JP2010283747A - Communication device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication device which can reduce the power consumption and speedily increasing the number of communication units which are ready for communication with external devices. <P>SOLUTION: The communication device 100 includes a plurality of communication units 101, 102, ..., so connected as to operate by consuming electric power and communicate with external devices. The communication device is configured to communicate with the external devices through the plurality of communication units. Each of the communication units is configured to alternate a communication state of communication with an external device and a standby state wherein the communication unit operates but does not communicate with the external device. Further, the communication device includes an obtaining part 110 and a control part 120. The obtaining part obtains an amount of information communicated between the communication units and external devices within an obtaining time. The control part changes the state of a communication unit in a communication state to a standby state when a parameter based upon the obtained amount of information is smaller than a first threshold. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a communication device including a plurality of communication units that are communicably connected to an external device via a communication line.

  A communication device including a plurality of communication units that are communicably connected to an external device via a communication line is known. As one of this type of communication device, the communication device described in Patent Document 1 performs communication with an external device via a plurality of communication units by performing link aggregation.

  Further, this communication apparatus acquires the line usage of the communication line. Then, the communication device stops supplying power to a part of the plurality of communication units when the acquired line usage amount is smaller than the predetermined lower limit threshold. According to this, the amount of power (power consumption) consumed by the communication device can be reduced.

  Furthermore, when the acquired line usage amount is larger than a predetermined upper limit threshold, the communication device starts the communication unit by restarting the power supply to the communication unit that has stopped supplying power. . Thereafter, when the activation of the communication unit is completed, the communication device performs communication using the communication unit.

JP 2007-97126 A

  By the way, once the power supply to the communication unit is stopped, it takes a relatively long time to start the communication unit by restarting the power supply. Therefore, according to the communication device, there is a problem that the number of communication units in a state of performing communication with an external device cannot be increased rapidly.

  For this reason, the object of the present invention is to reduce the power consumption and to increase the number of communication units that are in a state of communicating with an external device quickly. It is an object of the present invention to provide a communication device that can solve this problem.

In order to achieve such an object, a communication apparatus according to one aspect of the present invention provides:
It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and is in a state in which the communication unit is in operation and the external device. Is configured to switch to a standby state in which communication is not performed between, and
An acquisition means for acquiring an amount of information communicated within a preset acquisition time between the communication unit and the external device;
Control means for changing the state of the communication unit in the communication state to the standby state when the parameter based on the acquired amount of information is smaller than a preset first threshold;
Is provided.

In addition, a communication method according to another aspect of the present invention includes:
It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and is in a state in which the communication unit is in operation and the external device. Applied to a communication device configured to switch between a standby state where communication is not performed between and a state,
Obtaining an amount of information communicated within a preset acquisition time between the communication unit and the external device;
When the parameter based on the acquired information amount is smaller than a preset first threshold, the state of the communication unit in the communication state is changed to the standby state.

Moreover, the program which is the other form of this invention is:
It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and is in a state in which the communication unit is in operation and the external device. A communication device configured to switch between a standby state in which communication is not performed between
An acquisition means for acquiring an amount of information communicated within a preset acquisition time between the communication unit and the external device;
Control means for changing the state of the communication unit in the communication state to the standby state when the parameter based on the acquired amount of information is smaller than a preset first threshold;
It is a program for realizing.

  By configuring as described above, the present invention can reduce the amount of power consumption and rapidly increase the number of communication units in a state of performing communication with an external device.

It is a figure showing schematic structure of the communication apparatus which concerns on 1st Embodiment of this invention. It is the flowchart which showed the action | operation of the communication apparatus which concerns on 1st Embodiment of this invention. It is the time chart which showed the change of the communication band of the communication unit which concerns on 1st Embodiment of this invention. It is explanatory drawing which showed notionally the flow of the control signal in case the communication band becomes larger than an upper limit threshold value of the communication apparatus which concerns on 1st Embodiment of this invention. It is the time chart which showed the change of the communication band of the communication unit which concerns on 1st Embodiment of this invention. It is explanatory drawing which showed notionally the flow of the control signal in case the communication band becomes smaller than a minimum threshold value of the communication apparatus which concerns on 1st Embodiment of this invention. It is a figure showing schematic structure of the communication apparatus which concerns on 2nd Embodiment of this invention.

