JP2007097045A - Radio terminal and radio traffic control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve a flexible radio traffic control by controlling traffic flowing into a radio zone, at a radio terminal, in an independent distributed manner. <P>SOLUTION: A radio terminal 1 comprises a variation coefficient calculation section 13 for calculating a variation coefficient representing characteristics in throughput variation of the present radio terminal 1, a throughput regulation value setting section 14 for setting a throughput regulation value so that the variation coefficient matches a target variation coefficient, and a throughput control section 15 for controlling throughput of a radio zone within the range of that throughput regulation value. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a wireless terminal and a wireless traffic control method.

2. Description of the Related Art Conventionally, a technique for guaranteeing service quality according to an application by using bandwidth allocation or priority control mainly for a wired network is known (for example, see Non-Patent Documents 1 and 2).
RFC2212, “Specification of guaranteed quality of service, Sep-97. RFC 2475, “An Architecture for Differentiated Services”, Dec-98.

However, the conventional technology described above is a technology designed mainly for wired networks, and does not consider technical matters specific to wireless networks. As a specific example, an IP packet network will be described. In a wired network, network layer protocol processing such as IP (Internet Protocol) is often performed for each relay node. It is possible to identify and identify an application by a higher transmission control protocol (TCP) / UDP (User Datagram Protocol) port number, thereby realizing quality control for each user and each application. However, in a wireless network, hierarchical mobility management must be performed between layers, and correspondence between IP packets and wireless packets is not one-to-one. It is difficult for a node (base station or the like) that performs resource allocation to perform flexible quality control according to information of an upper layer such as IP.
Further, in the technology described in Non-Patent Document 2, the quality of service required by a user or an application is made to correspond to a relatively small number of finite classes, and packet quality control is performed according to the class on the network side. Due to the limited number of classes, creating a definition of a class requires careful and time-consuming work, and does not always meet the diverse demands of users.
Further, in a mobile communication system, resources in a radio section are the scarce, and it is important how to satisfy the requirements of users and applications using limited radio resources.

  The present invention has been made in view of such circumstances, and an object of the present invention is to realize flexible wireless traffic control by controlling the amount of traffic flowing into a wireless section in a wireless terminal in an autonomous and distributed manner. An object of the present invention is to provide a wireless terminal and a wireless traffic control method.

  In order to solve the above-described problem, a wireless terminal according to the present invention includes a variation coefficient calculation unit that calculates a variation coefficient representing characteristics of variation in throughput of the own wireless terminal, and the variation coefficient matches the target variation coefficient. And a throughput regulation value setting means for setting a throughput regulation value, and a throughput control means for controlling the throughput of the radio section within the range of the throughput regulation value.

  The wireless terminal according to the present invention, based on the throughput of the own wireless terminal in a non-suppression period other than the suppression period of throughput, and the time ratio of the suppression period and the non-suppression period, so as to satisfy the target throughput ratio, A throughput regulation value setting unit that sets a throughput regulation value to be applied to a suppression period, and a throughput control unit that controls a throughput of a radio section within the range of the throughput regulation value in the suppression period. .

  The radio terminal according to the present invention is characterized in that the radio terminal enables a radio traffic control function including the above means when non-priority traffic occurs.

  A radio traffic control method according to the present invention is a radio traffic control method in a radio terminal, a process of calculating a coefficient of variation representing characteristics of fluctuations in throughput of the radio terminal, and the coefficient of variation matches a target coefficient of variation. As described above, the method includes a step of setting a throughput regulation value and a step of controlling the throughput of the radio section within the range of the throughput regulation value.

  A radio traffic control method according to the present invention is a radio traffic control method in a radio terminal, wherein the throughput of the radio terminal in a non-suppression period other than the suppression period of throughput, and the time ratio between the suppression period and the non-suppression period, A process of setting a throughput regulation value to be applied to the suppression period so as to satisfy a target throughput ratio, and a process of controlling a throughput of a radio section within the range of the throughput regulation value in the suppression period. It is characterized by including.

  In the radio traffic control method according to the present invention, the radio terminal enables a radio traffic control function including the above processes when non-priority traffic occurs.

  ADVANTAGE OF THE INVENTION According to this invention, in the radio | wireless terminal, the traffic amount which flows in into a radio area can be controlled autonomously and distributedly. Thereby, flexible wireless traffic control can be realized.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a mobile communication system according to an embodiment of the present invention. In FIG. 1, a wireless terminal 1 establishes a wireless link 3 in a wireless section with a base station 2 and transmits / receives data. In the mobile communication system shown in FIG. 1, a wireless terminal 1 that generates traffic to be prioritized and a wireless terminal 1 that generates non-priority traffic that does not have priority are mixed, and each wireless terminal 1 communicates in a wireless section. Share bandwidth (throughput).

