JPH1023519A - Communication system, and its base station device and mobile station device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system which can efficiently use frequencies and reduce the power consumption by limiting the transmission of control information from a base station to the irreducible necessary minimum. SOLUTION: The base station BS stops sending control information when no mobile station is present in its zone. A mobile station PS when desiring to belong to the base station BS sends a signal requesting the base station to start sending the control information. On receiving this request-to-send signal, the base station BS starts sending the control information, and stops sending the control information unless the mobile station PS is present in its zone.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system and communication system suitable for a low-traffic microcell system such as a small-scale microcell system, a private microcell system in which only a limited number of mobile stations are located in a base station, and the like. The present invention relates to a base station device and a mobile station device of a system.

[0002]

2. Description of the Related Art FIG. 6 shows a communication procedure performed between a base station and a mobile station in a general mobile communication system. As shown in this figure, in a mobile communication system, each base station uses a control channel and constantly transmits control information. Here, the control information is information transmitted from the base station to the mobile station for controlling the location,
For example, a digital car telephone system (standard: R
In the CR STD-27), the broadcast channel (BCCH)
Is applicable. Upon receiving the control information, the mobile station proceeds with the procedure for locating with the base station. That is, the mobile station issues a location registration request to the base station, and performs an authentication procedure between the base station and the mobile station to confirm the validity of the mobile station. When the validity is confirmed, the base station notifies the mobile station of the reception of the location registration, and the mobile station shifts to a standby state.

In addition to the digital type mobile telephone system, for example, an analog NTT type mobile telephone system (standard: RCR STD-35), analog TAC
S-type car telephone system (Standard: RCR STD
-36), a second generation cordless telephone system (standard: RCR STD-28), an analog cordless telephone system, and many other communication systems including base stations and mobile stations as components. Control information for controlling standby is constantly transmitted by the base station.

[0004]

The above-mentioned control information is transmitted from a base station to control a mobile station. However, in the existing mobile communication system, the base station occupies the control channel and constantly transmits control information regardless of whether the mobile station is in or out of service area. In some cases, control information is transmitted. It can be said that such useless transmission of control information should be improved from the viewpoint of effective use of frequency and transmission power. In particular, in the mobile communication system of the microcell system, the service area provided by each base station is sufficiently small, so that the total number of mobile stations located in the base station decreases. Therefore, when focusing on each service area, it is considered that there are many times when the mobile station is not present at all. Also, in a private microcell system that allows only a limited number of mobile stations to be located, it is considered that the mobile station will not be located in the service area for a considerable amount of time. In such a microcell system with low traffic, there are many time zones in which transmission of control information is unnecessary, and therefore, a strong improvement is desired from the viewpoint of frequency utilization and power saving.

[0005] The present invention has been made in view of the above circumstances, and a communication system capable of restricting the transmission of control information from a base station to a necessary minimum and enabling efficient use of frequency and reduction of power consumption. It is another object of the present invention to provide a base station device and a mobile station device of a communication system.

[0006]

The invention according to claim 1 is
In a communication system consisting of a base station and a mobile station communicating with another base station by communicating with the base station, the mobile station transmits a transmission request signal requesting start of transmission of control information, The base station starts transmitting the control information by receiving the transmission request signal, and stops transmitting the control information when a predetermined transmission stop condition is satisfied. Make the system a gist.

According to a second aspect of the present invention, the control information includes:
A gist of the communication system according to claim 1, which is information used for control of location.

According to a third aspect of the present invention, transmission of control information is started by receiving a transmission request signal from a mobile station, and transmission of the control information is performed when a predetermined transmission stop condition is satisfied. The gist of the present invention is a base station apparatus of a communication system characterized in that the base station apparatus stops.

The invention according to claim 4 is characterized in that when the mobile station is out of the service area, the transmission stop condition is satisfied and the transmission of the control information is stopped.
The gist is the base station apparatus of the communication system described in (1).

[0010] The invention according to claim 5 comprises means for determining whether the mobile station can be located, and depending on a transmission request signal from a mobile station other than the located mobile station, the control information of the mobile station can be determined. The gist of the invention is a base station apparatus of a communication system according to claim 3, wherein transmission is not started.

The invention according to claim 6 further comprises means for determining whether or not the mobile station can be located, and transmitting the control information in response to a transmission request signal from a mobile station other than the located mobile station. The transmission of the control information is stopped when it is determined that the communication has started, and the gist of the base station apparatus of the communication system according to claim 3 is provided.