  Hereinafter, embodiments of a communication device, a communication method, and a program according to the present invention will be described with reference to FIGS.

<First Embodiment>
(Constitution)
As shown in FIG. 1, the communication device 1 according to the first embodiment includes a plurality (three in this example) of communication units 10a, 10b, and 10c, a line distribution unit 20, a threshold determination unit 30, and the like. A line control management unit 40 and a line distribution management unit 50. The communication unit 10a is also referred to as communication unit # 1, the communication unit 10b is also referred to as communication unit # 2, and the communication unit 10c is also referred to as communication unit # 3.

  The communication unit 10a operates by consuming electric power. The communication unit 10a includes an output control unit 11, a counting unit 12, and a statistical processing unit 13. The output control unit 11 is communicably connected to the output side external device via the communication line OL1.

  The communication unit 10a is in a state in which the communication unit 10a is operating (that is, consuming power) and is in a state in which communication is performed with the output-side external device, and the communication unit 10a The state is switched to a standby state in which the device is in operation and does not communicate with the output-side external device.

  When the communication unit 10a receives a communication start instruction from the line control management unit 40, the communication unit 10a sets the state of the communication unit 10a to the communication state. The communication start instruction is a control signal instructing to start communication with the output side external apparatus.

  When the communication unit 10a receives a communication stop instruction from the line control management unit 40, the communication unit 10a sets the state of the communication unit 10a to a standby state. The communication stop instruction is a control signal that instructs to stop communication with the output-side external device.

  When in the standby state, the communication unit 10a stops the functions (described later) of the output control unit 11, the counting unit 12, and the statistical processing unit 13. Accordingly, when the communication unit 10a is in the standby state, the power consumed by the output control unit 11 for communication, the power consumed by the counting unit 12 for integrating the frame data size, and The power consumed for the statistical processing unit 13 to calculate the communication band can be reduced.

  With such a configuration, the amount of power consumed by the output control unit 11, the counting unit 12, and the statistical processing unit 13 is such that the communication unit 10a is in a communication state when the communication unit 10a is in a standby state. Less than if

  When the state of the communication unit 10a is the communication state, the output control unit 11 receives a frame transmitted from the line distribution unit 20. The output control unit 11 transmits the received frame to the output side external device via the communication line OL1.

  When the state of the communication unit 10a is the communication state, the counting unit 12 receives the data size of the frame received (or transmitted) by the output control unit 11 within a preset acquisition time (5 minutes in this example). (In this example, the number of bytes) is integrated. When the state of the communication unit 10a is the communication state, the counting unit 12 sends the accumulated data size (integrated value) to the statistical processing unit 13 every time the acquisition time elapses.

  Note that a value (integrated value) obtained by integrating the data sizes of the frames communicated within the acquisition time between the communication unit 10a and the output-side external device is also referred to as an information amount. That is, the counting unit 12 constitutes acquisition means for acquiring the amount of information communicated within the acquisition time between the communication unit 10a and the output side external device.

When the state of the communication unit 10a is the communication state, the statistical processing unit 13 receives the integrated value sent by the counting unit 12, and determines a value obtained by dividing the received integrated value by the acquisition time as the communication band (the information amount). Based parameters). Then, the statistical processing unit 13 sends the calculated communication band to the threshold determination unit 30.
Each of the communication units 10b and 10c has a configuration similar to that of the communication unit 10a.

  The line distribution unit 20 receives used communication unit identification information as a distribution instruction from the line distribution management unit 50. The used communication unit specifying information is information for specifying a communication unit used for communication.

  The line distribution unit 20 is communicably connected to the input side external device via the communication line IL. The line distribution unit 20 receives a frame from the input side external device. When receiving a frame, the line distribution unit 20 selects one communication unit from the communication units specified by the received used communication unit specifying information. In this example, the line distribution unit 20 selects a communication unit according to the round robin method. Then, the line distribution unit 20 sends the received frame to the selected communication unit.

  In this way, the communication device 1 performs output through a plurality of communication units 10a, 10b, and 10c by performing link aggregation defined by IEEE (The Institute of Electrical and Electronics Engineers, Inc.) 802.3ad. Communicate with external devices.

