JP2002190830A - Communication system and its resource assignment method, and communication controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To maintain a utilization rate of resources even when many communications needing many resources exist under the condition of heterogeneous traffic. SOLUTION: A traffic amount at present is measured (step S201), and a threshold value is decided on the basis of the amount of resources on request (step S203). Then the traffic amount at present is compared with the threshold value (step S205), and when the measured traffic exceeds the threshold value, disabled reception of a resource request is discriminated and the processing is terminated. When the measured traffic amount is the threshold value or below, it is discriminated that the reception of the resource request is acceptable, reception processing is applied to the resource request and the processing is terminated (step S207).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system, a method for allocating resources therefor, and a communication control device. More specifically, the present invention secures resources for communication when a request for communication occurs, and terminates communication. A communication system in which a plurality of communication shares the same resource by releasing the resource, and the amount of required resource is different for each communication, and a resource that can increase resource sharing efficiency in the communication system Related to the assignment method.

[0002]

2. Description of the Related Art In a communication system in which a large number of users communicate with each other, a mobile communication system in which a communication circuit in an exchange, a capacity of a cable or a radio line for relay, or a user communicates with a base station while moving. In, various resources for communication such as a radio channel used for communication between a mobile station and a base station are required. For each communication system, it is required for the system design to prepare resources in an amount corresponding to the number of users.

Normally, the probability that all of a large number of users will communicate at the same time is very low and is considered to be almost negligible. Therefore, there is no need to prepare resources that allow all of a large number of users to communicate at the same time. However, if a request for communication exceeds the amount of resources prepared in advance, a so-called call loss occurs, which is not accepted by the system despite the desire to perform communication. In the system design, the amount of resources is usually determined so that the probability of occurrence of this call loss (call loss ratio) has a sufficiently small probability of about 1% to several%. Such a system design is described, for example, in the literature (L. Kleinrock, "Queuing systems Volume I:
Theory, "John Wiley & Sons, 1975), etc., and will not be described here.

[0004] In recent years, communications that used to be mainly voice have been replaced by
In addition to diversifying into various forms such as video communication and data communication, communication requirements are diversifying, and the amount of resources required for communication is not always constant, and various amounts of resources are required. It has become. However, although individual small resources are released and become free, it is difficult to secure free resources because the probability that many of them are gathered to become large free resources is small. Therefore, there is a problem in that communication requiring many resources is likely to cause a call loss.

[0005] In order to solve such a problem and make the call loss rate fair, a method of securing a certain resource in advance is often adopted. For example, Japanese Unexamined Patent Application Publication No. 11-41239 “Call admission control method for multiple traffic” does not accept a new resource request when the number of currently used resources exceeds a certain threshold. The method of making the call loss rate fair by taking the simple method described above is described in detail.

[0006] Such a system design has been carried out in a mobile communication system which is developing rapidly in recent years. In a mobile communication system, a radio channel is used for communication between a mobile station and a base station. Normally, a wireless band that can be used by a certain mobile communication system is limited, so that a stricter design is required for the amount of resources.

As a radio access method used in a mobile communication system, a frequency division multiple access (Frequency Division Multiple Access) is used.
sion Multiple Access (FDMA), Time Division Multiple Access (Time
Division Multiple Access (TDMA) and Code Division Multiple Access (CDMA). In the FDMA and TDMA systems, the current traffic can be known by counting the number of wireless channels and time slots currently in use, and the design method used in the fixed telephone network is applied as described above. can do.

On the other hand, in the CDMA system, the number of radio channels cannot be counted. However, as described in detail in International Publication No. WO98 / 30057, the interference power at the base station and the total By measuring the power, the traffic at the base station can be known, and the conventional design method and the method for multiple traffic can be applied.

As described above, conventionally, various system designs and traffic control methods in consideration of multiple traffic in various communication systems have been applied.

[0010]

However, the traffic control method conventionally employed has not been able to avoid the problem that the resource sharing efficiency is reduced under the situation of multiple traffic. In general, when compared under the condition that the call blocking rates are equal, the resource utilization rate decreases as the resources used by one communication increase. This is a phenomenon that occurs for the same reason as the so-called large grouping effect, in that the more resources that can be used as a whole, the greater the utilization rate of the entire resources, regardless of the size of resources used in one communication. .

As described above, the conventional design method for multiple traffic and the traffic control method disclosed in Japanese Patent Application Laid-Open No. 11-41239 can make the call loss rate fair, but require a lot of resources. When the number of communications has increased, there has been a problem that the resource utilization rate as a whole decreases.

[0012] The present invention has been made in view of such a problem, and an object of the present invention is to provide a communication system in which a large number of resources require a large amount of communication under multiple traffic conditions. It is an object of the present invention to provide a communication system, a resource allocation method thereof, and a communication control device capable of maintaining a resource utilization rate as a resource.

