JP2006245952A - COMMUNICATION APPARATUS WITH QoS FUNCTION, AND COMMUNICATION METHOD AND PROGRAM - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a QoS function attached communication apparatus connected to a line wherein a transmission line band changes depending on a line state that informs the QoS function section about transmission line band information in response to a change in the transmission line band, and the QoS function section receiving the information is characterized in supporting proper QoS by dynamically changing a QoS operating mode. <P>SOLUTION: The QoS function attached communication apparatus includes: a terminal INF for receiving data from an external terminal; a QoS processing section for applying QoS (Quality of Service) control to the data from the terminal INF; and a transmission line INF for monitoring a transmission line state, ensures the transmission line band in response to the transmission line state and provides the transmission line band information to the QoS processing section. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a communication device with a QoS (Quality of Service) function, a communication method, and a program capable of automatically providing an optimum QoS in a given transmission path band.

  In networks such as the Internet, delays and data loss occur due to changes in the surrounding environment such as an increase in traffic and failure of communication devices, and the reception state constantly changes with time. Therefore, in such a network, in order to minimize the influence on the intermediate network, it is necessary to appropriately control the amount of data to be transmitted according to the state of the intermediate network on the transmission side. This control is called QoS (Quality of Service) control. QoS refers to a generic name of technologies and services that reserve a bandwidth for a specific communication on a network and guarantee a constant communication speed.

A conventional communication system supporting QoS will be described with reference to FIG.
As shown in FIG. 1, a conventional communication system that supports QoS includes a communication device 1 and a QoS device 2.
The QoS device 2 is connected to the outside of the communication device 1 and performs a QoS operation in accordance with a preset transmission path band. The QoS operation here refers to, for example, determining the priority order of data received from the outside in order to secure the bandwidth of the transmission path, and discarding data having a low priority order. Note that a transmission channel refers to a route for transmitting data in data communication between communication devices. The transmission path includes an analog transmission path for transmitting an analog signal, and a digital transmission path for transmitting a digital signal (Digital channel). The terminal INF3 terminates the interface (interface) and transfers data to the transmission line side. The transmission line INF5 terminates the transmission line interface and secures an optimum transmission line band for communication according to the transmission line state. The transmission line INF5 supplies information indicating the amount of the reserved transmission line bandwidth to the terminal INF3 and the INF conversion unit 4. The terminal INF3 and the INF conversion unit 4 change the operation mode based on the supplied transmission path band information and perform data transfer. INF indicates an interface.

However, the conventional communication system that supports QoS has the following problems.
First, even if the transmission line bandwidth changes due to a change in the line state, the information is not transmitted to the connected QoS device, so the QoS device continues the bandwidth control operation with the setting before the transmission line bandwidth change. As a result, an appropriate QoS operation cannot be performed.
Further, in order to cause the QoS device to perform an appropriate QoS operation, it is necessary to perform a setting change operation through a manual operation.

As a conventional technique for preventing a communication error due to a change in a line state, a communication method for preventing an error such as a communication error of a facsimile communication call or a voice interruption in a voice communication is known in VoIP communication (patent) Reference 1).
In this prior art, in a VoIP gateway device that accommodates a plurality of communication terminal devices and performs VoIP communication with opposite devices, a used bandwidth capacity detecting unit that detects a used bandwidth capacity of a communication format used by a communication call; , A used bandwidth capacity storage unit that records a channel bandwidth capacity that can be used by the VoIP gateway device and a used bandwidth capacity for each communication call in association with each other, and communication that determines whether or not the bandwidth capacity is a communicable capacity Negotiations between the possibility determination means and the communication speed at the time of facsimile communication negotiate to determine the communication format, and when the bandwidth capacity does not satisfy the used bandwidth capacity of the communication, the facsimile communication speed is reduced to perform communication A communication format determining means to be presented to the possibility determining means is provided.

JP 2002-176438 A

  An object of the present invention is to provide a communication device with a QoS function, a communication method, and a program capable of automatically performing a QoS (Quality of Service) operation corresponding to the transmission line band even when the transmission line band is changed. It is to be.

