JPH0833034A - Communication channel switching device - Google Patents

Abstract

PURPOSE:To prevent communication speed from being decelerated by effectively utilizing communication channels by switching the communication channel, of which the traffic quantity exceeds a prescribed value, assigned to a mobile station to the other communication channel in such a case. CONSTITUTION:When switching the communication channel, the traffic quantity of each communication channel is read from an information quantity measuring part 52. A decision control part 53 decides whether it is necessary to switch the communication channel or not. Namely, when the traffic quantity of the channel under using at present exceeds the prescribed value, it is decided the switching of channel is required. Then, any candidate channel is selected from a channel list and it is decided whether the interference level of that candidate channel is higher than a prescribed value or not. When the decided result is YES, a command is issued to the mobile station so that the communication channel can be switched to this candidate channel.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication channel switching device suitable for use in a packet type mobile communication system.

[0002]

2. Description of the Related Art Conventionally, various digital car telephones (cellular phones) have been put into practical use.
It was based on the DMA method. On the other hand, the adoption of the packet system in car phones is under study. As is well known, the packet system has been put to practical use in other communication fields, the data length is indefinite, it is possible to allocate multiple mobile stations to the same channel, and it is used for data services such as e-mail. Is suitable.

[0003]

However, in a mobile telephone, the number of mobile stations communicating with one base station or the traffic amount at each mobile station fluctuates greatly. Therefore, if the well-known packet method is simply applied to a mobile phone, a communication channel is randomly assigned to each mobile station, and the communication speed of a mobile station assigned to a communication channel with a large amount of traffic decreases. . On the other hand, the frequency band that can be assigned to a car phone is limited, and it is difficult to increase the number of communication channels. The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a communication channel switching device that can effectively use channels and prevent a decrease in communication speed and the like.

[0004]

In order to solve the above-mentioned problems, according to the structure of claim 1, the traffic amount measuring means for measuring the traffic amount of the communication channel assigned to the mobile station, and the measured traffic. And a switching means for switching the communication channel of the mobile station to another communication channel when the traffic volume exceeds the predetermined value. It is characterized by that.

According to the second aspect of the invention, the traffic amount measuring means for measuring the first traffic amount in the communication channel assigned to the mobile station and the second traffic amount in the other communication channel. When,
When the first traffic volume is larger than the second traffic volume by a predetermined value or more, a switching means for switching the communication channel of the mobile station to the other communication channel is provided.

Further, in the configuration according to claim 3, in the communication channel switching device according to claim 1 or 2, the determining means and the traffic amount measuring means are provided in the mobile station. I am trying.

Further, in the configuration according to claim 4, in the communication channel switching device according to any one of claims 1 to 3, the traffic amount of data transmitted from the mobile station to the base station is defined as an upstream traffic amount, and A traffic amount of data transmitted from the base station to the mobile station is a downlink traffic amount, and the switching means is a mobile station in which the uplink traffic amount is larger than the downlink traffic amount,
It is characterized in that the communication channels are switched so that the same communication channel is assigned to a mobile station whose downlink traffic amount is larger than the uplink traffic amount.

[0008]

According to the structure of the present invention, when the traffic amount measuring means measures the traffic amount of the communication channel assigned to the mobile station, it is judged whether or not the measured traffic amount exceeds a predetermined value. The means determines.
The switching unit switches the communication channel of the mobile station to another communication channel when the traffic volume exceeds a predetermined value, so that the traffic volume of the original communication channel decreases.

According to another aspect of the present invention, the traffic amount measuring means determines the first traffic amount in the communication channel assigned to the mobile station and the second traffic amount in the other communication channel. taking measurement. The switching means switches the communication channel of the mobile station to another communication channel when the first traffic volume is larger than the second traffic volume by a predetermined value or more, so that the traffic volume of the original communication channel is reduced.

Further, according to the third aspect of the invention, since the determining means and the traffic amount measuring means are provided in the mobile station, the required processing capacity in communication equipment other than the mobile station is reduced.

Further, in the structure according to the fourth aspect, the switching means is provided for the mobile station having the upstream traffic amount larger than the downlink traffic amount and the mobile station having the downlink traffic amount larger than the upstream traffic amount. Since the same communication channel is assigned, the communication channels are efficiently assigned.