[0013]

According to the present invention, in order to achieve the above object, the invention according to claim 1 is provided by a plurality of communications in response to a request for a resource transmitted from a first node. A mobile communication system comprising a second node for allocating resources to be performed, wherein the second node measures a current traffic amount or an amount corresponding to the traffic amount, and the measuring unit First determining means for determining whether to accept the request for the resource by comparing the current traffic amount measured by the above or an amount corresponding to the traffic amount with a reference value; Receiving means for receiving the request for the resource based on the result of the determination by the determining means.

Therefore, in a communication system in which the required amount of resources differs for each communication, it is possible to allocate resources that can increase the resource sharing efficiency.

The invention described in claim 2 is the first invention.
The communication system according to claim 1, wherein the reference value is set such that the larger the amount of the resource requested from the first node, the more difficult it is to receive the request for the resource. I do.

Therefore, in a communication system in which a plurality of communications share the same resource, the current traffic or the amount corresponding thereto is measured, and based on the amount of the newly requested resource, the larger the requested resource is, A threshold for admission determination is determined based on a criterion such that the threshold is lowered, and if the measured current traffic exceeds the determined threshold, a new resource request is accepted. It can be determined that it is not possible.

The invention described in claim 3 is the first invention.
Or in the communication system according to 2, when the first determination unit determines that the request for the resource is not accepted, a plurality of communications compete to use a resource that is shared and used. It is characterized by continuing.

According to such a method, it is possible to adopt a configuration in which communication itself can be continued even when resources to be exclusively used are not allocated.

The invention described in claim 4 is the first invention.
4. In the communication system according to any one of items 3 to 3, when the current traffic amount or the amount corresponding to the traffic amount exceeds the reference value, the amount of the resource requested by the first node is determined. A second determination means for determining whether the first power supply can be reduced;
The determination means is characterized in that when it is determined by the second determination means that the resource amount can be reduced, it is determined whether to accept the resource request.

Therefore, when it is determined that the second node cannot accept the request, it is possible to reduce the required resource amount and request the resource allocation again.

The invention described in claim 5 is the same as the invention in claim 4.
In the communication system according to the item (3), when the first determination unit determines that the request for allocating the resource is accepted, a third determination is performed to determine whether there is a free resource corresponding to the requested resource. Means for determining whether or not the resource amount can be reduced when the third determining means determines that there is no free resource. .

Therefore, when it is determined that the reception is possible,
It is checked whether there are free resources for the requested resource, and if there are no free resources, it can be determined that the request cannot be accepted.

The invention described in claim 6 is the same as the invention in claim 4.
Or in the communication system according to 5, when the second determination unit determines that the resource amount cannot be reduced, a plurality of communications compete to use a commonly used resource to perform communication. It is characterized by continuing.

Therefore, when it is determined that the communication is unacceptable, the communication can be continued by competing for a plurality of communication and using a resource used in common.

The invention described in claim 7 is the first invention.
7. The communication system according to claim 1, wherein the communication system includes: a plurality of base stations; and a plurality of mobile stations communicating with the base stations via a wireless channel. Is characterized in that the current traffic volume is measured by counting a radio channel currently used in the communication system.

Therefore, it is possible to measure the current traffic even in a mobile communication system using the FDMA system or the TDMA system.

The invention described in claim 8 is the first invention.
7. The communication system according to any one of claims 1 to 6, wherein the communication system includes a plurality of base stations and a plurality of mobile stations that mutually communicate with the base stations by spreading an information data modulated signal with a spreading code. And the measuring means measures the current traffic volume by measuring interference power of a signal received at the base station.

Therefore, even in the mobile communication system based on the CDMA system, the current traffic can be measured by measuring the interference power received by the radio base station.

The invention according to claim 9 is the first invention.
7. The communication system according to any one of claims 1 to 6, wherein the communication system includes a plurality of base stations and a plurality of mobile stations that mutually communicate with the base stations by spreading an information data modulated signal with a spreading code. And a measuring unit for measuring the current traffic volume by measuring the total transmission power of the base station.

Therefore, even in a mobile communication system based on the CDMA system, the current traffic can be measured by measuring the total transmission power of the radio base station.

According to a tenth aspect of the present invention, there is provided a method for allocating resources of a communication system performed in a second node based on a request for a resource shared by a plurality of communications transmitted from the first node. And measuring a current traffic amount or an amount corresponding to the traffic amount, and comparing the current traffic amount or the amount corresponding to the traffic amount measured in the measuring step with a reference value. By doing
A first determining step of determining whether to accept the resource request; and a receiving step of receiving the resource request based on a result of the determination in the first determining step. .

The invention according to claim 11 is the resource allocation method according to claim 10, wherein the reference value is such that the larger the amount of the resource requested from the first node is, the more the resource is allocated. The request is set so as to be more difficult to accept.

According to a twelfth aspect of the present invention, in the resource allocation method according to the tenth or eleventh aspect, when it is determined in the first determining step that the request for the resource is not accepted, The communication is characterized in that the communication is continued by competing for a plurality of communication and using a resource commonly used.