  The threshold determination unit 30 receives the communication band transmitted by the statistical processing unit 13 of each communication unit 10a, 10b, 10c. When any of the communication bands received from the communication units 10a, 10b, and 10c is smaller than a preset lower limit threshold (first threshold), the threshold determination unit 30 issues a communication unit decrease instruction to the line control management unit. 40 and the line distribution management unit 50. The communication unit decrease instruction is a control signal for instructing to decrease the number of communication units used for communication.

  In addition, the threshold determination unit 30 controls the line control to increase the communication unit when any of the communication bands received from the communication units 10a, 10b, and 10c is larger than the preset upper limit threshold (second threshold). The data is sent to each of the management unit 40 and the line distribution management unit 50. The communication unit increase instruction is a control signal instructing to increase the number of communication units used for communication. The upper threshold is a value larger than the lower threshold.

  The line control management unit 40 receives a communication unit decrease instruction and communication stop communication unit identification information from the threshold determination unit 30. The communication stop communication unit specifying information is information for specifying a communication unit to be changed from the communication state to the standby state, as will be described later. When receiving the communication unit reduction instruction and the communication stop communication unit specifying information, the line control management unit 40 sends a communication stop instruction to the communication unit specified by the communication stop communication unit specifying information (that is, in the communication state). .

  In addition, the line control management unit 40 receives a communication unit increase instruction from the threshold determination unit 30. When the communication unit increase instruction is received and the communication unit in the standby state exists, the line control management unit 40 sends a communication start instruction to one of the communication units in the standby state. When the communication start instruction is transmitted, the line control management unit 40 transmits communication start communication unit specifying information for specifying the communication unit that is the transmission destination of the communication start instruction via the threshold determination unit 30 to the line distribution management unit 50. To send.

  As described above, when the parameter is smaller than the first threshold, the statistical processing unit 13, the threshold determination unit 30, and the line control management unit 40 change the state of the communication unit in the communication state to the standby state. On the other hand, when the parameter is larger than the second threshold value, a control unit is configured to change the state of the communication unit in the standby state to the communication state.

  The line allocation management unit 50 stores used communication unit identification information. The line distribution management unit 50 receives a communication unit decrease instruction from the threshold determination unit 30. When the line distribution management unit 50 receives a communication unit reduction instruction and there are a plurality of communication units specified by the stored use communication unit specifying information, one communication unit is selected from the plurality of communication units. select.

  Then, the line allocation management unit 50 uses the information for specifying the communication unit excluding the selected communication unit from the communication unit specified by the stored used communication unit specifying information as the used communication unit specifying information. Generate. Next, the line allocation management unit 50 sends information for specifying the selected communication unit to the line control management unit 40 via the threshold value determination unit 30 as communication stop communication unit specification information.

  Further, the line allocation management unit 50 updates the stored used communication unit identification information to the generated used communication unit information. Then, the line distribution management unit 50 sends the stored used communication unit identification information to the line distribution unit 20.

  Further, the line distribution management unit 50 receives a communication unit increase instruction and communication start communication unit identification information from the threshold determination unit 30. When the line allocation management unit 50 receives the communication unit increase instruction, the communication unit 50 adds the communication unit specified by the communication start communication unit specifying information to the communication unit specified by the stored used communication unit specifying information. Information for specifying a unit is generated as used communication unit specifying information.

  The line distribution management unit 50 updates the stored used communication unit identification information to the generated used communication unit information. Then, the line distribution management unit 50 sends the stored used communication unit identification information to the line distribution unit 20.

(Operation)
Next, the operation of the communication device 1 described above will be specifically described. The communication device 1 operates as shown by the flowchart in FIG.

  Now, the case where the line distribution management unit 50 stores used communication unit specifying information, which is information for specifying only the communication unit 10a, as a communication unit used for communication will be described. In this case, the line distribution unit 20 sends the frame received from the input side external device to the output control unit 11 of the communication unit 10a.

  When the output control unit 11 of the communication unit 10a receives a frame from the line distribution unit 20 (“Yes” in step 205), the counting unit 12 of the communication unit 10a adds up the data size of the received frame ( Step 210).