  In the following, means for solving the problem will be described using the numbers used in [Best Mode for Carrying Out the Invention] in parentheses. These numbers are added to clarify the correspondence between the description of [Claims] and [Best Mode for Carrying Out the Invention]. However, these numbers should not be used to interpret the technical scope of the invention described in [Claims].

  The communication device with QoS function (10, 20, 30) of the present invention is connected to a transmission line, monitors the state of the transmission line, secures a transmission line band according to the state of the transmission line, and The transmission line interface (14, 24, 34) for generating transmission line band information indicating the transmission line band, and the transmission line interface (14, 24, 34) connected to the transmission line interface (14, 24, 34), the data sent to the transmission line A QoS processing unit (12, 22, 32) that performs QoS (Quality of Service) control based on the transmission line bandwidth information when transmitting to the transmission line interface (14, 24, 34) is provided.

  The communication device with QoS function (10, 20, 30) of the present invention receives the data from a terminal, performs communication speed control and flow control, and transmits the data to the QoS processing unit (11, 21). , 31).

  The communication device with QoS function (10, 20, 30) of the present invention is connected to a terminal and receives a terminal interface (11, 21, 31) for receiving data from the terminal, and the terminal interface (11, 21, 31). QoS processing units (12, 22, 32) that perform QoS control based on transmission line bandwidth information, and are connected to the transmission line, monitor the state of the transmission line, and state of the transmission line The transmission path band corresponding to the transmission path band is secured, the transmission path band information indicating the secured transmission path band is provided to the QoS processing section (12, 22, 32), and the QoS processing section (12, 22, 32) is provided. And a transmission line interface (14, 24, 34) for sending data from the transmission line to the transmission line.

  The communication device with QoS function (10) of the present invention further includes a conversion unit (13) that performs data format conversion of the data based on the transmission path band information provided from the transmission path interface (14).

  The communication device with QoS function (20) of the present invention further includes a bulk processing unit (23) that performs a delay time correction process between transmission lines in order to combine a plurality of transmission lines into one logical transmission line. .

  The communication device with QoS function (30) of the present invention further includes a MODEM (33) for modulating / demodulating the data.

  The bulk processing unit (23) monitors the state of the transmission line in cooperation with the transmission line interface (24), selects an available transmission line, and determines the amount of the transmission line band that can be secured. The bandwidth information is provided to the QoS processing unit (22).

  The MODEM unit (33) monitors the transmission line state in cooperation with the transmission line interface (34) unit, selects an available transmission line, and determines the amount of the transmission line band that can be secured. The bandwidth information is provided to the QoS processing unit (32).

  The transmission line interface (14, 24, 34) section operates to secure a plurality of transmission path bands, operates to secure a plurality of transmission path bands according to each transmission path state, and enters each transmission path state. In response, the transmission path band information is generated.

  The communication method of the present invention monitors the state of a transmission line, secures a transmission line band according to the state of the transmission line, and generates transmission line band information indicating the reserved transmission line band; Performing QoS control on data to be transmitted to the transmission line based on the transmission line band information.

  The communication method of the present invention further includes a step of receiving the data from the terminal and performing communication speed control and flow control before performing the QoS control.

  The communication method of the present invention further includes a step of performing a data format conversion of the data based on the transmission path band information.

  The communication method of the present invention further includes a step of performing a delay time correction process between the transmission lines so that the plurality of transmission lines are combined into one logical transmission line.

  The communication method of the present invention further comprises a step of modulating / demodulating the data.

  The communication method of the present invention further includes a step of generating a plurality of transmission line bands and generating the transmission line band information according to each transmission line state.

  The program of the present invention causes a computer to execute the communication method.

The first effect is that the QoS operation according to the transmission path band can be automatically performed without human intervention because the transmission path band information can be notified to the QoS processing unit.
The second effect is that since a means for exchanging transmission line bandwidth information with the QoS function portion is provided inside the apparatus, the apparatus and system can be reduced in size, reduced in power consumption, simplified in configuration, and reduced in cost. It is.