The invention according to claim 7 further comprises means for determining whether or not the mobile station can be located. When there are a plurality of mobile stations which can be located, at least one of the mobile station groups is provided. The gist of the base station apparatus of the communication system according to claim 3, wherein the transmission of the control information is continued as long as the mobile stations are located.

The invention according to claim 8 comprises means for determining whether or not the mobile station has a priority, and transmitting the control information by receiving a transmission request signal from the mobile station having the priority. Is started, and when the mobile station having the priority does not exist at all, the transmission stop condition is satisfied regardless of the presence / absence of the mobile station having no priority. The gist of the present invention is a base station apparatus of a communication system according to claim 3, wherein transmission of information is stopped.

According to a ninth aspect of the present invention, there is provided a means for allowing a separately provided management device to determine whether the mobile station can be located. The gist of the base station apparatus of the communication system according to claim 3, wherein the transmission of the control information is not started depending on the transmission request signal.

[0015] The invention according to claim 10 is provided with means for making a management device provided separately determine whether or not the mobile station can be located, so that a mobile station other than a mobile station capable of being located can receive the mobile station. The gist of the base station apparatus of the communication system according to claim 3, wherein the transmission of the control information is stopped when it is determined that the transmission of the control information is started by the transmission request signal.

The invention according to claim 11 is provided with means for allowing a separately provided management device to determine whether or not the mobile station can be located. The gist of the base station apparatus for a communication system according to claim 3, wherein the transmission of the control information is continued as long as at least one mobile station in the mobile station group is located.

According to a twelfth aspect of the present invention, there is provided a means for allowing a separately provided management device to determine whether or not the mobile station has a priority, and a transmission request signal from the mobile station having the priority. , The transmission of the control information is started, and when the mobile station having the priority does not exist at all, regardless of the presence / absence of the mobile station having no priority, The transmission station according to claim 3, wherein the transmission stop condition is satisfied and transmission of control information is stopped.

According to a thirteenth aspect of the present invention, a process for transmitting a transmission request signal for requesting transmission of control information and receiving control information from the base station to execute a process for locating at the base station is performed. The gist is a mobile station device of a communication system characterized by the following.

[0019]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a basic concept of a mobile communication system according to an embodiment of the present invention, FIG. 2 is an operation sequence diagram showing a communication procedure between a base station and a mobile station in the same system, and FIG. FIG. 4 is a flowchart showing the operation of the base station, and FIG. 4 is a flowchart showing the operation of the mobile station in the same system.

A. Basic concept of the present embodiment First, the greatest feature of the mobile communication system according to the present embodiment is that a time limit is set for transmission of control information performed by a base station. This will be described below with reference to FIG. That is, in the conventional system, the base station occupies the control channel and constantly transmits the control information, but in the present embodiment, the base station BS stores the mobile station PS in the microcell C under the control of the base station BS. Does not transmit control information when no device is present (see FIG. 1).
(A)), transmission of control information is started when a transmission request signal is received from a mobile station PS desiring to be present (FIG. 1).
(B)). By providing a time limit for the transmission of control information in this way, the base station BS is prevented from uselessly using the control channel and not from wasting transmission power.

B. Outline of Operation of the Present Embodiment Various embodiments are conceivable for the base station and the mobile station constituting the mobile communication system according to the present invention, and considering the combination thereof, many embodiments are established as the mobile communication system. I can do it. If these are described one by one as separate embodiments, the description becomes extremely complicated. Therefore, an outline of an operation common to each embodiment will be described below with reference to FIGS. 2 to 4, and specific embodiments of the base station and the mobile station will be described later.

As shown in the sequence diagram of FIG. 2, the base station normally stops transmitting control information. A mobile station that intends to be located in a micro cell controlled by such a base station sends a transmission request signal to the base station according to the flow shown in FIG. 4 to request transmission of control information. First, on the mobile station side, some procedure that is a condition for transmitting a transmission request signal is required (step S201). And
Each process for transmitting a transmission request signal is performed when this condition is satisfied. That is, the transmission frequency of the transmission request signal is determined according to a predetermined method (step S
202), and transmits a transmission request signal at the determined transmission frequency (step S203). The transmission request signal transmitted from the mobile station in this manner is transmitted to the base station as shown in the sequence diagram of FIG.