According to a thirteenth aspect of the present invention, in the resource allocating method according to any one of the tenth to twelfth aspects, the current traffic amount or the amount corresponding to the traffic amount is the reference value. And a second determination step of determining whether the amount of the resource requested by the first node can be reduced, wherein the first determination step includes the second determination step. When it is determined in the step that the resource amount can be reduced, it is determined whether to accept the request for the resource.

According to a fourteenth aspect of the present invention, in the resource allocating method according to the thirteenth aspect, if the request for resource allocation is determined to be accepted in the first determination step, the request is issued. A third determining step of determining whether there is a free resource corresponding to the resource, wherein the second determining step is performed when the third determining step determines that the free resource does not exist. It is characterized in that it is determined whether or not the resource amount can be reduced.

According to a fifteenth aspect of the present invention, in the resource allocation method according to the thirteenth or fourteenth aspect, when it is determined in the second determining step that the resource amount cannot be reduced, a plurality of resources are allocated. The communication is continued by using a resource that is commonly used in competition with the communication.

According to a sixteenth aspect of the present invention, in the resource allocating method according to any one of the tenth to fifteenth aspects, the communication system is configured to communicate with a plurality of base stations via a radio channel. The mobile communication system includes a plurality of mobile stations communicating with a base station, and the measuring step measures the current traffic volume by counting a radio channel currently used in the communication system.

According to a seventeenth aspect of the present invention, in the resource allocating method according to any one of the tenth to fifteenth aspects, the communication system includes a plurality of base stations and an information data modulation signal spread. A plurality of mobile stations communicating with the base station by spreading with a code, wherein the measuring step measures the current traffic volume by measuring interference power of a signal received at the base station. It is characterized by measuring.

Further, the invention according to claim 18 is the resource allocation method according to any one of claims 10 to 15, wherein the communication system spreads the information data modulated signal with a plurality of base stations. A plurality of mobile stations that communicate with the base station by spreading with a code, wherein the measuring step measures the current traffic volume by measuring the total transmission power of the base station. It is characterized by the following.

According to a nineteenth aspect of the present invention, there is provided a communication control apparatus for allocating a resource shared by a plurality of communications in response to a request for a resource transmitted from a terminal. Measuring means for measuring the amount corresponding to the amount, and comparing the current traffic amount measured by the measuring unit or the amount corresponding to the traffic amount with a reference value to determine whether to accept the request for the resource. A first determining unit that determines whether the resource is received, and a receiving unit that receives the request for the resource based on a result of the determination by the first determining unit.

According to a twentieth aspect of the present invention, in the communication control device according to the nineteenth aspect, the reference value is set such that the larger the amount of the resource requested by the terminal is,
The resource request is set so as to be more difficult to accept.

According to a twenty-first aspect of the present invention, in the communication control apparatus according to the nineteenth or twentieth aspect, when the first determining means determines that the request for the resource is not accepted, a plurality of the control methods may be performed. The communication between the terminals is continued by using a resource that is commonly used in competition with the communication.

According to a twenty-second aspect of the present invention, in the communication control apparatus according to any one of the nineteenth to twenty-first aspects, the current traffic amount or the amount corresponding to the traffic amount is equal to the reference value. In the case of exceeding, the second determining means for determining whether the amount of the resource requested from the terminal can be reduced is provided, and the first determining means is provided by the second determining means by the second determining means. When it is determined that the amount can be reduced, it is determined whether to accept the request for the resource.

According to a twenty-third aspect of the present invention, in the communication control device according to the twenty-second aspect, when the first determination unit determines that the request for allocating the resource is accepted, the request is issued. A third determining unit that determines whether there is a free resource corresponding to the resource, wherein the second determining unit determines that there is no free resource by the third determining unit.
It is characterized in that it is determined whether or not the resource amount can be reduced.

According to a twenty-fourth aspect of the present invention, in the communication control device according to the twenty-second or twenty-third aspect, when the second determination means determines that the resource amount cannot be reduced, a plurality of resources are determined. The communication between the terminals is continued by using a resource that is commonly used in competition with the communication.

According to a twenty-fifth aspect of the present invention, in the communication control device according to any one of the nineteenth to twenty-fourth aspects, the communication control device communicates with a plurality of base stations via a radio channel. Applied to a communication system constituted by a base station and a mobile station communicating with the base station, wherein the measuring means is:
The current traffic volume is measured by counting a radio channel currently used in the base station.

According to a twenty-sixth aspect of the present invention, in the communication control device according to any one of the nineteenth to twenty-fourth aspects, the communication control device spreads an information data modulation signal with a plurality of base stations. The present invention is applied to a communication system constituted by a mobile station that communicates with the base station by spreading with a code, and the measuring unit measures the interference power of a signal received at the base station, thereby measuring the current It is characterized by measuring the traffic volume.

According to a twenty-seventh aspect of the present invention, in the communication control device according to any one of the nineteenth to twenty-fourth aspects, the communication control device spreads an information data modulated signal with a plurality of base stations. The present invention is applied to a communication system including a mobile station that communicates with the base station by spreading with a code, and the measuring unit measures the total amount of transmission power of the base station to determine the current traffic volume. Is measured.

