JPH06165250A - Automatic base station selecting device in radio system - Google Patents

Abstract

PURPOSE:To correctly select a base station for providing best reception input by an automatic base station selecting device even when the communication time of a mobile station and the base station is short. CONSTITUTION:The plural base stations 30-33 connected to a communication center 35 by radio or wire communication channels and the mobile station connected to the base stations 30-33 by the radio communication channel are provided and the mobile station acquires the position information signal of its own station through G.P.S. In this case, the mobile station informs the base stations 30-33 of the position information signal along with the ID code of its own station or the like. At the base stations 30-33 which received the position information signal, the position information signal is reported to the communication center 35. At the communication center 35, the contents recorded in a position information signal data base 8 and the position information signal reported from the mobile station are collated by a CPU 9, the base station optimum for reception is selected from the base stations 30-33 and the channel is connected by using a speech switch 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a wireless system,
The present invention relates to a base station automatic selection method when there are a plurality of base stations.

[0002]

2. Description of the Related Art Conventionally, this type of system has a configuration as shown in FIG. The outermost line in the figure shows an area of a certain size as a service area.
There is a communication station 5 in this service area. further,
This service area is divided into small areas A to D. There are base stations 1 to 4 in each of the small areas A to D.
Then, the mobile station 20 communicates with the communication place 5 via the base stations 1 to 4 in any of the small areas A to D while moving in the service area.

The mobile station 20 uses the following communication method as a method for communicating with the communication station 5 via any one of the base stations 1 to 4. The base stations 1 to 4 transmit the reception signal transmitted from the mobile station 20 to the communication station 5. In the communication station 5, an automatic selection device (not shown) installed in the communication station 5 causes the strength of the received signal from the mobile station 20 transmitted via the base stations 1 to 4 or the received signal to be transmitted. The method of analyzing the S / N ratio and selecting the base station that allows the mobile station 20 to obtain the best reception state to communicate is used.

[0004]

However, in the method of the above configuration, the automatic selection device installed in the communication station 5 analyzes the received signal from the mobile station 20 transmitted via the base stations 1 to 4. It took some time to do. Here, for example, the following communication can be considered between the mobile station 20 and the communication station 5. For example, telephone communication in which the base station device and the mobile station 20 have been talking for a long time like a normal telephone, and data communication such as e-mail by facsimile or personal computer. In the case of telephone communication, sufficient time is available for the automatic selection device to analyze the voice signal of this communication. As a result, the automatic selection device can select the base stations 1 to 4 with which the mobile station 20 can obtain the best reception state. However, in the case of data communication, one communication time is usually as short as several seconds. Therefore, the automatic selection device cannot take enough time to analyze the received signal from the mobile station 20. As a result, the communication ends before the analysis of the received signal from the mobile station 20 transmitted via the base stations 1 to 4 is completed. Therefore, when the communication time is short, the automatic selection device cannot analyze the strength of the received signal and the S / N ratio of the received signal from the accurate mobile station 20, and the mobile station 20 can obtain the best reception state. There is a problem that 1 to 4 cannot be selected.

If it is attempted to select the base stations 1 to 4 within a short communication time, it is necessary to set a short sampling time for sampling data for analyzing the strength of the received signal and the S / N ratio. Then, the influence of external noise, jamming radio waves, etc. on the sampling data becomes relatively large. Therefore, in the automatic selection device, the reception input level from the mobile station 20 and the S / S
The N ratio cannot be analyzed accurately. Therefore, the automatic selection device is configured such that the mobile station 20 can obtain the best reception state from the base stations 1 to 1.
You cannot select 4.

The present invention has been made in consideration of the above problems, and the base station automatic selection device provides the best reception input even when the communication time between the mobile station 20 and the base stations 1 to 4 is short. The purpose is to enable correct selection of the base station.

[0007]

In order to solve the above-mentioned problems, the present invention relates to a wireless system having a plurality of base stations, wherein the mobile station obtains its own position information signal, A means for transmitting the position information signal as data is provided. In the communication station, means for reading the position information signal of the mobile station from the signal transmitted from each base station, a position information signal database recording the base station that provides the best reception input for each position of the mobile station, A CPU for selecting the base station by collating the position information signal transmitted from the mobile station and the recorded contents of the position information signal database, and means for switching the base station based on the selection of the CPU, To do.

[0008]

According to the present invention having the above-described structure, the CPU provided inside the automatic base station selection device controls the position information signal in the data transmitted from the mobile station and the base station map data in the position information signal database. And the mobile station selects the base station that provides the best received input. Then, the base station automatic selection device connects the line inside the communication station so as to communicate with the mobile station via the selected base station.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 2 is a block diagram showing a configuration example of a mobile station in this embodiment. Global Positioning System (hereinafter referred to as GPS) 13 receives radio waves from a geostationary satellite (not shown)
The current position of the mobile station is calculated in the form of absolute coordinates, and a position information signal indicating this current position is transmitted to the modem 12. The data communication device 12a is, for example, a facsimile, a personal computer, or the like, and is a device that creates data to be transmitted such as facsimile image data and personal computer electronic mail, and transmits this data to the modem 12. The modem 12 performs modulation / demodulation of signals for transmitting / receiving data and the like.