  Next, the counting unit 12 of the communication unit 10a determines whether or not the acquisition time has elapsed from the latest time point (previous sending time point) at which the accumulated data size (integrated value) is sent to the statistical processing unit 13 ( Step 215). If the acquisition time has not elapsed since the previous transmission time, the counting unit 12 determines “No”, returns to Step 205, and repeatedly executes the processing of Step 205 to Step 215.

  When the acquisition time elapses from the previous transmission time, the counting unit 12 determines “Yes” in step 215 and transmits the accumulated data size (integrated value) to the statistical processing unit 13. Further, the counting unit 12 resets (sets to “0”) the integrated value.

  Next, the statistical processing unit 13 of the communication unit 10a receives the integrated value, and calculates a value obtained by dividing the received integrated value by the acquisition time as a communication band (step 220). Then, the statistical processing unit 13 sends the calculated communication band to the threshold determination unit 30.

The threshold determination unit 30 receives a communication band from the communication unit 10a, and determines whether the received communication band is larger than an upper limit threshold (step 225).
Now, as shown in FIG. 3, the description will be continued assuming that the current time point is t0 and the accepted communication band is smaller than the upper limit threshold and larger than the lower limit threshold.

  In this case, the threshold determination unit 30 determines “No” in step 225 and proceeds to step 245 to determine whether or not the accepted communication band is smaller than the lower limit threshold. At this time, the threshold determination unit 30 determines “No”, returns to Step 205, and repeatedly executes the above-described processing.

  Thereafter, the case where the current time is time t1 and the accepted communication band becomes larger than the upper limit threshold will be described.

  In this case, the threshold determination unit 30 determines “Yes” in step 225. Then, the threshold determination unit 30 sends a communication unit increase instruction to the line control management unit 40 (arrow A1 in FIG. 4).

  When receiving the communication unit increase instruction from the threshold determination unit 30, the line control management unit 40 determines whether there is a communication unit in a standby state. Specifically, the line control management unit 40 sends a predetermined control signal to the output control unit 11 of each communication unit 10a, 10b, 10c (arrow A2 in FIG. 4). Furthermore, the line control management unit 40 receives a response signal sent from the output control unit 11 of each of the communication units 10a, 10b, and 10c in accordance with the control signal (arrow A3 in FIG. 4). The response signal is a signal representing the state of the communication unit. Then, the line control management unit 40 performs the above determination based on the received response signal.

  According to the above assumption, the state of the communication unit 10a is a communication state, and the states of the communication units 10b and 10c are standby states. Therefore, the line control management unit 40 determines “Yes” in step 230 of FIG. 2 and selects a communication unit to be used for communication. In this example, the line control management unit 40 selects the communication unit 10b.

  Then, the line control management unit 40 sends a communication start instruction to the selected communication unit 10b (step 235 in FIG. 2, arrow A4 in FIG. 4). Next, the communication unit 10b receives a communication start instruction. Thereby, the communication unit 10b changes the state from the standby state to the communication state.

  Then, the line control management unit 40 sends communication start communication unit specifying information for specifying the communication unit 10b to the threshold value determination unit 30 (arrow A5 in FIG. 4). Further, when receiving the communication start communication unit specifying information, the threshold determination unit 30 sends the received communication start communication unit specifying information and the communication unit increase instruction to the line distribution management unit 50 (arrow A6 in FIG. 4). ).

  The line distribution management unit 50 receives a communication unit increase instruction and communication start communication unit identification information from the threshold determination unit 30. Then, the line allocation management unit 50 is information for specifying a communication unit obtained by adding the communication unit specified by the communication start communication unit specifying information to the communication unit specified by the stored used communication unit specifying information. Is generated as used communication unit identification information.

  Next, the line allocation management unit 50 updates the stored used communication unit identification information to the generated used communication unit information. Then, the line distribution management unit 50 sends the stored used communication unit identification information (distribution instruction) to the line distribution unit 20 (step 240 in FIG. 2, arrow A7 in FIG. 4).

  Accordingly, when the line distribution unit 20 subsequently receives a frame, the line distribution unit 20 transmits the frame to any of the communication units (that is, the communication unit 10a and the communication unit 10b) specified by the received used communication unit specifying information. . That is, thereafter, the communication device 1 communicates with the output-side external device via the communication unit 10a and the communication unit 10b.