  In the present embodiment, in such a wireless environment, in order to realize quality control in accordance with the priority of traffic, the throughput is suppressed in an autonomous and distributed manner on the wireless terminal 1 that generates non-priority traffic. For this purpose, the wireless terminal 1 includes means for obtaining a maximum value of throughput allowed for non-priority traffic (throughput regulation value).

  Hereinafter, the wireless terminal and the wireless traffic control method according to the present embodiment will be described in detail with examples.

  A first embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block configuration diagram of a wireless traffic control function according to the wireless terminal 1 of the first embodiment of the present invention. The operation of the wireless traffic control function is controlled in the wireless terminal 1 so as to be effective when non-priority traffic is generated.

First, the variation coefficient and the target variation coefficient according to the first embodiment will be described.
With regard to one wireless terminal 1, the throughput that can be used without any suppression always varies depending on factors such as fading of the wireless channel and contention of the throughput with other wireless terminals 1. A numerical value representing the variation characteristic of the throughput is referred to as a variation coefficient. As the variation coefficient, for example, a value obtained by statistically processing the throughput can be used. As a specific example, a value obtained by dividing the standard deviation of the throughput by the average value of the throughput can be used as the variation coefficient.

  When the throughput is not suppressed, the value of the variation coefficient related to the wireless terminal 1 is expressed as a specific value (system-specific variation coefficient) that depends on the characteristics of the wireless system. On the other hand, when the throughput is suppressed, if the suppressed throughput is sufficiently lower than the originally available throughput, the variation coefficient becomes smaller than the system-specific variation coefficient because it is less susceptible to the above-described variation factors. In the first embodiment, the throughput is suppressed by setting the value of the coefficient of variation smaller than the system-specific coefficient of variation as the target coefficient of variation based on the knowledge about the coefficient of variation.

In FIG. 2, the wireless terminal 1 includes a target variation coefficient storage unit 11, a throughput measurement unit 12, a throughput variation coefficient calculation unit 13, a throughput regulation value setting unit 14, and a throughput control unit 15.
The target variation coefficient storage unit 11 stores a target variation coefficient in advance. The throughput measuring unit 12 measures the throughput based on the throughput control value. The variation coefficient calculator 13 calculates a variation coefficient from the measured throughput measurement value. The coefficient of variation is calculated every fixed period.

  The throughput regulation value setting unit 14 compares the calculated variation coefficient with the target variation coefficient stored in the target variation coefficient storage unit 11, and sets the throughput restriction value according to the comparison result. An initial value is set in advance as the throughput regulation value. The setting method of the throughput regulation value will be specifically described. When the variation coefficient is smaller than the target variation coefficient, the throughput regulation value is increased because the throughput is excessively suppressed. On the other hand, when the variation coefficient is larger than the target variation coefficient, the throughput regulation value is decreased because the suppression of the throughput is insufficient.

  The throughput control unit 15 controls the throughput of the own wireless terminal 1 within a range not exceeding the throughput regulation value set by the throughput regulation value setting unit 14. The throughput control value as the control result is output from the throughput control unit 15.

  According to the first embodiment described above, the throughput of the wireless terminal 1 that generates non-priority traffic is controlled so as to be always lower by a fixed rate than the throughput of other wireless terminals 1 that generate priority traffic. Can do. Thereby, the amount of traffic flowing into the radio section is appropriately controlled according to the priority of traffic.

  A second embodiment of the present invention will be described with reference to FIG. FIG. 3 is a block configuration diagram of a radio traffic control function according to the radio terminal 1 of the second embodiment of the present invention. The operation of the wireless traffic control function is controlled in the wireless terminal 1 so as to be effective when non-priority traffic is generated.

  In FIG. 3, the wireless terminal 1 includes a target throughput ratio storage unit 21, a suppression period generation unit 22, a throughput measurement unit 23, a throughput regulation value setting unit 24, and a throughput control unit 25.

  The target throughput ratio storage unit 21 stores a target throughput ratio in advance. The target throughput ratio is an index indicating how much the throughput of the own wireless terminal 1 that generates non-priority traffic should be suppressed relative to the throughput of other wireless terminals 1 that generate priority traffic. It is.

  The suppression period generator 22 generates a period (a suppression period) for suppressing the throughput. The length of the suppression period and the generation period can be arbitrarily set. The suppression period and other periods during which the throughput is not suppressed (non-suppression period) are alternately repeated.