On the other hand, in the base station, processing proceeds according to the flow shown in FIG. First, the base station side determines a reception frequency of a transmission request signal according to a predetermined method (step S101), performs reception processing at the reception frequency (step S102), and in this reception processing, determines a transmission request signal. It receives (step S103) and determines whether to respond as a base station (step S104).

Here, when it is not necessary to respond as a base station, for example, when a transmission request signal is received from an unauthorized mobile station or a mobile station that does not need to recognize the location, the process returns to step S102. On the other hand, when a legitimate transmission request signal is received from a mobile station that should be recognized as being in the area, the base station should respond as a base station, so the transmission frequency (control channel) of the control information is determined (step S105). Transmission of control information is started using this transmission frequency (step S
106).

In this way, the mobile station can be located, and as shown in the sequence diagram of FIG. 2, the mobile station communicates with the base station by the same communication procedure as the conventional mobile communication system. Start. Then, the base station confirms the presence of the mobile station that has recognized the presence in this way, and determines whether the mobile station satisfies the absence determination condition (step S107). Here, the absent area determination condition refers to a condition for assuming that the mobile station is out of the service area. For example, when the mobile station goes out of the service area, when the power of the mobile station is turned off. This condition is satisfied when the mobile station moves to another base station. Next, the base station may determine whether or not a predetermined transmission stop condition is satisfied, that is, may stop the transmission of the control information, based on the determination result about the absence area determination condition thus obtained. It is determined whether or not the state has been reached (step S108). Then, the process returns to step S107 again, and thereafter, step S107
107 and S108 are repeated. The determination of the absence zone determination condition and the transmission stop condition will be described later in detail.

Then, when a determination result indicating that the transmission stop condition is satisfied is obtained in step S108, the base station stops transmission of control information (step S10).
9). Then, the process returns to step S101, and waits until a transmission request signal is received again.

As described above, in the present embodiment, the transmission of the control information by the base station is started by the mobile station transmitting the transmission request signal and the base station receiving the transmission request signal. When the condition is satisfied, the transmission of the control information is stopped. Since the control information is transmitted by the base station only during the period required by the mobile station,
The control channel is not wastefully occupied, and the transmission power for transmitting the control signal is also saved.

C. Embodiments of Each Unit of the Mobile Communication System The above is the outline of the operation of the present embodiment. The following specific embodiments can be considered for the operation of each unit of the present embodiment.

(1) Transmission request signal transmission condition in mobile station (Step S201 in FIG. 4) The mobile station side transmits a transmission request signal by satisfying some conditions. Various embodiments are realized depending on how is defined.
Preferred examples in that case include the following.

A. It is assumed that the transmission request signal transmission condition is satisfied when the user performs a predetermined operation, and the process proceeds to the transmission request signal transmission process (step S202 and subsequent steps in FIG. 4). b. It is assumed that the transmission request signal transmission condition has been satisfied after a certain time has elapsed. That is, the mobile station periodically transmits a transmission request signal. c. The user himself / herself can set which of the above conditions a and b is used to transmit the transmission request signal.

(2) Determination of Frequency of Transmission Request Signal at Mobile Station (Step S202 in FIG. 2) As a method of determining a frequency at the time of transmitting a transmission request signal on the mobile station side, for example, the following method is used.

An arbitrary frequency is selected from a frequency band that is permitted to be used by the base station to be located.

The frequency used for transmitting the transmission request signal is 1
One or more are agreed upon, and in the case of a plurality, an arbitrary frequency among them is selected and used.

A plurality of transmission request signal transmission frequency candidates are prepared, and one of them is selected by a predetermined arithmetic processing.
Specifically, it is as follows.

A. One frequency is obtained by calculation based on the unique information held only by the mobile station. For example, if the last digit of the telephone number of the mobile station is an even number, f1;
2, etc., a method is conceivable that is determined by the telephone number of the mobile station. However, when this method is adopted, the base station side obtains the unique information of the mobile station group that may be located in the base station (that is, the mobile station group that may transmit the transmission request signal). Of these, it is necessary to hold information used for the above-mentioned frequency calculation and to grasp at what frequency the transmission request signal is transmitted.