According to a twenty-eighth aspect of the present invention, there is provided a method for allocating resources of a communication control device based on a request for resources shared by a plurality of communications transmitted from a terminal. Measuring the amount corresponding to the amount, and comparing the current traffic amount measured in the measuring step or the amount corresponding to the traffic amount with a reference value to determine whether to accept the resource request. A first determining step of determining whether the resource request has been received, and a receiving step of receiving the resource request based on a result of the determination in the first determining step.

According to a twenty-ninth aspect of the present invention, in the resource allocation method of the communication control device according to the twenty-eighth aspect, the reference value is set such that the larger the amount of the resource requested by the terminal is, It is characterized in that it is set so that the reception of a resource request is more difficult to be performed.

According to a thirtieth aspect of the present invention, in the resource allocation method for a communication control device according to the twenty-eighth or twenty-ninth aspect, the first determining step includes
When it is determined that the resource request is not accepted, the communication between the terminals is continued by competing for a plurality of communications and using a resource that is commonly used.

According to a thirty-first aspect of the present invention, in the method for allocating resources of the communication control apparatus according to any one of the twenty-eighth to thirty-fifth aspects, the present traffic amount or an amount corresponding to the traffic amount is provided. Comprises a second determination step of determining whether the amount of the resource requested by the terminal can be reduced when the reference value exceeds the reference value, and wherein the first determination step includes:
When it is determined in the determining step that the resource amount can be reduced, it is determined whether to accept the request for the resource.

According to a thirty-second aspect of the present invention, in the resource allocation method of the communication control device according to the thirty-first aspect, it is determined in the first determination step that the request for resource allocation is accepted. A third determining step of determining whether there is a free resource corresponding to the requested resource,
The determining step is characterized in that when it is determined in the third determining step that there is no free resource, it is determined whether or not the resource amount can be reduced.

According to a thirty-third aspect of the present invention, in the resource allocation method of the communication control device according to the thirty-first or thirty-second aspect, it is determined in the second determining step that the resource amount cannot be reduced. In this case, the communication between the terminals is continued by using a resource commonly used in competition with a plurality of communications.

According to a thirty-fourth aspect of the present invention, in the method for allocating resources of the communication control device according to any one of the twenty-eighth to thirty-fourth aspects, the communication control device comprises: Applied to a communication system constituted by a mobile station communicating with the base station via a channel, wherein the measuring step calculates the current traffic amount by counting a radio channel currently used in the base station. It is characterized by measuring.

According to a thirty-fifth aspect of the present invention, in the resource allocation method for a communication control device according to any one of the twenty-eighth to thirty-fourth aspects, the communication control device includes a plurality of base stations, The present invention is applied to a communication system constituted by a mobile station communicating with the base station by spreading a data modulation signal with a spreading code, and the measuring step measures interference power of a signal received at the base station. Measuring the current traffic volume.

According to a thirty-sixth aspect of the present invention, in the resource allocation method of the communication control device according to any one of the twenty-eighth to thirty-fourth aspects, the communication control device includes a plurality of base stations, Applied to a communication system configured by a mobile station that communicates with the base station by spreading a data modulation signal with a spreading code, wherein the measuring step is performed by measuring the total transmission power of the base station. The present invention is characterized in that the current traffic volume is measured.

By adopting such a configuration, when the traffic is a certain amount or more, for a communication requiring a large amount of resources, communication is started after reducing resources used. As a result, there is no reduction in overall resource utilization due to the presence of communication using a large amount of resources.

[0059]

Embodiments of the present invention will be described below in detail with reference to the drawings.

(First Embodiment) FIG. 1 is a diagram showing a communication system to which a resource allocation method according to the present invention is applied. FIG. 1 shows, as an example, a fixed telephone network such as a general home and a mobile communication system. For example, a case where a call is made from a mobile station 102 belonging to a mobile communication system to a telephone 104 of a general home belonging to a fixed telephone network will be described. The mobile station 102 requests the base station 101-b to allocate resources necessary for communication.

In the mobile communication system, the control station 107 for controlling the operation of a plurality of radio base stations is connected to the base station 101.
From (101-a, 101-b, 101-c), a route necessary for connection to a fixed telephone is determined, and line assignment in each route is controlled. Control station 107
Control from the base station 101-b to the gateway exchange 105
A, 105-b, a connection to the fixed telephone network is made, and a route in the fixed telephone network is determined, and the target telephone 10 is switched through a plurality of exchanges 103-b, 103-d.
Reach 4 On the above-mentioned route from the mobile station 102 to the fixed telephone 104, various resources are required. For example, the radio channel between the mobile station 102 and the radio base station 101, the resources on the transmission path from the base station 101 to the exchange 103-a, the transmission path resources between the exchanges 103, and the above-mentioned nodes (This is a connection point that can access the network.
Hardware resources on the gateway exchange 105 and the control station 107).