Hereinafter, a first embodiment of the present invention will be described with reference to the accompanying drawings.
As shown in FIG. 2, the communication device with QoS (Quality of Service) function 10 of the present invention includes a terminal INF11, a QoS processing unit 12, an INF conversion unit 13, and a transmission path INF unit 14.
The terminal INF11 is a functional block of an interface, and there exists at least one, and performs one-to-one communication with an external terminal. The communication between the terminal INF11 and an external terminal may be wired or wireless. The QoS processing unit 12 transmits / receives data to / from the terminal INF11. When there are a plurality of terminals INF11, the QoS processing unit 12 performs one-to-many communication with the plurality of terminals INF11. The INF conversion unit 13 transmits / receives data to / from the QoS processing unit 12. Note that the mounting position of the INF conversion unit 13 may be taken into the QoS processing unit 12 or may be between the terminal INF 11 and the QoS processing unit 12. The transmission line INF unit 14 transmits / receives data to / from the INF conversion unit 13. In addition, the state of the transmission line is monitored, a transmission line band corresponding to the state of the transmission line is secured, and transmission line band information is created. The QoS processing unit 12 and the INF conversion unit 13 receive the transmission line band information from the transmission line INF unit 14. Note that the transmission channel refers to a route for transmitting data in data communication between computers. The transmission path includes an analog transmission path for transmitting an analog signal, and a digital transmission path for transmitting a digital signal (Digital channel). The transmission path is divided into a wired transmission path and a wireless transmission path. Wired transmission lines are typified by twisted pair cables, coaxial cables, and optical fiber cables. Radio transmission lines use radio waves, microwaves, and light. Communication using a wired transmission path is called wired communication, and communication using a wireless transmission path is called wireless communication.

  In FIG. 2, n (1 to n) terminals INF11 terminate the interfaces of terminals 1 to n, respectively. Further, the terminal INF 11 performs communication speed control and flow control according to the information regarding the QoS operation state from the QoS processing unit 12. The QoS processing unit 12 applies QoS control to the data from the terminal INF 11 based on the transmission line bandwidth information from the transmission line INF unit 14. For example, when priority is set for data received from an external terminal, the QoS processing unit 12 determines the priority of the received data in order to discard the lower priority data and secure the bandwidth of the transmission path. To do. The INF conversion unit 13 performs data format conversion and speed conversion between the transmission line and the terminal based on the transmission line band information from the transmission line INF unit 14. The transmission line INF unit 14 terminates the transmission line interface, and at the same time monitors the transmission line state, operates by securing a transmission line band according to the transmission line state, and sends information on the reserved transmission line band to the QoS processing unit 12. And supplied to the INF conversion unit 13.

Next, the operation of the communication device with a QoS function 10 in FIG. 2 will be described with reference to FIG.
The transmission line INF unit 14 in FIG. 2 operates in the seven transmission line bands shown in the table of FIG.
The transmission line INF unit 14 operates to secure seven transmission line bandwidths of 128 kbps to 10 Mbps, generates transmission line band information (1 to 7) according to each transmission line state, and the QoS processing unit 12 and the INF. This is supplied to the conversion unit 7. The QoS processing unit 12 recognizes an available transmission path band from the input transmission path band information (1 to 7) and performs a QoS operation.

FIG. 4 shows a data flow from the terminal to the transmission path in the first embodiment.
The terminal INF11 is connected to an external terminal and receives data from the external terminal (step S101). Communication speed control and flow control are performed on the received data according to information on the QoS operation state from the QoS processing unit 12 (step S102).
Further, the transmission line INF unit 14 monitors the transmission line state (step S103), operates by securing a transmission line band corresponding to the transmission line state, and obtains information on the reserved transmission line band as the QoS processing unit 12 and the INF. It supplies to the conversion part 13 (step S104).
Note that step S103 and step S104 may be performed before step S101 and step S102.
The QoS processing unit 12 receives data from the terminal INF11 and performs QoS control based on the transmission path band information (step S105).
The INF conversion unit 13 receives data from the QoS processing unit 12, and performs data format conversion and speed conversion based on the transmission path band information (step S106).
The transmission line INF unit 14 receives data from the INF conversion unit 13 and sends the data to the transmission line in the reserved transmission line band.