[0012]

EXAMPLES A. First embodiment A-1. Configuration of Embodiments A mobile communication system according to an embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, 1 is a mobile station provided in the service area, 2 and 3 are base stations that communicate with the mobile station 1, and 5 is a control station that controls the mobile station 1 and the base stations 2 and 3. The control station 5 is connected to a network 6 including other equipment of the mobile communication system and a wired communication system. In the present embodiment, packet communication is performed between these elements. Also, here, any one of a plurality of channels is assigned to the mobile station 1 in order to communicate with the base station 2 or 3.
Also, the base stations 2 and 3 measure the interference level of each communication channel, and transmit the result to the control station 5.

Next, the detailed structure of the control station 5 is shown in FIG.
In the figure, 51 is a control device, which is the base station 2 or 3
Data received from the mobile station 1 via the network 6
While transmitting the data received from the network 6 to the mobile station 1 via the base station 2 or 3. 52 is an information amount measuring unit, which measures the information amount of each channel,
The result is output. Reference numeral 53 denotes a determination control unit, which assigns any channel to the mobile station 1 based on a control program described later, and designates switching of this channel while the mobile station 1 and the base stations 2 and 3 are communicating. I do. Further, in the determination control unit 53, each base station 2,
The interference level and the like of each communication channel transmitted from No. 3 are stored at any time.

A-2. Operation of Embodiment Next, the operation of this embodiment will be described with reference to FIG. In addition,
FIG. 4 is a flowchart of a control program stored in the determination control unit 53 to specify the communication channel of the mobile station 1 registered in the control station 5.

When the processing is started in FIG. 4, the determination control unit 53 reads out the traffic amount of each communication channel from the information amount measuring unit 52 in step SP101.
The information amount measuring unit 52 measures the traffic amount of each communication channel at any time, and the latest information is read by the determination control unit 53. Then, the determination control unit 53 creates and stores a channel list that associates the number of each channel, the amount of upstream / downstream traffic of that channel, and the interference level of that channel.

Next, when the processing advances to step SP102, the channel list is searched and the communication channel with the least traffic is selected as a candidate for the channel to be assigned to the mobile station 1 (hereinafter referred to as a candidate channel). It should be noted that, here, a channel having either the smallest amount of uplink traffic or the smallest amount of downlink traffic may be selected as a candidate channel, or a channel having a minimum sum of these may be selected as a candidate channel.

Next, when the processing advances to step SP103, it is judged whether or not the interference level of the candidate channel is a predetermined value or more. Here, if the determination is “NO”, the process proceeds to step SP104. If the interference level is less than the predetermined value, a sufficient communication quality will be ensured, so in step SP104, the candidate channel is designated as the communication channel. That is, the communication channel is notified to the mobile station 1 via the base station 2 or 3.

On the other hand, in step SP103, "YE
If it is determined to be "S", the process proceeds to step SP105. In such a case, the communication quality is not ensured even if the free capacity of the candidate channel is secured.
In step SP105, the previously selected candidate channel is deleted from the channel list, and the process returns to step SP102. Therefore, in step SP102, the channel having the second smallest traffic volume after the previously selected candidate channel is selected as a new candidate channel. Then, when a new candidate channel is selected, the process proceeds to step SP103.

Similarly, each time a new candidate channel is selected, it is determined whether or not the interference level of the candidate channel is a predetermined value or more, and the first channel determined to be "NO" here, That is, of the communication channels whose interference level is less than the above-mentioned predetermined value, the channel with the smallest traffic amount is designated as the mobile station 1.
In this embodiment, from the control station 5 to the mobile station 1,
The switching of the communication channel is instructed as appropriate. On the other hand, in the mobile station 1, synchronization is established for the newly designated communication channel, and communication is continued again.

Here, the content of the processing performed by the determination control unit 53 when the communication channel is switched will be described with reference to FIG. The program shown in FIG. 5 is automatically started every predetermined time. When the process is started in the figure, the traffic amount of each communication channel is read from the information amount measuring unit 52 in step SP201. The “communication channel” mentioned here includes both the channel currently used for communication between the mobile station 1 and the network 6 and other usable channels. Further, in step SP201, a channel list is created for the latter channel.