  Then, as shown in FIG. 5, the case where the present time is time t2 and the received communication band becomes smaller than a lower limit threshold is demonstrated.

  In this case, the threshold determination unit 30 determines “Yes” in step 245. Then, the threshold determination unit 30 sends a communication unit decrease instruction to the line distribution management unit 50 (arrow B1 in FIG. 6).

  The line distribution management unit 50 receives a communication unit decrease instruction from the threshold determination unit 30. Then, when there are a plurality of communication units specified by the stored used communication unit specifying information, the line distribution management unit 50 selects one communication unit from the plurality of communication units. Next, the line distribution management unit 50 uses the information for specifying the communication unit excluding the selected communication unit from the communication unit specified by the stored used communication unit specifying information as the used communication unit specifying information. Generate.

  According to the above assumption, the communication units specified by the used communication unit specifying information stored by the line distribution management unit 50 are the communication unit 10a and the communication unit 10b. Therefore, in this example, the line distribution management unit 50 selects the communication unit 10b and generates information for specifying only the communication unit 10a as used communication unit specifying information.

  Next, the line allocation management unit 50 updates the stored used communication unit identification information to the generated used communication unit information. Then, the line distribution management unit 50 sends the stored used communication unit identification information (distribution information) to the line distribution unit 20 (step 250 in FIG. 2, arrow B2 in FIG. 6).

  Accordingly, when the line distribution unit 20 subsequently receives a frame, the line distribution unit 20 transmits the frame to the communication unit (that is, the communication unit 10a) specified by the received used communication unit specifying information. That is, thereafter, the communication device 1 communicates with the output-side external device only through the communication unit 10a.

  The line distribution unit 20 sends a change completion notification to the line distribution management unit 50 when a frame can be sent to the communication unit corresponding to the received used communication unit specifying information (see FIG. 6). Arrow B3). The change completion notification is a control signal indicating that the change of the frame transmission destination has been completed.

  When the line distribution management unit 50 receives the change completion notification from the line distribution unit 20, the line distribution management unit 50 determines the received change completion notification and the communication stop communication unit specifying information for specifying the selected communication unit 10b. The data is sent to the unit 30 (arrow B4 in FIG. 6). When the threshold determination unit 30 receives the change completion notification and the communication stop communication unit identification information from the line distribution management unit 50, the threshold determination unit 30 sends a communication unit decrease instruction and communication stop communication unit identification information to the line control management unit 40 ( Arrow B5 in FIG.

  When the line control management unit 40 receives the communication unit decrease instruction and the communication stop communication unit specifying information from the threshold determination unit 30, the line control management unit 40 instructs the communication unit (that is, the communication unit 10b) specified by the communication stop communication unit specifying information to stop communication. (Step 255 in FIG. 2, arrow B6 in FIG. 6). Next, the communication unit 10b receives a communication stop instruction. Thereby, the communication unit 10b changes a state from a communication state to a standby state.

  As described above, according to the first embodiment of the communication device according to the present invention, the parameter (based on the amount of information communicated within the acquisition time between the communication units 10a, 10b, 10c and the output-side external device ( When the communication band is relatively small, the communication device 1 changes the state of the communication unit in the communication state to the standby state. By the way, the communication unit in the communication state consumes electric power for performing communication with the output-side external device. Therefore, the amount of power (power consumption) consumed by the communication unit in the standby state is smaller than the power consumption of the communication unit in the communication state. That is, according to the above configuration, it is possible to reduce the power consumption compared to the case where the state of the communication unit is maintained in the communication state.

  Furthermore, according to the first embodiment, even when the state of the communication unit is set to a state in which communication with the output-side external device is not performed, the communication unit continues to operate. Therefore, the state of this communication unit can be quickly changed to the communication state as necessary. That is, according to the above configuration, the amount of power consumption can be reduced, and the number of communication units that are in a state of performing communication with the output-side external device can be rapidly increased.

  In addition, according to the first embodiment, when the parameter is relatively large, the number of communication units in a state of performing communication with the output-side external device can be increased. As a result, it is possible to prevent the communication band (communication speed) between the communication device 1 and the output-side external device from decreasing.