Below, 2nd Embodiment of this invention is described with reference to an accompanying drawing.
The basic configuration of the second embodiment of the present invention is the same as that of the first embodiment, but examples of application to specific products are shown below.
A configuration in which the present invention is applied to a bulk communication apparatus is shown in FIG. Bulk communication refers to communication using a plurality of lines (transmission paths) simultaneously.
As shown in FIG. 5, the QoS function-equipped communication device 20 applied to the bulk communication device includes a terminal INF21, a QoS processing unit 22, a bulk processing unit 23, and a transmission path INF unit 24.
The terminal INF21 is a functional block of an interface, and exists at least one, and performs one-to-one communication with an external terminal. The QoS processing unit 22 transmits / receives data to / from the terminal INF21. When there are a plurality of terminals INF21, the QoS processing unit 22 performs one-to-many communication with the plurality of terminals INF21. The bulk processing unit 23 transmits / receives data to / from the QoS processing unit 22. At least one transmission line INF unit 24 exists, and performs data transmission / reception with the bulk processing unit 23. When there are a plurality of transmission line INF units 24, the bulk processing unit 23 performs one-to-many communication with the plurality of transmission line INF units 24. The transmission line INF unit 24 performs one-to-one communication with an external transmission line. Note that the QoS processing unit 22 receives the transmission path band information from the bulk processing unit 23.

  In FIG. 5, the terminal INF21 and the QoS processing unit 22 function in the same manner as the terminal INF11 and the QoS processing unit 12 in FIG. The bulk processing unit 23 performs a delay time correction process between transmission lines so that a plurality of transmission lines are combined to form one logical transmission line. Here, the bulk processing unit 23 monitors the transmission line state and selects an available transmission line in cooperation with the transmission line INF unit 24, and performs QoS processing using the amount of the transmission line band that can be secured as transmission line band information. Part 22 is provided. The QoS processing unit 22 that has received the transmission line band information performs a QoS operation according to the transmission line band. As described above, in this embodiment, since the QoS operation can be controlled according to the state of the transmission path, the effect that the optimum QoS can be automatically provided in the given transmission path band can be obtained.

FIG. 6 shows a data flow from the terminal to the transmission path in the second embodiment.
The terminal INF21 is connected to an external terminal and receives data from the external terminal (step S201). Communication speed control and flow control are performed on the received data in accordance with the information on the QoS operation state from the QoS processing unit 22 (step S202).
The transmission line INF unit 24 monitors the transmission line state (step S203), operates by securing a transmission line band corresponding to the transmission line state, and supplies information on the reserved transmission line band to the bulk processing unit 23. (Step S204).
The bulk processing unit 23 cooperates with the transmission line INF unit 24 to monitor the transmission line state and select an available transmission line, and the QoS processing unit 22 uses the amount of the transmission line band that can be secured as transmission line band information. (Step S205).
Note that step S203, step S204, and step S205 may be performed before step S201 and step S202.
The QoS processing unit 22 receives data from the terminal INF21 and performs QoS control based on the transmission path band information (step S206).
The bulk processing unit 23 receives data from the QoS processing unit 22, and performs a delay time correction process between the transmission lines so that a plurality of transmission lines are combined to form one logical transmission line (step S207).
The transmission line INF unit 24 receives data from the bulk processing unit 23 and sends the data to the transmission line in the reserved transmission line band (step S208).