Next, when the processing advances to step SP202, it is judged whether or not the channel switching is necessary. That is, if the traffic volume of the currently used channel exceeds a predetermined value, it is determined that channel switching is necessary. Here, if it is determined to be "NO", the process ends immediately. That is, the channel switching is not instructed, and the communication is continued.

On the other hand, if it is determined that the channel needs to be switched, the process proceeds to step SP203. Hereinafter, the processing of steps SP203 to 206 is performed,
This is the same as the processing described in steps SP102 to 105. That is, in step SP203, a candidate channel is selected from the channel list (list of other communication channels). Then, when the process proceeds to step SP204, it is determined whether or not the interference level of the candidate channel is equal to or higher than a predetermined value. If “YES” is determined here, the process proceeds to step SP2.
In step 05, the mobile station 1 is instructed to switch to the candidate channel. On the other hand, if it is determined to be “NO” here, a new candidate channel is selected through steps SP206 and 203.

Here, in step SP205,
It is necessary to determine the mobile station to be the target of channel switching among the mobile stations belonging to the communication channel that is the processing target. In this embodiment, the mobile station with the largest traffic volume is selected as the switching target. By switching the channel of the mobile station, the traffic volume of the channel before switching can be significantly reduced.

As described above, according to this embodiment, a communication channel is assigned to the mobile station 1 according to the traffic amount of each communication channel at the start of communication, and communication is performed according to the traffic amount even during communication. Since the channel is switched, it is possible to effectively use the communication channel.

B. Second embodiment B-1. Configuration Example Next, a second embodiment of the present invention. The overall configuration of the second embodiment is similar to that of FIG. 1, but the control station 5 is not provided with the information amount measuring unit 52 and the determination control unit 53. Further, in this embodiment, the mobile station 1 is configured as shown in FIG. In the figure, 12 is a transmission / reception circuit,
The supplied RF signal is restored to a baseband signal, and the supplied baseband signal is modulated into an RF signal.
Packet communication is performed with the base stations 2 and 3. Reference numeral 11 denotes a baseband signal processing circuit, which assembles a baseband packet from the data signal supplied from the data terminal 16 and supplies the baseband packet to the transmission / reception circuit 12 as well as the baseband packet supplied from the transmission / reception circuit 12 circuit. It is decomposed, the data signal and the like are demodulated and supplied to the data terminal 16.

An information amount measuring circuit 14 measures the information amount of each communication channel received by the transmitting / receiving circuit 12. A determination control circuit 13 selects any communication channel based on a control program described later. Reference numeral 15 is a mobile station control circuit, which controls other constituent elements in the mobile station 1.

B-2. Operation of Embodiment Next, the operation of this embodiment will be described. In the present embodiment, the communication channel is selected by the mobile station 1 instead of the control station 5, and this point will be described in detail. First, the mobile station control circuit 15 instructs the transmission / reception circuit 12 to scan all channels in the same service area. As a result, the transmission / reception circuit 12 scans all communication channels and sequentially outputs the baseband signals of the downlink signals of each communication channel (the signals transmitted from the base stations 2 and 3 to each mobile station). The information amount measuring circuit 14 measures the amount of traffic in these baseband signals and records the result as a channel list.

Next, the judgment control circuit 13 searches the communication channel whose interference level is less than a predetermined value for the channel having the smallest downlink traffic amount and notifies the mobile station control circuit 15 of the channel. The search algorithm is similar to that of the first embodiment described with reference to FIG. However, in the first embodiment, the communication channel is specified on the basis of the amount of upstream and downstream traffic, whereas in the present embodiment, the communication channel is specified on the basis of only the amount of downstream traffic. When the communication channel is designated by the judgment control circuit 13, the mobile station 1
Moves to the channel. Alternatively, the mobile station 1 requests the control station 5 to allocate the channel.

Further, in this embodiment, the mobile station control circuit 15 outputs a channel scan command to the transmission / reception circuit 12 every predetermined time. As a result, the transmission / reception circuit 12 scans all communication channels and sequentially outputs the baseband signals of the downlink signals of the respective communication channels. The information amount measuring circuit 14 measures the amount of traffic in these baseband signals and records the result as a channel list.