The resource allocation according to the present embodiment can be applied to each node by configuring to measure traffic on each node shown in FIG.
At this time, the resource allocation request issued from the user terminal may be used as it is, or each node may calculate the required resources independently and issue a resource allocation request to the connected node. .

FIG. 2 is a flowchart for explaining a resource allocation method of the communication system according to the present embodiment. First, the current traffic volume is measured (step S201), and then a threshold (reference value) is determined based on the requested resource volume (step S203). It then compares the current traffic volume with the threshold,
It is determined whether to accept the resource request (step S
205). That is, if the measured traffic exceeds the threshold, it is determined that the traffic cannot be accepted, and the process is terminated. On the other hand, if the measured traffic is below the threshold, it is determined that the traffic can be accepted, and the resource request is accepted. After performing the processing, the processing ends (step S207).

FIGS. 3A and 3B are diagrams for explaining in detail an example of the operation of the part for determining the threshold value in FIG. 1. FIG. 3A shows the operation flow, and FIG. 3B shows the data used in the process. FIG. 7 is a diagram illustrating a state stored in a memory.

First, the requested resource amount N is obtained based on the information sent from the user or the like (step S30).
1). Next, the variable i is initialized to 1 (step S30).
3) Acquire _Ni from the memory. Then, by comparing the requested resource N and N _i (step S305), the threshold THR _i obtained from the memory corresponding to it is smaller the N N _i, the process ends (step S307). On the other hand, if N is N _i or more, increase i by 1 (step S309), i
Is compared with the maximum value M (step S31).
1).

As a result of the comparison, if i has not reached the maximum value M, the next processing is continued. If the maximum value M has been reached, the threshold value THR _{M + 1} is obtained from the memory, and the process ends (step S313).

Although an example of the operation for determining the threshold value has been described above, the present invention is not limited to this embodiment. For example, in addition to the method described with reference to FIG. 3, a configuration may be used in which the threshold value THR is calculated by a formula such as THR = C1 N × C2 using the required traffic amount N and the constants C1 and C2. Good. Regardless of which method is adopted, the same effect can be obtained as long as the threshold value THR is set to be smaller as the requested traffic amount N is larger and the resource request is less likely to be accepted. .

(Second Embodiment) In the above-described embodiment, the resource allocation processing is terminated when the current traffic volume exceeds the threshold value. However, when the requested resource volume can be reduced, The allocation process may be repeated.

FIG. 4 is a flowchart for explaining the operation in another embodiment of the present invention. First, the current traffic volume is measured, and then the threshold is determined (steps S401 and S403). The threshold value can be determined, for example, as shown in FIG.

Next, the determined threshold value is compared with the measured traffic amount (step S405). If the measured traffic volume is equal to or less than the threshold, it is determined that the traffic can be accepted, the resource request acceptance process is executed, and the process ends (step S407). On the other hand, if the measured traffic exceeds the threshold, it is determined whether the required resource amount can be reduced (step S409). Here, when the requested resource amount cannot be reduced, for example, when the user has specified a unique transmission rate and does not want to perform communication at any other rate, the lowest transmission rate already provided in the system. There may be situations where the speed has reached and it is not possible to further reduce resources.

If it is determined in step S409 that the required resource amount cannot be reduced, the process ends. On the other hand, if it is determined that the required resource amount can be reduced, step S4
03, the threshold is set again, and step S405 is performed.
Then, the process of determining whether to accept the resource request is continued.

(Third Embodiment) In the above-described embodiment, a case has been described where it is determined whether or not the required resource amount can be reduced only when the current traffic amount exceeds the threshold value. This determination processing is not limited to the above case, and can be performed even when there is no free resource for the requested resource.

FIG. 5 is a flowchart for explaining the operation in another embodiment of the present invention. First, the current traffic volume is measured, and then the threshold is determined (steps S501 and S503). The threshold value can be determined, for example, as shown in FIG. Next, a comparison process is performed between the determined threshold value and the measured traffic amount (step S505). If the measured traffic amount is less than the threshold value, it is determined that reception is possible, and then a free resource is determined. Move to check. That is, it is checked whether there is a free resource corresponding to the currently requested resource (step S50).
7).

As a result of the check in step S507, if there is a vacancy, the resource request is accepted and the process is terminated (step S509). On the other hand, if there is no vacancy, it is determined that the request cannot be accepted, and the process proceeds to check whether the requested resource amount can be reduced (step S511). If the measured traffic exceeds the threshold, it is determined whether the required resource amount can be reduced (step S511). Here, in the case where the required resource amount cannot be reduced, for example, when the user has specified a unique transmission rate and does not want to perform communication at any other rate, the lowest transmission rate already provided in the system. There may be situations where the speed has been reached and it is not possible to further reduce resources.

In this determination processing, when it is determined that the required resource amount cannot be reduced, the processing is terminated as it is, and when it is determined that the required resource amount can be reduced, the processing returns to the setting of the threshold value again and the processing is performed. continue.