<Second Embodiment>
Next, a communication device according to a second embodiment of the present invention will be described with reference to FIG.
The communication device 100 according to the second embodiment includes a plurality of communication units 101, 102,... That operate by consuming electric power and that are communicably connected to an external device.

  The communication device 100 is configured to be able to communicate with the external device via a plurality of communication units 101, 102,... By performing link aggregation.

  Each of the communication units 101, 102,... Is in a state in which the communication unit is in operation and in a state in which communication is performed with the external device, and a state in which the communication unit is in operation. And it is comprised so that a state may switch to the standby state which is a state which does not communicate between the said external devices.

Furthermore, the communication apparatus 100 includes an acquisition unit (acquisition unit) 110 and a control unit (control unit) 120.
The acquisition unit 110 acquires the amount of information communicated between the communication units 101, 102,... And the external device within a preset acquisition time.
When the parameter based on the information amount acquired by the acquisition unit 110 is smaller than the first threshold set in advance, the control unit 120 changes the state of the communication unit in the communication state to the standby state.

  According to this, when the parameter based on the amount of information communicated between the communication units 101, 102,... And the external device within the acquisition time is relatively small, the communication device 100 is in the state of the communication unit in the communication state. Is changed to the standby state. By the way, the communication unit in the communication state consumes power for performing communication with the external device. Therefore, the amount of power (power consumption) consumed by the communication unit in the standby state is smaller than the power consumption of the communication unit in the communication state. That is, according to the above configuration, it is possible to reduce the power consumption compared to the case where the state of the communication unit is maintained in the communication state.

  Furthermore, according to the second embodiment, even when the state of the communication unit is set to a state where communication with the external device is not performed, the communication unit continues to operate. Therefore, the state of this communication unit can be quickly changed to the communication state as necessary. That is, according to the above configuration, the amount of power consumption can be reduced, and the number of communication units in a state of performing communication with an external device can be rapidly increased.

  In this case, the control means is configured to change the state of the communication unit in the standby state to the communication state when the parameter is larger than a second threshold value that is larger than the first threshold value. Is preferable.

  According to this, when the said parameter is comparatively large, the number of the communication units in the state which communicates with an external device can be increased. As a result, it is possible to prevent the communication band (communication speed) between the communication device and the external device from decreasing.

  In this case, it is preferable that the parameter is a communication band obtained by dividing the acquired amount of information for each of the plurality of communication units by the acquisition time.

  In another aspect of the communication apparatus, the parameter is preferably a sum of communication bands obtained by dividing the acquired amount of information for each of the plurality of communication units by the acquisition time.

  In this case, it is preferable that the acquisition unit is configured to acquire, as the information amount, a value obtained by integrating data sizes of frames communicated with the external device within the acquisition time.

In addition, a communication method according to another aspect of the present invention includes:
It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and is in a state in which the communication unit is in operation and the external device. This is applied to a communication device configured to switch between a standby state where no communication is performed between the standby state and the standby state.

Furthermore, the communication method is
Obtaining an amount of information communicated within a preset acquisition time between the communication unit and the external device;
When the parameter based on the acquired information amount is smaller than a preset first threshold, the state of the communication unit in the communication state is changed to the standby state.

In this case, the communication method is
When the parameter is larger than a second threshold value that is larger than the first threshold value, it is preferable that the state of the communication unit in the standby state is changed to the communication state.

Moreover, the program which is the other form of this invention is:
It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and is in a state in which the communication unit is in operation and the external device. A communication device configured to switch between a standby state in which communication is not performed between
An acquisition means for acquiring an amount of information communicated within a preset acquisition time between the communication unit and the external device;
Control means for changing the state of the communication unit in the communication state to the standby state when the parameter based on the acquired amount of information is smaller than a preset first threshold;
It is a program for realizing.

  In this case, the control means is configured to change the state of the communication unit in the standby state to the communication state when the parameter is larger than a second threshold value that is larger than the first threshold value. Is preferable.

  Even in the invention of the communication method or program having the above-described configuration, the above-described object of the present invention can be achieved in order to have the same operation as the above-described communication device.

