data will be shifted. The sharpness of the directivity is determined by the capture interval.

[Operation of Embodiment] Next, the operation of the embodiment according to the present invention will be described.

The position data processing device 13 in the position detecting device 2 of the mobile station 4 receives position information from the GPS receiving device 10, traveling speed of the vehicle from the vehicle speed sensor 11, and azimuth data of the traveling vehicle from the azimuth sensor 12. Thus, the position data of the mobile station 4 is always calculated.

The mobile station device 1 of the mobile station 4 transmits or receives data for communication, and the position data processing device 1
The communication is performed by adding the position data received from No.3. During communication, the position data of the mobile station 4 is periodically transmitted to the base station 9 at certain intervals.

The position data transmitted from the mobile station 4 via the mobile station antenna 3 is received by the base station receiving antenna 8, and transmitted via the base station device 5 and the position data receiving device 15 to the optimum antenna direction. It is sent to the transmission output storage device 16. The optimum antenna direction / transmission output storage device 16 has a database of the optimum antenna direction and transmission output at the position from the data of the up-and-down reception electric field strength and BER obtained by conducting a radio wave propagation experiment in advance. ing.

Optimal antenna direction / transmission output storage device 16
Searches the database using the position data of the mobile station supplied from the position data receiving device 15 as an address, and transmits the optimum transmission output data stored in the database to the base station device 5 and the optimum antenna direction data to the antenna direction control. Send it to the device 17. The base station device 5 that has received the optimal transmission output data transmits with the transmission output of the data. Further, the antenna direction control device 17 that has received the antenna direction data controls the antenna rotator 14 so that the antenna 7 for base station transmission faces in that direction.

During the communication, the position data is periodically transmitted from the mobile station 4 at certain fixed intervals.
Each time, the direction and transmission output are changed and updated.

Next, another embodiment of the present invention will be described with reference to the drawings.

FIG. 4 is a block diagram showing another embodiment of the present invention, which is a modification of the base station shown in FIG.

Referring to FIG. 4, as another embodiment of the present invention, the basic configuration is the same as that of the embodiment shown in FIG. The direction of directivity may be configured as shown in FIG. In FIG. 4, a plurality of directional antennas are installed as base station transmission antennas 7. At this time, the greater the number of antennas, the higher the efficiency, but in FIG. 4, two antennas are used.
In this other embodiment, the base station transmitting antennas 7-a and 7-b which are installed and fixed in advance are used instead of rotating the base station transmitting antenna 7. The antenna is switched to one of the base station transmission antenna 7-a and the base station transmission antenna 7-b which is closest to the direction of the mobile station 4 calculated by the antenna control device 6, and is used for transmission.

That is, in the present embodiment, the antenna rotator 14 shown in FIG. 3 is an antenna selector, and the antenna directional control device 17 transmits the base station transmitting antennas 7-a and 7-a connected to the antenna. One of b is selected.

[0040]

The present invention is constructed and operates as described above. According to the present invention, the following effects can be obtained.

The first effect is that data is always transmitted to the mobile station 4 in an optimal direction by utilizing data acquired in a radio wave propagation experiment performed in advance, so that the base station 9 and the mobile station 4 Communication quality is improved in communication.

The second effect is that data is transmitted at an optimum transmission output utilizing data obtained in a radio wave propagation experiment performed in advance, so that transmission power can be reduced as compared with the case of transmitting a maximum constant output. It is possible and power can be saved.

The third effect is that radio waves are transmitted in a required direction and at a required transmission power using a directional antenna, so that not only radio waves are not transmitted in unnecessary directions but also required radio waves are transmitted. Since only the optimal (minimum) radio wave transmission output level is transmitted even in the direction, interference with an area using the same or nearby frequency, such as another area, is reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment according to the present invention.

FIG. 2 is a block diagram illustrating an embodiment of a mobile station.

FIG. 3 is a block diagram showing an embodiment of a base station.

FIG. 4 is a block diagram showing another embodiment of the base station.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Mobile station apparatus 2 ... Position detection apparatus 3 ... Antenna for mobile station 4 ... Mobile station 5 ... Base station apparatus 6 ... Antenna direction and transmission output control apparatus 7, 7-a, 7-b ... Antenna for base station transmission 8 ... Antenna for base station reception 9 ... Base station 10 ... GPS receiver 11 ... Vehicle speed sensor 12 ... Azimuth sensor 13 ... Position data processing device 14 ... Antenna rotator 15 ... Position data receiving device 16 ... Antenna direction / transmission output storage device 17 … Antenna direction control device

Claims (5)

[Claims] 1. A mobile station device connected to an antenna for a mobile station and a position detecting device to be described later, and a mobile station device constantly storing the latest position information of the mobile station detected by the position detecting device, and detecting a position of the mobile station. A mobile station having a position detecting device, a base station device connected to a base station transmitting antenna and a base station receiving antenna, and a database storing an optimal transmission output and an optimal direction at an arbitrary position of the mobile station. An antenna direction / transmission output control device that searches the database based on the position information transmitted from the mobile station through the base station reception antenna and the base station device and generates a predetermined antenna direction signal and transmission output. A mobile radio antenna control system using GPS, comprising: 2. The contents of the database include an optimum antenna direction at the position of the mobile station and a transmission direction determined at the position determined from data of uplink and downlink received electric field strengths and BER obtained by conducting radio wave propagation experiments in advance. The mobile radio antenna control system using GPS according to claim 1, further comprising an output. 3. A mobile station position detecting device comprising: a GPS receiver for receiving information from a GPS satellite; and a vehicle speed for adding information of a vehicle equipped with the mobile station for improving accuracy of position data. The GPS according to claim 1, further comprising a sensor and a direction sensor, and a position data processing device that processes position information of the vehicle speed, the direction sensor, and the GPS receiver. A mobile radio antenna control system using GPS. 4. The antenna direction / transmission output control device of the base station includes: a position data receiving device for receiving position data from the base station device; and a position data received from the position data receiving device as an address. An antenna direction / transmission output storage device including the database for reading out an optimum antenna direction signal and supplying the optimum transmission output to the base station apparatus and supplying the optimum transmission output to an antenna direction control device to be described later; and the antenna direction / transmission An antenna direction control device that controls an antenna rotator that rotates the base station transmission antenna based on the transmission output supplied from the output storage device, further comprising:
4. A mobile radio antenna control system using the GPS according to any one of 3. 5. A plurality of antennas for transmitting the base station,
The antenna direction and transmission output control device of the base station is a position data receiving device for receiving position data from the base station device, and the position data received from the position data receiving device as an address and the optimal antenna direction from the database as an address. An antenna direction / transmission output storage device including the database which reads out a signal and supplies it to the base station device and reads out an optimum transmission output and supplies the database to an antenna direction control device to be described later; and a supply from the antenna direction / transmission output storage device. An antenna direction control device for controlling an antenna selector for selecting one of the plurality of base station transmission antennas based on the transmitted power output.
A mobile radio antenna control system using the GPS according to any one of the above.