B. The transmission frequency is determined by calculation using the unique information of the base station desiring to be present (such as identification information for specifying the base station). In this method, the mobile station needs to hold information used for calculating the transmission frequency among the unique information of each base station.

C. The transmission frequency of the transmission request signal is determined by calculation using the unique information held only by the mobile station and the unique information of the base station desiring to be located. When this method is adopted, both the mobile station and the base station need to hold each piece of information used for calculating the transmission frequency among the unique information of the mobile station and the unique information of the base station.

From the available frequency candidates, a frequency with a small amount of interference is selected by scanning before signal transmission.
For example, it is assumed that there are three types of frequencies f1, f2, and f3 that can be used as transmission frequencies of the transmission request signal by the mobile station. In this case, the mobile station measures the radio wave reception level for each of the frequencies f1, f2, and f3 before transmitting the transmission request signal. Here, when the reception level at a certain frequency is high, it is considered that the radio wave is being used. Therefore, such a frequency is rejected, and the frequency with the lowest reception level, that is, the frequency with the least amount of interference is selected as the transmission frequency of the transmission request signal. Note that a plurality of frequencies having the lowest reception level may be selected. In such a case, one type of frequency is selected by any of the above-described methods.

(3) Determination of reception frequency of transmission request signal at base station (step S101 in FIG. 3) As described above, the mobile station side can determine the transmission frequency of the transmission request signal by various methods. On the base station side, it is necessary to determine the reception frequency by a method suitable for the transmission frequency determination method on the mobile station side. That is, it is as follows.

Regardless of whether the mobile station adopts any of the above methods (2), the base station receives all frequencies that have been approved for use by the base station or that have been negotiated as transmission request signals. A request signal can be received.

When the mobile station uses the above method (2), the base station receives the transmission request signal by sequentially monitoring only the frequency determined by the base station for transmitting the transmission request signal. .

When the mobile station uses the method (b) of (2), the base station receives the transmission request signal by monitoring only the frequency calculated from the unique information of the base station.

When the mobile station uses the method (a) in the above (2), the base station sets each mobile station in a group of mobile stations registered to permit access to the base station. Holds the unique information used for calculating the transmission frequency of the transmission request signal, monitors only the frequency calculated using the held unique information, and receives the transmission request signal.

When the mobile station uses the method (c) of the above (2), the base station sets each mobile station in a group of mobile stations registered to permit access to the base station. Holds the unique information of each mobile station used for calculating the transmission frequency of the transmission request signal, and monitors only the frequency calculated using the unique information of the mobile station and the unique information of the base station. Receive the signal.

(4) Base Station Response Method (Step S in FIG. 3)
104) The following embodiment is also conceivable for the response method of the base station that has received the transmission request signal.

The transmission request signal transmitted by the mobile station includes base station ID information that the mobile station itself wishes to be located in, and the base station includes its own base station ID information in the received transmission request signal. A method of responding (ie, transmitting control information) only when it has been

Response method for recognizing that only a specific mobile station is present This response method is based on the premise that the mobile station ID information of the mobile station itself is included in the transmission request signal transmitted by the mobile station. The base station stores in advance the mobile station ID information of the mobile station group that can use the base station, and the mobile station ID information in the received transmission request signal is included in the mobile station ID information of these mobile station groups. Respond only if it has.

The following method can be used to determine the group of mobile stations that are permitted to be present. a. Permits mobile stations that are permitted to be located in each carrier.
That is, a mobile station group that can be located only by mobile stations that have a contract with a specific carrier is configured. b. Permits mobile stations that are allowed to be located in service units. That is, for example, a mobile station group that can be located only by mobile stations that are to use the microcell service is configured. c. Permits mobile stations that are permitted to be in service by carrier and service. d. Only a limited group of one to several mobile stations is permitted to be located. That is, it is a private system.

Response method using the above and above It is assumed that the transmission request signal transmitted by the mobile station includes the mobile station ID information of the mobile station itself and the base station ID information which the mobile station itself desires to communicate with. Become. The base station stores mobile station ID information of mobile station groups that can use the base station in advance. The base station is a mobile station belonging to a mobile station group whose base station ID information in the received transmission request signal matches that of the base station and whose mobile station ID information in the transmission request signal can use the base station. A response is made only when it is included in the ID information.