Further, the modem 12 is internally provided with a memory (not shown) for storing the position information signal of the mobile station transmitted from the GPS 13. Therefore, the GPS 13 constantly transmits the position information signal of the mobile station to the memory inside the modem 12. The memory inside the modem 12 reads the position information signal of the mobile station transmitted from the GPS 13 from the memory to the modem 12 at regular intervals. Then, the modem 12 sends image data sent from the data communication device 12a, data to be sent such as e-mail, and the position information signal of the mobile station sent from the GPS 13 via the internal memory of the modem 12 at regular intervals. And are respectively modulated. These modulated data signals are transmitted from the wireless device 11 via the transmitter 14 to each base station described later.

There is no particular limitation on the method of transmitting the position information signal of the mobile station to each base station described later,
For example, a method is conceivable in which the position information signal of the mobile station and the ID code of the mobile station are added to data to be transmitted such as image data or electronic mail and transmitted. In this case, the position information signal of the mobile station transmitted from the GPS 13 to the memory inside the modem 12 as described above is read from the memory to the modem 12 at regular intervals. Therefore, this position information signal may be added to the data to be transmitted such as image data and electronic mail together with the ID code of the mobile station only when read out from the memory to the modem 12. Then, it is transmitted to each base station described later. On the other hand, this position information signal may not be read from the memory to the modem 12. In such a case, only the ID code of the mobile station may be added to the data to be transmitted such as image data or electronic mail and transmitted to each base station described later.

In the wireless system described so far, it is possible that a plurality of mobile stations access the communication station at the same time. That is, the communication station generally communicates with a plurality of mobile stations at the same time. In such a case, the communication station can communicate with a plurality of mobile stations by using techniques such as time division multiplexing and frequency multiplexing. On the other hand, when the mobile station starts communication with the communication station, a communication line must be set up between the mobile station and the communication station.
Therefore, the mobile station needs to inform the communication station of its ID code at the start of communication and request to set up a new line. On the other hand, the communication center is
When the ID code is received, a line is set up between the communication station and this new mobile station. It is conceivable that the position information signal is transmitted immediately before or immediately after the transmission of this ID code. With this configuration, the mobile station transmits the presence and the position of the own station to the communication station at the start of communication. Then, at the communication station that receives this signal, a new line is connected using the method described later. Therefore, which base station should be used for this line can be determined at the start of communication. In this way, the lines are set up between the plurality of mobile stations and the communication place, and as a result, it is possible to simultaneously communicate between the plurality of mobile stations and the communication place.

FIG. 1 is a block diagram showing the configuration of a communication station in this embodiment. In the figure, 35 is a communication station,
It is connected to the base station indicated by 33 by a dedicated line. This communication station
The 35 and the base stations 30 to 33 are facilities fixed on the ground.
In addition, in FIG.
Although only 4 to 33 are described, the number of installations is appropriately set to an arbitrary number (N) according to the size of the service area to be set and the like.

Here, the communication between the base stations 30 to 33 and the mobile station is
Since it is performed wirelessly, the base station of the line established between the mobile station and the communication station 35 and the base stations 30 around it
It is conceivable that duplicate data will be received in ~ 33. Therefore, in the communication station 35, the position information signal data of the same mobile station, which is redundantly transmitted from the plurality of base stations 30 to 33, the ID code, and the data to be transmitted such as image data and electronic mail are duplicated. It may be received. Data from the same mobile station that is redundantly transmitted from the plurality of base stations 30 to 33 is transmitted to the demodulation device 6.

The demodulation device 6 demodulates the data from the same mobile station which are redundantly transmitted from the plurality of base stations 30 to 33. After demodulating, the demodulator 6 sends the position information signal data of the mobile station to the CPU 9 out of these data, and the data to be transmitted such as image data and electronic mail to the communication switch 10.
Is a device to which the mobile station ID code is added to each. Therefore, the ID code and position information signal data of the same mobile station, which is redundantly transmitted from multiple base stations 30 to 33, is stored
9 will be transmitted.

The CPU 9 in the automatic selection device 7 has a position information signal data of the mobile station and a position information signal database which will be described later at the start of the above-mentioned communication and every time the position information signal data is sent from the mobile station. The recorded contents of the base station map data in 8 are collated. As a result, the mobile station selects the base stations 30 to 33 that can obtain the best reception state. And
The resulting base stations 30 to 33 are transmitted to the call switch 10 together with the ID code of the mobile station.