When the channel list is created, the decision control circuit 13 searches the communication channels having the interference level less than the predetermined value for the channel having the smallest downlink traffic amount and notifies the mobile station control circuit 15 of the channel. . The search algorithm is similar to that of the first embodiment described with reference to FIG. However, for the reason described above, in this embodiment, the communication channel is selected based on only the downlink traffic amount.

When a new communication channel is selected, the mobile station 1 shifts to that channel. Alternatively, mobile station 1
Requests the control station 5 to allocate the channel. After that, synchronization is established and communication is performed with respect to the channel, and the same processing is repeated thereafter.

As described above, according to this embodiment, the communication channel is selected by the mobile station 1 according to the downlink traffic amount of each communication channel at the start of communication, and then the mobile station is selected according to the traffic amount. 1 switches the communication channel. That is, the processing related to channel switching is performed in a distributed manner in each mobile station, and it is possible to effectively use the communication channel while preventing the load on the control station 5 from significantly increasing.

C. Modifications The present invention is not limited to the above-described embodiments, and various modifications can be made as follows, for example. In the first embodiment, the base stations 2 and 3 measure the interference level of each communication channel, but the interference level may be measured by the mobile station 1 or the control station 5. Also, the first
In the embodiment, each time the base stations 2 and 3 measure the interference level of each communication channel, the result is transmitted to the control station 5, but the interference level does not necessarily have to be transmitted to the control station 5. In such a case, the control station 5 determines the communication channel based only on the traffic amount, but if the interference level of the determined communication channel exceeds a predetermined value, the base stations 2 and 3 control that effect. The control station 5 may be configured to report back to the station 5 and reselect the communication channel.

In step SP202 of the first embodiment and the corresponding processing of the second embodiment, the necessity of channel switching is determined based only on the traffic volume of the currently used channel, but it is currently used. The necessity of channel switching may be determined based on the relative relationship between the channel and other usable channels. That is,
When the traffic volume of the currently used channel is larger than the minimum traffic volume stored in the channel list by a predetermined value or more, it may be determined that “channel switching is necessary”.

The channel selection processing in step SP203 of the first embodiment is similar to that in step SP104, but different processing may be performed depending on the amount of upstream / downstream traffic. For example, when the amount of upstream traffic on the currently used channel is larger than the amount of downstream traffic, the channel with the smallest amount of upstream traffic may be selected from the other channels as the candidate channel.

On the other hand, when the amount of upstream traffic of the currently used channel is smaller than the amount of downstream traffic, the channel having the smallest amount of downstream traffic may be selected as the candidate channel from the other channels. By selecting candidate channels in this way, it is possible to combine a line with a large amount of uplink traffic and a line with a large amount of downlink traffic in the same channel, and it is possible to more effectively use the limited communication channels. Become.

More specifically, the candidate channels may be selected as follows depending on the magnitude relationship between the downlink traffic volume FW and the uplink traffic volume RV of the current channel. (i) | FW-RV | ≦ TH (where TH is a predetermined threshold)
In this case, the downlink traffic amount FW and the uplink traffic amount RV are almost equal. Therefore, the channel having the smallest sum of the amount of upstream traffic and the amount of downstream traffic is selected as the candidate channel. (ii) When FW> RV + TH In this case, the downlink traffic amount FW is sufficiently larger than the uplink traffic amount RV. Therefore, the channel with the smallest amount of upstream traffic is selected as the candidate channel. (iii) When RV> FW + TH In this case, the upstream traffic amount RV is sufficiently larger than the downstream traffic amount FW. Therefore, the channel with the smallest amount of downlink traffic is selected as the candidate channel.

In the first embodiment, step SP2
In 02, the mobile station targeted for channel switching was the mobile station with the largest traffic volume. However, switching channels for mobile stations with large traffic increases the risk of data loss. Further, it is necessary to increase the buffer capacity for holding communication data during the channel switching period, which may cause communication delay. Therefore, if there is such a risk, switching may be performed in order from the mobile station with the smallest traffic volume.