  The throughput measurement unit 23 measures the throughput based on the throughput control value in the non-suppression period. Thereby, the throughput of the non-suppression period is measured.

  The throughput regulation value setting unit 24 satisfies the target throughput ratio stored in the target throughput ratio storage unit 21 based on the measured throughput value of the non-suppression period and the time ratio of the suppression period and the non-suppression period. In order to do so, a throughput regulation value to be applied to the suppression period is set. Specifically, the throughput regulation value to be applied to the suppression period is calculated on the condition that the throughput of the own wireless terminal 1 when viewed in a sufficiently long period satisfies the target throughput ratio.

  The throughput control unit 25 controls the throughput of the suppression period of the own wireless terminal 1 within a range not exceeding the throughput regulation value set by the throughput regulation value setting unit 24. On the other hand, the throughput is not suppressed during the non-suppression period. A throughput control value as the control result is output from the throughput control unit 25.

  According to the second embodiment described above, the throughput of the wireless terminal 1 that generates non-priority traffic can be controlled so as to satisfy the target throughput ratio. Thereby, the amount of traffic flowing into the radio section is appropriately controlled according to the priority of traffic.

  As described above, according to the present embodiment, the wireless terminal 1 can control the amount of traffic flowing into the wireless section in an autonomous and distributed manner. As a result, since the wireless terminal 1 can access information of all communication processing layers, the usage status of various wireless resources (for example, physical / link layer information, physical / link layer obtained by measurement) It is possible to perform flexible wireless traffic control according to the estimated information). Furthermore, flexible wireless traffic control according to applications and services can be performed.

  Further, according to the present embodiment, the amount of traffic flowing into the radio section can be controlled according to the priority of traffic.

  Further, in a mobile communication system, it is considered that resources in a radio section are the scarce, but it is possible to perform control so as to satisfy user and application requirements by effectively using the limited resources. As a result, it is possible to contribute to flexible quality control according to the information of the upper layer and to respond to various requests for user quality.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design changes and the like within a scope not departing from the gist of the present invention.

It is a block diagram which shows the structure of the mobile communication system which concerns on one Embodiment of this invention. It is a block block diagram of the radio | wireless traffic control function which concerns on the radio | wireless terminal 1 of Example 1 of this invention. It is a block block diagram of the radio | wireless traffic control function which concerns on the radio | wireless terminal 1 of Example 2 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Wireless terminal, 2 ... Base station, 3 ... Wireless link, 11 ... Target fluctuation coefficient memory | storage part, 12, 23 ... Throughput measurement part, 13 ... Throughput fluctuation coefficient calculation part, 14, 24 ... Throughput regulation value setting part, 15 , 25 ... throughput control unit, 21 ... target throughput ratio storage unit, 22 ... suppression period generation unit

Claims (6)

A coefficient of variation calculation means for calculating a coefficient of variation representing the characteristics of fluctuations in throughput of the wireless terminal;
Throughput regulation value setting means for setting a throughput regulation value so that the variation coefficient matches the target variation coefficient;
Throughput control means for controlling the throughput of the radio section within the range of the throughput regulation value;
A wireless terminal comprising: A throughput regulation value applied to the suppression period so as to satisfy the target throughput ratio based on the throughput of the own wireless terminal in the non-suppression period other than the throughput suppression period and the time ratio of the suppression period and the non-suppression period Throughput regulation value setting means for setting
Throughput control means for controlling the throughput of the radio section within the throughput regulation value in the suppression period;
A wireless terminal comprising:   The wireless terminal according to claim 1 or 2, wherein the wireless terminal enables a wireless traffic control function including the means when non-priority traffic occurs. A wireless traffic control method in a wireless terminal,
Calculating a coefficient of variation representing characteristics of variations in throughput of the wireless terminal;
Setting a throughput regulation value so that the coefficient of variation matches a target coefficient of variation;
Controlling the throughput of the radio section within the range of the throughput regulation value;
A wireless traffic control method comprising: A wireless traffic control method in a wireless terminal,
A throughput regulation value applied to the suppression period so as to satisfy the target throughput ratio based on the throughput of the wireless terminal in a non-suppression period other than the suppression period of the throughput and the time ratio of the suppression period and the non-suppression period. The process of setting
Controlling the throughput of the radio section within the throughput regulation value in the suppression period;
A wireless traffic control method comprising: The radio traffic control method according to claim 4 or 5, wherein the radio terminal enables a radio traffic control function including the processes when non-priority traffic occurs.

Images