  Although the present invention has been described with reference to the above embodiment, the present invention is not limited to the above-described embodiment. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

  For example, in the first embodiment, the communication device 1 acquires the amount of information acquired for each of the plurality of communication units 10a, 10b, and 10c (a value obtained by integrating the data sizes of frames communicated within the acquisition time). Is used as a parameter in the communication band divided by the acquisition time. By the way, in the modification of the first embodiment, the communication device 1 uses, as a parameter, the sum of communication bands obtained by dividing the amount of information acquired for each of the plurality of communication units 10a, 10b, and 10c by the acquisition time. It may be configured to be used.

  In the first embodiment, the case where the communication device 1 transmits data to the external device via the plurality of communication units 10a, 10b, and 10c has been described. However, the communication device 1 includes the plurality of communication units 10a and 10b. , 10c, the case of receiving data from an external device will be described similarly.

  In the first embodiment, the data communicated between the communication device 1 and the external device is data called a frame, but may be data called a packet or a segment.

  In the above embodiment, each function of the communication device 1 is realized by hardware such as a circuit. By the way, the communication device 1 may include a processing device and a storage device that stores a program (software), and the processing device may be configured to implement each function by executing the program. .

  In addition, as another modified example of the above-described embodiment, any combination of the above-described embodiments and modified examples may be employed.

  The present invention is applicable to a communication device or the like including a plurality of communication units that are communicably connected to an external device via a communication line.

DESCRIPTION OF SYMBOLS 1 Communication apparatus 10a, 10b, 10c Communication unit 11 Output control part 12 Counting part 13 Statistical processing part 20 Line distribution part 30 Threshold judgment part 40 Line control management part 50 Line distribution management part 100 Communication apparatus 101,102, ... Communication Unit 110 Acquisition unit 120 Control unit IL Communication line OL1, OL2, OL3 Communication line

Claims (9)

It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and in a state in which the communication unit is in operation and with the external device. Is configured to switch to a standby state in which communication is not performed between, and
An acquisition means for acquiring an amount of information communicated within a preset acquisition time between the communication unit and the external device;
Control means for changing the state of the communication unit in the communication state to the standby state when the parameter based on the acquired amount of information is smaller than a preset first threshold;
A communication device comprising: The communication device according to claim 1,
The control device is configured to change the state of the communication unit in the standby state to the communication state when the parameter is larger than a second threshold value that is larger than the first threshold value. . The communication device according to claim 1 or 2,
The communication device, wherein the parameter is a communication band obtained by dividing the acquired amount of information by the acquisition time for each of the plurality of communication units. The communication device according to claim 1 or 2,
The communication device, wherein the parameter is a sum of communication bands obtained by dividing the acquired amount of information by the acquisition time for each of the plurality of communication units. The communication device according to any one of claims 1 to 4,
The communication device configured to acquire, as the information amount, a value obtained by integrating data sizes of frames communicated with the external device within the acquisition time. It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and in a state in which the communication unit is in operation and with the external device. Applied to a communication device configured to switch between a standby state where communication is not performed between and a state,
Obtaining an amount of information communicated within a preset acquisition time between the communication unit and the external device;
The communication method of changing the state of the communication unit in the communication state to the standby state when a parameter based on the acquired information amount is smaller than a first threshold set in advance. The communication method according to claim 6, comprising:
The communication method of changing the state of the communication unit in the standby state to the communication state when the parameter is larger than a second threshold value that is larger than the first threshold value. It is equipped with a plurality of communication units that operate by consuming electric power and that are communicably connected to an external device.
By performing link aggregation, it is configured to be able to communicate with the external device via the plurality of communication units,
The communication unit is in a state in which the communication unit is in operation and is in a state in which communication is performed with the external device, and in a state in which the communication unit is in operation and with the external device. A communication device configured to switch between a standby state in which communication is not performed between
An acquisition means for acquiring an amount of information communicated within a preset acquisition time between the communication unit and the external device;
Control means for changing the state of the communication unit in the communication state to the standby state when the parameter based on the acquired amount of information is smaller than a preset first threshold;
A program to realize The program according to claim 8, wherein
The control means is a program configured to change the state of the communication unit in the standby state to the communication state when the parameter is larger than a second threshold value that is larger than the first threshold value.

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