JPH0865743A - Mobile communication system - Google Patents

Abstract

(57) [Abstract] [Purpose] A base station monitors the surrounding level during system operation by itself, and performs interference avoidance operation against changes in the wireless environment based on the monitoring information. (EN) It is possible to provide a stable service quality that is inexpensive and does not depend on the surrounding radio environment, since a control information transmitting / receiving means between a station and a control station and a base station is unnecessary. [Structure] A base station C4 of a mobile communication system B performs radio communication with a mobile station by a time division multiplexing method and measures a radio wave level in the surroundings by using a time slot in which communication with the mobile station is not performed. . When it overlaps with the zone Z3 of another mobile communication system A that uses the same frequency band f3, the base station C4 switches its transmission frequency to f4 and avoids interference with the zone Z3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system such as a cordless phone or a mobile phone, and more particularly to a mobile communication system capable of avoiding radio wave interference which occurs later due to a change in the wireless environment after the start of system operation. Regarding

[0002]

2. Description of the Related Art In a mobile communication system having a control station adopting a conventional mobile communication system, a dedicated monitoring device for measuring a base station downlink level (that is, a radio field intensity transmitted from the base station to the mobile station) is provided. The measurement result is notified to the control station via the control line, and the control station collects and monitors information from each base station. The operator of the bureau is
When the monitor information is evaluated and it is determined that the frequency, the transmission output, or the like needs to be changed to avoid the radio wave interference, the frequency or the like is switched by changing the set value of the base station operation information.

In addition, in a mobile communication system having no control station, before starting the operation of the system, the downlink level in the vicinity of each base station is measured and measures are taken to avoid interference, but the operation of the system is started. After that, it is not necessary to switch the frequency used based on the level measurement result.

[0004]

By the way, in the conventional mobile communication system having the above-mentioned control station, since the monitoring device and the control station dedicated to the level measurement are installed, the system becomes large-scale and the system construction cost is high. In addition, maintenance and management work such as switching of used frequency and transmission output is required, and it is difficult to construct a small-scale system in which each base station is completely independent.

Further, in the conventional mobile communication system having no control station, the radio wave propagation due to the addition of a new base station whose service area overlaps with that of the existing base station or the change of surrounding buildings after the start of system operation. When a change in the wireless environment such as a change in conditions occurs, it is impossible to take measures for avoiding interference, and the quality of service cannot be avoided.

The present invention has been made under such a background, and the base station monitors the peripheral level by itself while the system is operating, and performs the interference avoiding operation against the change of the radio environment based on the monitoring information. This eliminates the need for a dedicated level monitoring device, control station, and control information transmission / reception means between the control station and the base station, and can provide stable service quality that is inexpensive and does not depend on the surrounding wireless environment. It is intended to build a communication system.

[0007]

In order to solve the above problems, the present invention provides a mobile communication system in which a base station wirelessly communicates a control signal and a call signal with a mobile station by time division multiplexing. , The base station, during the operation of the system, the level measurement means for measuring the surrounding radio wave level using the time slot in which the control signal and the call signal are not communicated, and the measurement result of the level measurement means. Based on the above, a frequency selecting means for selecting a transmission frequency to be used by itself is provided.

[0008]

According to the present invention, during operation of the mobile communication system, the base station performs wireless communication of control signals and call signals with the mobile station, and an empty time slot at a timing not to perform the communication. To measure the surrounding radio wave level. Then, the base station selects the transmission frequency to be used by itself based on the measurement result. As a result, during operation of the mobile communication system, even if the zone formed by the radio waves emitted by the base station overlaps with the zone formed by other neighboring base stations using the same frequency band, By itself switching to a different frequency, it is possible to avoid interference.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. (1) Configuration of Embodiment FIG. 1 is a block diagram showing the overall configuration of an embodiment of the present invention. In this figure, C1 to C4 are base stations of the mobile communication system. The base stations C1 to C3 belong to a mobile communication system A provided by a certain operator and form zones Z1 to Z3 by the radio waves emitted by the respective base stations. The base station C4 belongs to a mobile communication system B provided by another company, and forms a zone Z4 by the radio waves emitted by the base station C4.

The mobile communication system A is a conventional system having a control station CI, and the base stations C1 to C3 are connected to the control station CI via control communication lines CCB1 to CCB3. The control station CI is further connected to the communication network NET via the telephone line TCB. On the other hand, the mobile communication system B is a system that does not have a control station to which the present invention is applied, and the base station C4 is directly connected to the communication network NET via the telephone line TCB.

The transmission frequencies used by the base stations C1 to C4 for communication with mobile stations (not shown) are f1 and f, respectively.
2, f3 and f3, and the base station C of the mobile communication system A
3 and the base station C4 of the mobile communication system B use the same frequency band (band centered on the frequency f3). However, in this case, as shown in FIG.
Does not overlap with the zones Z1 and Z2 in which the transmission frequencies of the base stations are different, but does not overlap with the zone Z3, so that radio wave interference does not occur.