At the start of communication, the call switch 10 connects the base stations 30 to 33 obtained as a result of the collation and the CPU 9 and sets a line. Also, during communication, each time the CPU 9 selects the base stations 30 to 33, the base stations 30 to 33 and the CPU 9 are connected. As a result, at the start of communication and at any time during communication,
The base stations 30 to 33 that can obtain the best reception state for the line set up between the mobile station and the mobile station will be selected.

Data to be transmitted such as image data and electronic mail received by the base stations 30 to 33 thus selected is selected by the call switch 10 and finally used.

Here, it is conceivable that an error may occur in the data transmitted from the demodulation device 6 during the transmission. Therefore, in case an error occurs during transmission,
It is effective to use, as a spare, data that is redundantly transmitted from other than the selected base stations 30 to 33. Therefore, for example, a memory (not shown) connected to the CPU 9 is provided to temporarily store the data of the same mobile station from other than the selected base stations 30 to 33 for each base station 30 to 33. You can leave it.

Therefore, the CPU 9 in the automatic selection device 7 sends the selected base stations 30 ...
Analyze whether there is a transmission error of data from. If it is determined that there is no transmission error in this data, the position information signal data is collated with the recorded contents of the base station map data in the position information signal database 8 so that the mobile station can obtain the best reception condition. Select 30-33. Then, the base station 30 to 33 data obtained as a result are transmitted to the call switch 10 together with the ID code of the mobile station. Then, the contents of this memory, that is, the ID code and position information signal data of the same mobile station transmitted from other than the selected base stations 30 to 33 may be erased.

On the other hand, if the CPU 9 determines that the data transmitted from the selected base stations 30 to 33 has a transmission error, the data stored in the memory as a spare is used. That is, the base stations 30 other than the selected base stations 30 to 33.
~ 33 of the same mobile station transmitted to the demodulator 6 redundantly
ID code and position information signal data are used. Specifically, any one of the duplicated data stored in the memory is read, and the read ID code and the position information signal data are similarly checked for an error. If the CPU 9 determines that the read data has no transmission error, the ID code and the position information signal data may be used.

In the position information signal database 8 in the automatic selection device 7, base station map data indicating which base station 30 to 33 should be selected according to the position of the mobile station to obtain the best reception state of the mobile station. Remember. If the base stations 30 to 33 that are closest to the mobile station are selected for the base station map data to simply communicate with each other, there is a possibility that noise or the like may be generated depending on the position of the mobile station, which may interfere with radio waves in a building. Therefore, the base station map data is stored in advance so that the mobile station selects base stations 30 to 33 that are not affected by noise interference. Then, the CPU 9 collates the information of the base station map data in the position information signal database 8 with the position information signal data, and selects the base stations 30 to 33 with which the mobile station can obtain the best reception state. Then, the base stations 30 to 33 obtained as a result are sent to the call switch 10 together with the ID code of the mobile station.

In the switch 10, the CPU 10 selects from among the data to be transmitted from the same mobile station that is redundantly transmitted from a plurality of base stations 30 to 33 and the mobile station ID code added to this data, the CPU
Based on the ID code of the base station 30-33 selected in 9 and the ID code of the mobile station added to this data, the data to be transmitted from the base station having the best reception input, which is the ID code of the same mobile station, is selected. Then, the data to be transmitted from the selected base stations 30 to 33 are used for communication.

[0024]

As described in detail above, according to the present invention, since the position information signal of the mobile station is added to the data from the mobile station, the best base station can be selected even in the case of short-time reception.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration on the communication station side in this embodiment.

FIG. 2 is a block diagram showing a configuration example of a mobile station in the present embodiment.

FIG. 3 is a block diagram showing an overall configuration of a conventional base station automatic selection system.

[Explanation of symbols]

 6 Demodulator 7 Automatic selective calling device 8 Position information signal database 9 CPU 10 Call switch 11 Radio 12 Modem 12a Data communication device 13 GPS 30, 31, 32, 33 Base station 35 Communication station

Claims (1)

[Claims] 1. A base station automatic selection of a wireless system comprising a plurality of base stations connected to a communication station through wireless or wired communication lines, and a mobile station connected to the base stations via wireless communication lines. In the device, the mobile station device includes position information signal acquisition means for acquiring a position information signal of a mobile station, and position information signal communication means for notifying the base station of the position information signal, the communication point device Includes a position information signal database uniquely indicating a base station to be selected according to the position of the mobile station, a position information signal received via the base station, and a recorded content of the position information signal database. Position information signal collating means, and base station selecting means for selecting a base station that can obtain the best communication state for the mobile station based on the collation result by the position information signal collating means. Base station automatic selection apparatus characterized by.