Response method for providing a difference in handling depending on the mobile station It is assumed that the transmission request signal transmitted by the mobile station includes the mobile station ID information of the mobile station itself. The base station determines whether or not to respond to the transmission request signal based on the mobile station ID information. At this time, the base station gives priority to a specific mobile station group.

That is, a group of mobile stations permitted to be located in the base station is divided into a group of mobile stations having a priority and a group of mobile stations not having a priority. Is stored. When the base station receives a transmission request signal during a period in which control information is not transmitted, the mobile station that is the transmission source has priority based on the mobile station ID information in the transmission request signal. Is determined, and transmission of control information is started only when the user has the priority.

Even if a base station receives a transmission request signal from a mobile station having no priority, transmission of control information is not started. However, after the transmission of the control information has already been started by the base station, even if a transmission request signal from a mobile station having no priority is received,
The transmission of the control information will continue without being hindered thereby. In this case, the mobile station that has transmitted the transmission request signal later, as long as the mobile station is permitted to be located,
Even if they do not have priority, they can use the control information to stay in the area.

That is, a mobile station having a priority has authority to start transmission of control information to a newly located base station, while a mobile station having no priority does not have this authority. That is, the location is recognized only when the base station has already started transmitting the control information.

Method for Unconditionally Transmitting Control Information by Receiving Transmission Request Signal In this method, a base station that has received a transmission request signal starts transmission of control information unconditionally, and in a subsequent authentication procedure, the mobile station concerned Of the mobile station, and immediately stops the transmission of the control information in the case of an unauthorized mobile station.

Response Method Using Another Management Device The above response methods are used to determine whether a mobile station wishes to be located, whether the mobile station can be located, and whether the mobile station has priority. The base station itself performs the determination and the authentication of the validity of the mobile station, thereby determining whether to start transmission of control information or to stop transmission of control information once started. is there. Accordingly, in the above-mentioned response methods, the base station holds information necessary for the above-described determination and authentication, and the mobile station I of the mobile station desiring to be located is located.
The above-described determination and authentication are performed by comparing the D information and the like with this information.

On the other hand, in the present response system, not the base station, but a management device provided separately from the base station holds the information necessary for the above determination or authentication, and performs the above determination or authentication. The base station sends information necessary for determination and authentication, such as mobile station ID information acquired from the mobile station, to the management device, receives a determination or authentication result from the management device, and starts transmitting control information according to the result. It is determined whether or not the transmission of the control information once started is stopped. That is, in this response method, the base station does not perform the determination and the authentication itself, but causes the management device to perform the determination and the authentication. As described above, in the present response method, the entity that performs determination and authentication is changed from the base station to the management device, but the content of the determination and authentication is not different from those performed in the above.

(5) Method of Determining Transmission Frequency of Control Information (Step S105 of FIG. 3) As a method of determining the transmission frequency of control information, for example, the following embodiment can be considered.

One kind of predetermined frequency is set as the transmission frequency of the control information. In this case, there is no need to prepare different transmission frequencies for each base station, and all base stations may use a common transmission frequency. In the present embodiment, since the base station does not transmit control information unless the mobile station is located, a plurality of mutually close base stations that do not cause the problem of interference do not transmit control information at the same time. This is because there are cases. This case will be described in detail later with specific examples.

The frequency of the transmission request signal is used as the frequency of the control information.

One of a plurality of types of predetermined frequency candidates is selected and used as a control information transmission frequency. The following selection method can be considered in this case.

A. Prior to transmission, each frequency candidate is sequentially selected, the reception level at that frequency is measured, and the frequency with the lowest reception level (ie, the frequency that is considered not used by other base stations for transmitting control information) is determined. Select as the transmission frequency of control information. b. The last used frequency in the last operation is used. c. An operation using information elements such as base station ID information, mobile station ID information, and time is performed, and a transmission frequency is selected according to the operation result.

When the method of preparing a plurality of frequency candidates as described above is employed, the transmission frequency of the control information can be changed during the operation of the system.

(6) Absence area determination method (step S in FIG. 3)
107) Since the base station needs to send out control information while the mobile station is located, the base station is required to transmit the control information by any method in order to obtain an opportunity to stop the control information. It is necessary to determine the area. The following can be considered as a method for that.

The mobile station that is located is made to perform periodic location registration. The base station determines the absence area when the signal for the periodic location registration is no longer received from the mobile station.