By the way, each of the base stations C1 to C4 employs different frequencies for transmission (downlink) and reception (uplink), and as shown in FIG. Are arranged on the same frequency by the time division multiplexing method. Here, the control channel is a communication channel for exchanging various control signals with the mobile station, and the call channel is a communication channel for exchanging a voice signal including call information with the mobile station.

The base station C4 of the mobile communication system B
Has a function of measuring radio wave levels (hereinafter, referred to as a peripheral level) of various usable frequencies f1 to f4 including the transmission frequencies of the peripheral base stations C1 to C3. That is, as shown in FIG. 3, for example, the base station C4 uses a so-called empty slot that is not used for either the control channel or the speech channel among the time slots in the time division multiplexing of the transmission frequency, and its timing is used. Then, the peripheral level is measured for each of the frequencies f1 to f4.

From the measurement result of the surrounding level, the base station C4 sets the transmission frequency of the base station C4 to a low level if there is a high radio wave level of the same frequency as the transmission frequency of the base station C and there is a risk of interference. The frequency is switched to.

(2) Operation of the embodiment In the above configuration, if the transmission output of the base station C3 of the mobile communication system A is increased, the base station C concerned
The zone Z3 formed by 3 is the original area Z3-1.
To area Z3-2 (see FIG. 1). As a result, the zone Z4 of the base station C4 overlaps with the zone Z3 of the base station C3 that uses the same frequency f3, so that radio wave interference occurs and the operation becomes difficult.

At this time, the base station C4 uses the frequencies f1, f2 and f2 that can be used as transmission frequencies in the band for mobile communication.
The peripheral level for each of f3 and f4 is measured at the timing when it is not used for control or communication. Then, the base station C4 compares the level measurement results of the frequencies f1 to f4 and detects that the frequencies f1 to f3 are high in level and may cause interference, but the frequency f4 is low in level and thus there is no risk of interference. To do.

As a result, the base station C4 switches the transmission frequency emitted by itself from the frequency f3 to the frequency f4 in order to avoid interference, and continues to operate thereafter.

Thus, as shown in FIG. 4, the zone Z4 which is the service area of the mobile communication system B is the same frequency band (frequency f
Even if it overlaps with the zone Z3 that was using the band (centering around 3), the transmission frequency of the base station C4 is switched from f3 to f4, so high quality service is continued without causing radio wave interference. Can be provided.

(3) Modifications In the above embodiment, the mobile communication system B having one base station is assumed for a cordless telephone or the like, but the present invention is not limited to this, and a plurality of mobile communication systems may be used. It can also be applied to a mobile communication system composed of base stations. Even in this case, since each base station independently measures each peripheral level and switches the transmission frequency, there is no need to provide a dedicated level monitoring device, a control station, etc. for that purpose.

[0020]

As described above, according to the present invention, during operation of the mobile communication system, the zone formed by the radio wave emitted by the base station concerned is another neighboring base station using the same frequency band. Even if it overlaps with the zone formed by, the base station can avoid the interference by switching itself to a different frequency. Therefore, it is not necessary to provide a dedicated level monitoring device, a central station, and a control information transmission / reception means between the central station and the base station as in the conventional case, and a stable service quality that is inexpensive and does not depend on the surrounding wireless environment is provided. Can be provided.

[Brief description of drawings]

FIG. 1 is a block diagram showing the overall configuration of an embodiment of the present invention.

FIG. 2 is a conceptual diagram showing time division multiplexing of control channels and communication channels.

FIG. 3 is a conceptual diagram showing peripheral level monitoring using an empty slot according to the embodiment.

FIG. 4 is a diagram for explaining an operation when the zones overlap in the embodiment.

[Explanation of symbols]

 A, B Mobile communication system C1 to C4 Base station CCB1 to CCB3 Control communication line CI Control station NET Direct communication network TCB Communication line

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI Technical indication location H04J 3/00 Z H04B 7/26 110 A (72) Inventor Kiyoto Nagata Toranomonji, Minato-ku, Tokyo Chome No. 10-1 NTT Mobile Communications Network Co., Ltd.

Claims (1)

[Claims] 1. A mobile communication system in which a base station wirelessly communicates a control signal and a call signal with a mobile station by time division multiplexing, wherein the base station is configured to operate the control signal and the control signal while operating the system. It is provided with level measuring means for measuring the surrounding radio wave level using a time slot in which communication of a call signal is not performed, and frequency selecting means for selecting a transmission frequency to be used by itself based on the measurement result of the level measuring means. A mobile communication system characterized by the above.