Below, 3rd Embodiment of this invention is described with reference to an accompanying drawing.
A configuration in which the present invention is applied to an xDSL modem apparatus is shown in FIG.
As shown in FIG. 7, the QoS function-equipped communication device 30 applied to the xDSL modem device includes a terminal INF31, a QoS processing unit 32, a MODEM unit 33, and a transmission line INF unit 34.
The terminal INF31 is a functional block of an interface, and exists at least one, and performs one-to-one communication with an external terminal. The QoS processing unit 32 transmits / receives data to / from the terminal INF31. When there are a plurality of terminals INF31, the QoS processing unit 32 performs one-to-many communication with the plurality of terminals INF31. The MODEM unit 33 transmits / receives data to / from the QoS processing unit 32. The transmission line INF unit 34 transmits / receives data to / from the MODEM unit 33. The QoS processing unit 32 receives the transmission path band information from the MODEM unit 33.

  In FIG. 7, the terminal INF 31 and the QoS processing unit 32 operate in the same manner as the terminal INF 11 and the QoS processing unit 12 in FIG. The MODEM unit 33 modulates and demodulates data. For example, when computer information is transmitted using a telephone network that is an analog transmission path, a digital signal is converted into an analog signal. The conversion of a digital signal into an analog signal is called modulation. The operation of restoring the original information from the signal is called demodulation. MODEM is a device having the functions of both a modulator and a demodulator. The MODEM unit 33 monitors the transmission line state in cooperation with the transmission line INF unit 34, and provides the QoS processing unit 32 with the amount of the transmission line band that can be secured as transmission line band information. The QoS processing unit 32 that has received the transmission path band information performs a QoS operation corresponding to the transmission path band. As described above, in this embodiment, since the QoS operation can be controlled according to the state of the transmission path, the effect that the optimum QoS can be automatically provided in the given transmission path band can be obtained.

FIG. 8 shows a data flow from the terminal to the transmission path in the third embodiment.
The terminal INF31 is connected to an external terminal and receives data from the external terminal (step S301). Communication speed control and flow control are performed on the received data according to the information on the QoS operation state from the QoS processing unit 32 (step S303).
Also, the transmission line INF unit 34 monitors the transmission line state (step S303), secures a transmission line band corresponding to the transmission line state, operates, and supplies information on the reserved transmission line band to the MODEM unit 33. (Step S304).
The MODEM unit 33 monitors the transmission line state and selects an available transmission line in cooperation with the transmission line INF unit 34, and sends the amount of the transmission line band that has been secured to the QoS processing unit 32 as transmission line band information. Provide (step S305).
Note that step S303, step S304, and step S305 may be performed before step S301 and step S303.
The QoS processing unit 32 receives data from the terminal INF31 and performs QoS control based on the transmission path band information (step S306).
The MODEM 33 modulates and demodulates data (step S307).
The transmission line INF unit 34 receives data from the MODEM unit 33 and sends the data to the transmission line in the reserved transmission line band (step S308).

The features of the present invention will be described below.
In a communication system that supports conventional QoS, when the transmission capacity of a line changes, there is no means for notifying the QoS device of specific transmission path band information, so QoS control according to the transmission path band is automatically performed. This was not possible, and every time the bandwidth was changed, it was necessary to manually change the setting.

  The communication device with a QoS function according to the present invention includes means for providing transmission path band information from the transmission path INF unit to the QoS processing unit.

  According to the present invention, in a communication device with a QoS function connected to a line whose transmission line band changes depending on the line state, the transmission line band information is notified to the QoS function unit according to the change of the transmission line band, and the received QoS The functional unit is characterized by supporting appropriate QoS by dynamically changing the QoS operation mode.

FIG. 1 is a block diagram illustrating a communication system supporting conventional QoS. FIG. 2 is a block diagram illustrating a communication device with a QoS function according to the first embodiment of this invention. FIG. 3 is a table used for explaining the operation of the present invention. FIG. 4 is a sequence diagram illustrating a data flow according to the first embodiment of this invention. FIG. 5 is a block diagram illustrating a communication device with a QoS function according to the second embodiment of this invention. FIG. 6 is a sequence diagram illustrating a data flow according to the second embodiment of this invention. FIG. 7 is a block diagram illustrating a communication device with a QoS function according to the third embodiment of this invention. FIG. 8 is a sequence diagram illustrating a data flow according to the third embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Communication apparatus 2 ... QoS (Quality of Service) apparatus 3 ... Terminal INF (interface)
4 ... INF converter 5 ... Transmission path INF
10 ... Communication device with QoS function 11 ... Terminal INF
12 ... QoS processing unit 13 ... INF conversion unit 14 ... Transmission path INF
20 ... Communication device with QoS function 21 ... Terminal INF
22 ... QoS processing unit 23 ... Bulk processing unit 24 ... Transmission path INF
30 ... Communication device with QoS function 31 ... Terminal INF
32 ... QoS processing unit 33 ... MODEM unit 34 ... Transmission path INF