A signal is periodically transmitted from the base station to the mobile station. If a response to this signal is received from the mobile station, it is determined that the mobile terminal is located, and if not, it is determined that the mobile terminal is absent.

In the present method and the above method, the absence is determined based on the fact that a signal scheduled to be periodically received from the mobile station is not received. In order to improve the reliability of this determination, If the scheduled signal is not received n times (for example, two times), the absence may be determined.

When the power is turned off, the mobile station stops functioning after transmitting a signal to notify the power-off, and the base station determines the absence area by receiving the power-off notification.

It is assumed that the mobile station is moving away from the sphere of influence of the serving base station based on the reception strength deterioration and quality deterioration of the received signal, and a notice signal is transmitted to the base station. To determine the absence area of the mobile station.

When the mobile station moves to another base station, a notice signal is transmitted, and the base station receives this notice signal to determine the absence area of the mobile station.

In order to increase the reliability of the determination of the absence area in the above methods (1) to (4), the mobile station transmits each of the above signals continuously, for example, X times, and the base station transmits this signal once or Y times ( (Y <X) When it is received, the absence zone may be determined.

The methods for determining the absence zone have been described above. When implementing these methods, either one of the methods is used alone or a method in which the methods are mixed is used. May be.

(7) Judgment Method for Transmission Stop Condition (Step S108 in FIG. 3) When only one mobile station is located in the base station, transmission is stopped if that mobile station is absent. The condition will be satisfied.

On the other hand, after a certain mobile station is located in the base station,
It can happen that another mobile station wants to be in the same base station. In this case, although the control information has already been transmitted from the base station by the transmission request signal transmitted from the mobile station that has been located earlier, the mobile station that is going to be located later performs control in the same manner as the normal located area. The control information is received by performing the channel scan, and the location can be located by transmitting the location registration request. The validity of the mobile station is confirmed by a normal authentication procedure.

As described above, how to determine the transmission stop condition when a plurality of mobile stations that have been located in the base station are sequentially out of service becomes a problem, which will be described in the next embodiment. Can be considered.

As long as at least one mobile station is located in the base station, transmission of control information is continued, and when the mobile station is not located at all, transmission of control information is stopped. .

If the mobile station group permitted to be located is divided into a mobile station group having priority and a mobile station group having no priority, the mobile station having priority is located. Transmission of control information is continued as long as there is a mobile station that desires to be newly located, regardless of whether or not the mobile station has a priority, new mobile station is accepted. However, when there is no mobile station having priority,
Even if a mobile station having no priority is present, transmission of control information is stopped, and a new location of a mobile station having no priority is not allowed.

D. Effects of this embodiment As described above, in this embodiment, control information is not transmitted when a mobile station is not located in a base station. Therefore, it is possible to save the frequency used for transmitting control information as the whole mobile communication system including a plurality of base stations. This effect will be described with reference to FIGS.

First, in the conventional mobile communication system, each base station needs to constantly transmit control information. For this reason, adjacent base stations BS1 to BS3 need to always transmit control information at different frequencies as illustrated in FIG. 5A, and eventually, base stations BS1 to BS3.
Transmit three types of frequencies f1 to f
3 is required.

On the other hand, in the present embodiment, the base station where the mobile station is not located does not transmit control information. Therefore, it is determined how many base stations can simultaneously transmit control information within a certain range in which the problem of interference must be considered, and a frequency of a type corresponding to the result is determined as a control information transmission frequency. It is sufficient that each base station selects and uses a frequency that does not cause interference with other base stations by the method described in the section “(5) Method of determining control information transmission frequency”. . here,
In a system in which the service area of each base station is narrow and a mobile station is not located at a base station for a long time, a plurality of base stations close to each other that may cause an interference problem simultaneously have control information. May not be transmitted. Therefore, in such a case, for example, the base station BS1
When only the mobile station is located, the base station BS1 transmits the control information at the frequency f1, as shown in FIG.
When the mobile station is located only in the base station BS2, FIG.
As shown in (c), only the base station BS2 transmits control information at the frequency f1, so that one type of frequency f1
It is also possible to use only each of the base stations sequentially. As described above, according to the present embodiment, the frequency required for transmitting control information can be significantly reduced as compared with the conventional system.

E. Others Although the embodiments of the present invention have been described assuming a microcell type mobile communication system, the present invention is not limited to such a mobile communication system, but includes many types of base stations and mobile stations. For example, the present invention is also applicable to a cordless telephone system or the like constituted by a master unit (base station device) and a slave unit (mobile station).