By performing the above processing, for example, the types of transmission speed provided by the system are changed to transmission speed 1, transmission speed 2, transmission speed 3 (transmission speed 1).
> Transmission speed 2> transmission speed 3)
An operation as shown in the example of FIG. 6 can be realized. If the total traffic amount has not reached a certain amount, first, an assignment at the transmission rate 1 is attempted (steps S601 and S603). Here, if the assignment is not possible, the transmission speed is lowered and the assignment at the transmission speed 2 is attempted. Further, if the total traffic volume is low to some extent, an attempt is made to allocate at the transmission rate 2 (steps S607 and S609). If the assignment is not possible, the transmission speed is further reduced and the assignment at the transmission speed 3 is attempted (steps S613 and S615). Eventually, if all assignments cannot be made, a call is lost.

In the description of the operation with reference to FIG. 2 and FIGS. 4 to 6, it has been described that the process is terminated when it is determined that the resource request cannot be accepted. It does not mean that you will not be able to. Many communication systems provide a form of communication in which one user occupies a certain resource, while, on the other hand, does not occupy the resource,
In many cases, a communication mode in which a plurality of users perform communication by competing and using resources commonly used is provided.

In such resource sharing, for example, as seen in a random access such as the ALOHA method or a local area network (LAN),
In many cases, a method of freely transmitting data unless a carrier of another user is detected is adopted. For a technique where multiple users compete and share resources,
For example, in the literature (L. Kleinrock, "Queuing Systems Vol.
ume II: Computer Applications, "John Wiley & Sons,
1976), and the description is omitted here. By such a method, even when a resource to be occupied is not allocated, the communication itself can be continued by using a resource used in common by multiple communications competing. It can be.

As a method of measuring the current traffic in the description of the operation with reference to FIG. 2 and FIGS. 4 to 6, various methods can be applied to this method. As already explained, in a fixed communication network in which exchanges are connected to each other by wires or optical fibers, the number of lines used by each exchange can be measured, or the number of lines used by transmission lines (conductors or optical fibers) can be measured. The current traffic can be measured by a method such as measuring the number of lines or measuring the amount of information being transmitted.

In a mobile communication system based on the FDMA system or the TDMA system in which a plurality of base stations and a mobile station communicate with each other via a wireless channel, the number of wireless channels used by each wireless base station is limited. , Or the number of in-use wireless slots, the current traffic can be measured.

Further, in the mobile communication system of the CDMA system in which a plurality of base stations and a plurality of mobile stations communicate with each other by spreading the information data modulated signal with a spreading code having a higher rate, The current traffic can be measured by measuring the interference power of the signal received by the base station at the base station or measuring the total transmission power of the signal transmitted by the base station.

The present invention can be applied to any measurement method as long as it measures a value indicating the state of the load on the system at the time of measurement.
The same effect as the present invention can be obtained. As for the traffic measurement value, the measurement value may be used as it is,
It is also possible to process the measured value or use an amount corresponding to the current traffic, such as an average value calculated based on the measured value.

For example, an ordinary communication system often employs a method of counting the number of lines in use every few seconds and averaging the series of measurement values obtained over several minutes. As described above, a value averaged over a longer time, such as several minutes or tens of minutes, may be used.

As an operation similar to averaging, a filter that removes short-term fluctuation components or a filter that extracts long-term fluctuations by removing long-term fluctuation components is used. The result may be used. Alternatively, a median of a plurality of measured values obtained within a certain period may be used, or a statistical value located in a predetermined order when arranged in descending order may be used.

[0085]

As described in detail above, according to the present invention, in a communication system in which resources are shared by a plurality of users, even in a situation of so-called multiple traffic in which the required resource amount differs for each communication. It is possible to provide a resource allocation method that does not cause a reduction in the resource utilization rate of the entire system.

[Brief description of the drawings]

FIG. 1 is a diagram showing a communication system to which a resource allocation method of the present invention is applied.

FIG. 2 is a flowchart illustrating an operation according to an embodiment of the present invention.

3A and 3B are diagrams for explaining in detail an example of an operation of a part for determining a threshold in FIG. 1, wherein FIG. 3A shows an operation flow, and FIG. It is a figure which each shows a mode that it is stored.

FIG. 4 is a flowchart illustrating an operation according to an embodiment of the present invention.

FIG. 5 is a flowchart illustrating an operation according to an embodiment of the present invention.

FIG. 6 is a flowchart illustrating an operation according to an embodiment of the present invention.