Claims (16)

A transmission line interface connected to a transmission line, monitoring a state of the transmission line, ensuring a transmission line band according to the state of the transmission line, and generating transmission line band information indicating the reserved transmission line band; ,
A QoS processing unit that is connected to the transmission line interface and performs QoS (Quality of Service) control based on the transmission line bandwidth information when data sent to the transmission line is transmitted to the transmission line interface; Communication device with QoS function. In the communication apparatus with a QoS function according to claim 1,
A communication device with a QoS function, further comprising a terminal interface that receives the data from a terminal, performs communication speed control and flow control, and transmits the data to the QoS processing unit. A terminal interface connected to the terminal and receiving data from the terminal;
A QoS processing unit for performing QoS control on data from the terminal interface based on transmission path band information;
Connected to a transmission line, monitors the state of the transmission line, secures a transmission line band according to the state of the transmission line, and transmits the transmission line band information indicating the reserved transmission line band to the QoS processing unit. A communication device with a QoS function, comprising: a transmission path interface that provides and transmits data from the QoS processing section to the transmission path. In the communication apparatus with a QoS function according to any one of claims 1 to 3,
A communication device with a QoS function, further comprising a conversion unit that performs data format conversion of the data based on the transmission path band information provided from the transmission path interface. In the communication apparatus with a QoS function according to any one of claims 1 to 3,
A communication device with a QoS function, further comprising a bulk processing unit that performs a delay time correction process between transmission lines in order to combine a plurality of transmission lines into one logical transmission line. In the communication apparatus with a QoS function according to any one of claims 1 to 3,
A communication device with a QoS function, further comprising a MODEM that modulates and demodulates the data. In the communication apparatus with a QoS function according to claim 5,
The bulk processing unit monitors the transmission line state in cooperation with the transmission line interface unit, selects an available transmission line, and uses the secured transmission line band amount as the transmission line band information as the QoS. A communication device with a QoS function provided to a processing unit. The communication device with a QoS function according to claim 6,
The MODEM unit monitors the transmission line state in cooperation with the transmission line interface unit, selects an available transmission line, and uses the secured transmission line band amount as the transmission line band information as the QoS processing. A communication device with a QoS function provided to the department. In the communication apparatus with a QoS function according to any one of claims 1 to 8,
The transmission line interface unit operates to secure a plurality of transmission line bands, and generates the transmission line band information according to each transmission line state. A communication device with a QoS function. Monitoring the state of the transmission line, securing a transmission line band according to the state of the transmission line, and generating transmission line band information indicating the reserved transmission line band;
And a step of performing QoS control on data to be transmitted to the transmission path based on the transmission path band information. The communication method according to claim 10,
A communication method further comprising the steps of receiving the data from a terminal and performing communication speed control and flow control before performing the QoS control. The communication method according to claim 10 or 11,
A communication method further comprising a step of performing a data format conversion of the data based on the transmission path band information. The communication method according to claim 10 or 11,
A communication method further comprising a step of correcting a delay time between transmission lines in order to combine a plurality of transmission lines into one logical transmission line. The communication method according to claim 10 or 11,
A communication method further comprising a step of modulating / demodulating the data. The communication method according to any one of claims 10 to 14,
A communication method further comprising a step of operating to secure a plurality of transmission path bands and generating the transmission path band information according to each transmission path state.   A program for causing a computer to execute the communication method according to any one of claims 10 to 15.

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