[0081]

As described above, according to the present invention, the control information is not transmitted by the base station unless the mobile station is present, so that the frequency resources can be effectively used. In addition, it is possible to reduce radio wave interference to the surrounding environment and save power at the base station.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a concept of a mobile communication system according to an embodiment of the present invention.

FIG. 2 is an operation sequence diagram of the embodiment.

FIG. 3 is a flowchart showing an operation of the base station in the embodiment.

FIG. 4 is a flowchart showing an operation of the mobile station in the embodiment.

FIG. 5 is a diagram illustrating an effect of effective use of frequency obtained in the embodiment.

FIG. 6 is an operation sequence diagram showing a general communication procedure in a mobile communication system.

[Explanation of symbols]

 BS Base station PS Mobile station

Continuation of front page (72) Inventor Kiyoto Nagata 2-10-1, Toranomon, Minato-ku, Tokyo Inside NTT Mobile Communication Network Co., Ltd.

Claims (13)

[Claims] 1. A communication system comprising a base station and a mobile station communicating with another base station by communicating with the base station, wherein the mobile station transmits a transmission request signal requesting start of transmission of control information. The base station starts transmitting the control information by receiving the transmission request signal, and stops the transmission of the control information when a predetermined transmission stop condition is reached. A communication system characterized by the above-mentioned. 2. The communication system according to claim 1, wherein the control information is information used for controlling a location. 3. A transmission of control information is started by receiving a transmission request signal from a mobile station, and the transmission of the control information is stopped when a predetermined transmission stop condition is satisfied. A base station apparatus of a communication system. 4. The base station apparatus according to claim 3, wherein the transmission stop condition is satisfied when the mobile station is out of the service area, and the transmission of the control information is stopped. . 5. A mobile station comprising means for determining whether or not the mobile station can be located, wherein the transmission of the control information is not started by a transmission request signal from a mobile station other than the mobile station capable of being located. The base station apparatus of the communication system according to claim 3, wherein 6. A means for determining whether or not the mobile station can be located, and it is determined that transmission of the control information has been started by a transmission request signal from a mobile station other than the mobile station capable of being located. 4. The base station apparatus of a communication system according to claim 3, wherein the transmission of the control information is stopped when the control information is transmitted. 7. A mobile station comprising means for determining whether or not the mobile station can be located, and when there are a plurality of mobile stations that can be located,
The base station apparatus according to claim 3, wherein transmission of the control information is continued as long as at least one mobile station in the mobile station group is located. 8. A mobile communication system comprising: means for determining whether or not the mobile station has a priority; transmitting control information by receiving a transmission request signal from the mobile station having the priority; When the mobile station having the status “1” does not exist at all, the transmission stop condition is satisfied regardless of the presence / absence of the mobile station having no priority and the transmission of the control information is stopped. The base station apparatus of the communication system according to claim 3, wherein: 9. A mobile communication system comprising means for allowing a management device provided separately to determine whether or not the mobile station can be located, and depending on a transmission request signal from a mobile station other than the mobile station capable of being located. The base station apparatus for a communication system according to claim 3, wherein transmission of control information is not started. 10. A control device for separately determining whether or not the mobile station can be located by a management device, wherein the control unit is configured to perform the control by a transmission request signal from a mobile station other than the mobile station capable of being located. The transmission of the control information is stopped when it is determined that the transmission of the information has started.
A base station device of the communication system according to item 1. 11. A mobile communication system comprising means for allowing a separately provided management device to determine whether or not the mobile station can be located, and when there are a plurality of mobile stations that can be located, 4. The base station apparatus according to claim 3, wherein the control information transmission is continued as long as at least one of the mobile stations is located. 12. A control device comprising means for allowing a separately provided management device to determine whether or not the mobile station has a priority, by receiving a transmission request signal from the mobile station having the priority. When the transmission of the information is started and the mobile station having the priority does not exist at all, the transmission stop condition is satisfied regardless of the presence / absence of the mobile station having no priority. The base station apparatus of a communication system according to claim 3, wherein the transmission of the control information is stopped. 13. A communication system, comprising: transmitting a transmission request signal requesting transmission of control information; and receiving control information from said base station to execute a process for locating in said base station. Mobile station equipment.