[Explanation of symbols]

101-a, 101-b, 101-c Radio base station 102 Radio mobile station 103-a, 103-b, 103-c, 103-d, 1
03-e exchange 104 telephone set 105-a, 105-b gateway exchange 107 control station

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Takaaki Sato, Inventor NTT Docomo, 2-1-1-1, Nagatacho, Chiyoda-ku, Tokyo (72) Inventor Takehiro Nakamura 2-chome, Nagatacho, Chiyoda-ku, Tokyo No. 11 F-term in NTT DoCoMo, Inc. (reference) EE16 EE66 HH22 LL11

Claims (36)

[Claims] 1. A mobile communication system comprising a second node for allocating a resource shared by a plurality of communications in response to a request for a resource transmitted from a first node, wherein the second node is Measuring means for measuring the current traffic amount or the amount corresponding to the traffic amount; and comparing the current traffic amount or the amount corresponding to the traffic amount measured by the measuring unit with a reference value, A first determining unit that determines whether to accept the resource request; and a receiving unit that receives the resource request based on a result of the determination by the first determining unit. Communications system. 2. The method according to claim 1, wherein the reference value is set such that the larger the amount of the resource requested from the first node is, the more difficult it is to receive the request for the resource. Item 2. The communication system according to Item 1. 3. When the first determining unit determines that the request for the resource is not accepted, the communication is continued by using a resource that is commonly used in competition with a plurality of communications. The communication system according to claim 1 or 2, wherein: 4. When the current traffic amount or the amount corresponding to the traffic amount exceeds the reference value, it is determined whether or not the amount of the resource requested by the first node can be reduced. A second determining unit that determines whether the resource request can be accepted when the second determining unit determines that the resource amount can be reduced. The communication system according to claim 1, wherein: 5. When the first determination unit determines that the request for allocating the resource is accepted,
A third determining unit for determining whether there is a free resource corresponding to the requested resource, wherein the second determining unit determines that there is no free resource by the third determining unit The communication system according to claim 4, wherein it is determined whether the resource amount can be reduced. 6. When the second determination unit determines that the resource amount cannot be reduced, it is determined that the communication is continued by competing for a plurality of communications and using a shared resource. The communication system according to claim 4 or 5, wherein 7. The communication system, comprising: a plurality of base stations;
A plurality of mobile stations that communicate with the base station via a wireless channel, wherein the measuring unit measures the current traffic amount by counting a wireless channel currently used in the communication system. The communication system according to any one of claims 1 to 6, wherein: 8. The communication system, comprising: a plurality of base stations;
A plurality of mobile stations that communicate with the base station by spreading the information data modulated signal with a spreading code,
The communication system according to claim 1, wherein the measurement unit measures the current traffic volume by measuring interference power of a signal received by the base station. 9. The communication system, comprising: a plurality of base stations;
A plurality of mobile stations that communicate with the base station by spreading the information data modulated signal with a spreading code,
The communication system according to claim 1, wherein the measuring unit measures the current traffic amount by measuring a total transmission power of the base station. 10. A method according to claim 2, wherein said second node transmits a request for a resource shared by a plurality of communications transmitted from said first node.
A method of allocating resources of a communication system performed in a node, wherein: a measuring step of measuring a current traffic amount or an amount corresponding to the traffic amount; and the current traffic amount or the traffic measured in the measuring step. A first determination step of determining whether to accept the request for the resource by comparing an amount corresponding to the amount with a reference value, based on a result of the determination in the first determination step,
And a receiving step of receiving the request for the resource. 11. The reference value is set such that the larger the amount of the resource requested from the first node is, the more difficult it is to receive the request for the resource. Item 11. The resource allocation method according to Item 10. 12. When it is determined in the first determining step that the request for the resource is not accepted,
The resource allocation method according to claim 10, wherein the communication is continued by using a resource commonly used by a plurality of communications in competition. 13. When the current traffic amount or the amount corresponding to the traffic amount exceeds the reference value,
A second determining step of determining whether or not the amount of the resource requested by the first node can be reduced, wherein the first determining step includes determining the resource amount in the second determining step. 13. The resource allocation method according to claim 10, wherein when it is determined that the number of resources can be reduced, it is determined whether to accept the resource request. 14. When the first determination step determines that the request for allocating the resource is to be accepted, a third determination step of determining whether there is a free resource corresponding to the requested resource is performed. Prepared,
14. The method according to claim 13, wherein the second determining step determines whether the resource amount can be reduced when it is determined in the third determining step that there is no available resource. The resource allocation method described. 15. When it is determined in the second determination step that the resource amount cannot be reduced,
The method of allocating resources according to claim 13, wherein the communication is continued by using a resource commonly used by a plurality of communications in competition. 16. The communication system includes a plurality of base stations and a plurality of mobile stations communicating with the base stations via a wireless channel, wherein the measuring step is currently performed in the communication system. The resource allocation method according to any one of claims 10 to 15, wherein the current traffic volume is measured by counting the number of wireless channels. 17. The communication system includes: a plurality of base stations; and a plurality of mobile stations communicating with the base stations by spreading an information data modulation signal with a spreading code. The resource allocation method according to any one of claims 10 to 15, wherein the current traffic volume is measured by measuring interference power of a signal received by the base station. 18. The communication system includes: a plurality of base stations; and a plurality of mobile stations communicating with the base stations by spreading an information data modulation signal with a spreading code. The resource allocation method according to any one of claims 10 to 15, wherein the current traffic volume is measured by measuring a total transmission power of the base station. 19. A communication control device for allocating a resource shared by a plurality of communications in response to a request for a resource transmitted from a terminal, wherein the communication control device measures a current traffic amount or an amount corresponding to the traffic amount. Means for comparing the current traffic amount measured by the measuring means or an amount corresponding to the traffic amount with a reference value to determine whether to accept the resource request. And a receiving means for receiving the resource request based on a result of the determination by the first determining means. 20. The method according to claim 19, wherein the reference value is set such that the larger the amount of the resource requested by the terminal, the more difficult it is to receive the request for the resource. The communication control device according to any one of the preceding claims. 21. When the first determination unit determines that the request for the resource is not accepted, the communication between the terminals is performed by competing for a plurality of communications and using a resource that is commonly used. 21. The communication control device according to claim 19, wherein: 22. When the current traffic amount or the amount corresponding to the traffic amount exceeds the reference value,
A second determining unit that determines whether the amount of the resource requested by the terminal can be reduced; and wherein the first determining unit reduces the resource amount by the second determining unit. The communication control device according to any one of claims 19 to 21, wherein when it is determined that the request can be made, it is determined whether to accept the request for the resource. 23. When the first determining unit determines that the request for allocating the resource is accepted, the third determining unit determines whether there is an available resource corresponding to the requested resource. The apparatus according to claim 1, wherein the second determination unit determines whether the resource amount can be reduced when the third determination unit determines that the free resource does not exist. 23. The communication control device according to 22. 24. When the second determination means determines that the resource amount cannot be reduced, the communication between the terminals is performed by competing for a plurality of communications and using a resource that is commonly used. The communication control device according to claim 22, wherein the communication control device is continued. 25. The communication control apparatus is applied to a communication system including a plurality of base stations and a mobile station that communicates with the base station via a wireless channel, and the measuring unit includes the base station. The communication control device according to any one of claims 19 to 24, wherein the current traffic amount is measured by counting the number of wireless channels currently in use. 26. The communication control apparatus is applied to a communication system including a plurality of base stations and a mobile station that communicates with the base station by spreading an information data modulated signal with a spreading code, 25. The communication control device according to claim 19, wherein the measuring unit measures the current traffic volume by measuring interference power of a signal received by the base station. 27. The communication control apparatus is applied to a communication system including a plurality of base stations and a mobile station that communicates with the base station by spreading an information data modulated signal with a spreading code, 25. The communication control device according to claim 19, wherein the measuring unit measures the current traffic volume by measuring a total transmission power of the base station. 28. A method for allocating resources of a communication control device based on a request for resources shared by a plurality of communications transmitted from a terminal, the method comprising measuring a current traffic amount or an amount corresponding to the traffic amount. And a first determination step of determining whether to accept the resource request by comparing the current traffic amount measured in the measurement step or the amount corresponding to the traffic amount with a reference value. Based on the result of the determination in the first determination step,
And a receiving step of receiving the request for the resource. 29. The method according to claim 28, wherein the reference value is set such that the larger the amount of the resource requested by the terminal, the more difficult it is to receive the request for the resource. 2. A method for allocating resources of the communication control device according to claim 1. 30. When it is determined in the first determination step that the request for the resource is not accepted,
30. The resource allocation method of the communication control device according to claim 28, wherein the communication between the terminals is continued by using a resource that is commonly used in competition with a plurality of communications. 31. When the current traffic amount or the amount corresponding to the traffic amount exceeds the reference value,
A second determination step of determining whether the amount of the resource requested by the terminal can be reduced,
29. The method according to claim 28, wherein the first determining step determines whether to accept the request for the resource when it is determined in the second determining step that the resource amount can be reduced. Any one of 30
13. The method for allocating resources of the communication control device according to any one of the above items. 32. When it is determined in the first determination step that the request for allocating the resource is accepted, a third determination step of determining whether there is an available resource corresponding to the requested resource is performed. Prepared,
32. The method according to claim 31, wherein the second determining step determines whether or not the resource amount can be reduced when it is determined in the third determining step that there is no free resource. 2. A method for allocating resources of the communication control device according to claim 1. 33. When it is determined in the second determination step that the resource amount cannot be reduced,
33. The method according to claim 31 or 32, wherein the communication between the terminals is continued by using a resource that is commonly used in competition between a plurality of communications. 34. The communication control apparatus is applied to a communication system including a plurality of base stations and a mobile station communicating with the base station via a wireless channel, and the measuring step includes: The method according to any one of claims 28 to 33, wherein the current traffic volume is measured by counting a radio channel currently used in the communication control device. 35. The communication control apparatus is applied to a communication system including a plurality of base stations and a mobile station that communicates with the base station by spreading an information data modulated signal with a spreading code, 34. The communication control device according to claim 28, wherein the measuring step measures the current traffic volume by measuring interference power of a signal received at the base station. How resources are allocated. 36. The communication control apparatus is applied to a communication system including a plurality of base stations and a mobile station that communicates with the base station by spreading an information data modulated signal with a spreading code, 29. The method according to claim 28, wherein the measuring step measures the current traffic volume by measuring a total transmission power of the base station.
34. The method for allocating resources of a communication control device according to any one of items 33 to 33.