In the second embodiment, the mobile station 1 determines the candidate channel based on only the downlink traffic amount of each communication channel, but depending on the receiving capability of the mobile station 1, the uplink signal transmitted from another mobile station. May be received. In such a case, as in the first embodiment, based on the total value of the amount of upstream traffic and the amount of downstream traffic,
The channel with the smallest total value may be selected as a candidate channel. Further, depending on the magnitude relationship between the downlink traffic amount FW and the uplink traffic amount RV of the current channel, the channel with the smallest amount of uplink traffic or the channel with the smallest amount of downlink traffic is selected as a candidate channel, as in the modification described above. It goes without saying that it is okay.

In the second embodiment, the base stations 2, 3 or the control station 5 may measure the traffic amount of each upstream channel and notify the traffic amount of the upstream channel by the downlink channel. In such a case, the mobile station 1 can grasp both the amount of upstream traffic and the amount of downstream traffic, and can select a channel and determine whether or not channel switching is required by the same algorithm as in the first embodiment or the modification.

[0041]

As described above, according to the first aspect of the present invention, when the traffic volume of the communication channel assigned to the mobile station exceeds a predetermined value, this communication channel is set to another communication channel. Therefore, it is possible to reduce the traffic amount of the original communication channel.

According to the second aspect of the present invention, the first
When the traffic volume of the mobile station is larger than the second traffic volume by a predetermined value or more, the communication channel of the mobile station is switched to another communication channel, so that the traffic volume of the original communication channel can be reduced. Therefore, according to the configurations of claims 1 and 2, it is possible to reduce the traffic volume of the channel having a large traffic volume, and it is possible to prevent the communication speed from decreasing.

According to the third aspect of the invention, since the determining means and the traffic amount measuring means are provided in the mobile station, the load of the communication channel switching process can be distributed to the mobile stations. , The required processing capacity in communication equipment other than mobile stations is reduced. Further, in the configuration according to claim 4, the switching means performs the same communication with a mobile station having an upstream traffic amount larger than the downlink traffic amount and a mobile station having a downlink traffic amount larger than the upstream traffic amount. Since channels are allocated, it becomes possible to allocate communication channels more efficiently.

[Brief description of drawings]

FIG. 1 is an overall block diagram of a mobile telephone system of this embodiment.

FIG. 2 is a block diagram of a control station 5 in the first embodiment.

FIG. 3 is a block diagram of a mobile station 1 in a second embodiment.

FIG. 4 is a flowchart of a processing program of first and second embodiments.

FIG. 5 is a flowchart of a processing program of first and second embodiments.

[Explanation of symbols]

 14 information amount measuring circuit (traffic amount measuring means) 13 determination control circuit (determining means, switching means) 52 information amount measuring unit (traffic amount measuring means) 53 determination control unit (determining means, switching means)

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Ichiro Okajima 2-10-1 Toranomon, Minato-ku, Tokyo NTT Mobile Communications Network Co., Ltd. (72) Inventor Shinko Uchida 2-chome Toranomon, Minato-ku, Tokyo No. 10 No. 1 NTT Mobile Communication Network Co., Ltd.

Claims (4)

[Claims] 1. A traffic amount measuring means for measuring a traffic amount of a communication channel assigned to a mobile station, a judging means for judging whether or not the measured traffic amount exceeds a predetermined value, and the traffic amount is When the value exceeds the predetermined value,
A communication channel switching device, comprising: switching means for switching the communication channel of the mobile station to another communication channel. 2. A traffic amount measuring means for measuring a first traffic amount in a communication channel assigned to a mobile station and a second traffic amount in another communication channel, and the first traffic amount is the first traffic amount. A communication channel switching device, comprising: switching means for switching the communication channel of the mobile station to the other communication channel when the traffic amount is larger than the traffic amount of 2 by a predetermined value or more. 3. The communication channel switching device according to claim 1, wherein the determining unit and the traffic amount measuring unit are provided in the mobile station. 4. The traffic volume of data transmitted from the mobile station to the base station is an upstream traffic volume, and the traffic volume of data transmitted from the base station to the mobile station is a downstream traffic volume, and the switching means is , Switching the communication channels so that the same communication channel is assigned to a mobile station whose uplink traffic amount is greater than the downlink traffic amount and a mobile station whose downlink traffic amount is greater than the uplink traffic amount. The communication channel switching device according to any one of claims 1 to 3, characterized in that: