JP2014078880A - Communication controller, communication control method and communication control program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication controller for controlling a communication device to perform smooth relay of communication in a wide communication band.SOLUTION: A communication controller including interfaces of a plurality of lines connected to a network includes: line detection means which detects the individual lines usable for connection with the network; line speed detection means for detecting communication speed of the detected lines for the detected lines; communication speed storage means with which a terminal making communication with the network by relaying by the communication device and the communication device store all connection speeds being mutually communicable communication speed; line selecting means for selecting a line whose line speed is the highest in lines whose detected usable line speed is a maximum value of the connection speed or less; and instruction means which transmits an identifier of the selected line and the lowest connection speed, which is the line speed of the selected line or more to the communication device which receives the identifier of the line, is connected to the network with the line corresponding to the identifier, receives the connection speed and is connected to the terminal.

Description

  The present invention relates to a communication control device, a communication control method, and a communication control program.

  When the communication apparatus mediates communication between the information processing apparatus and the network, the communication speed between the communication apparatus and the information processing apparatus and the communication speed between the communication apparatus and the network are not necessarily the same.

  If the difference between these communication speeds is large, smooth communication may not be performed due to, for example, data retention or buffer overflow in the communication device during data transfer from a higher communication speed to a slower communication speed. There is a problem of having sex.

  A technique for reducing the above-described difference in communication speed is described in Patent Document 1.

  Patent Literature 1 describes a communication mediating apparatus that mediates communication between an external device connected by any of a plurality of types of interfaces and a network connected wirelessly via a base station. The communication mediating apparatus of Patent Literature 1 connects to an external device through an interface instructed by a user. The communication mediating apparatus confirms the communication speed with the external device. The communication mediating apparatus selects a communication speed closest to the confirmed communication speed with the external device from among a plurality of communication speeds usable with the base station. The communication mediating apparatus sets the communication speed with the base station to the selected communication speed.

  Patent Document 2 describes an information processing apparatus that determines a network used for communication with a wireless AV (Audio Visual) station based on a communication speed and availability. When both a wired network and a wireless network can be used, the information processing apparatus disclosed in Patent Literature 2 determines to use a network with a high communication speed. In addition, when any one of these networks cannot be used, the information processing apparatus determines to use the network that can be used. The information processing apparatus controls the bit rate of data transmitted from the wireless AV station according to the determined network.

JP 2009-027360 A JP 2004-222044 A

  The technique of Patent Document 1 sets the communication speed between the communication mediation apparatus and the base station to a speed equal to or lower than the maximum speed in accordance with the interface designated for communication between the communication mediation apparatus and the external device. This is a technology that enables smooth mediation of communication.

  The technology of Patent Document 1 cannot use a communication band when relaying communication, even if an interface that can secure a communication band wider than the communication band of a specified interface is available.

  The technique of Patent Document 2 cannot smoothly relay communication.

  An object of the present invention is to provide a communication control device that controls a communication device to smoothly relay communication in a wide communication band.

  The communication control apparatus according to the present invention includes a line detection unit that detects each of the lines that can be used for connection to the network in a communication apparatus that includes a plurality of line interfaces connected to the network, and the detected line For each of the above, a line speed detecting means for detecting a line speed that is a line speed of the line, a terminal that communicates with the network through relaying by the communication apparatus, and the communication apparatus at a communication speed at which communication is possible. Communication speed storage means for storing all of the connection speeds, and among the detected usable lines, the line speed is the fastest among the lines whose speed is equal to or less than the maximum value of the connection speed. A line selection means for selecting the line; and an identifier of the line is received, the line corresponding to the identifier is connected to the network, and the connection speed is received. To the communication device connected to the terminal in the connection speed, it comprises the identifier of the lines that are selected at the line speed over the lines that are selected, and an instruction means for transmitting the slowest the connection speed.

  The communication control method of the present invention detects each of the lines that can be used for connection to the network in a communication apparatus having a plurality of line interfaces connected to the network, and detects each of the detected lines. The communication speed of the communication line is detected, and the terminal that communicates with the network by relaying by the communication apparatus and the communication apparatus store all the connection speeds that are communication speeds capable of communicating with each other. In the lines that are stored and detected in the usable line and the line speed is equal to or lower than the maximum value of the connection speed, the line having the fastest line speed is selected, and the line Select the communication device that receives an identifier, connects to the network via the line corresponding to the identifier, receives the connection speed, and connects to the terminal at the connection speed An identifier of the lines that, above the line speed of the lines that are selected, including sending the slowest the connection speed.

  A communication control program according to the present invention includes: a line detection unit configured to detect each of the lines usable for connection to the network in a communication apparatus having a plurality of line interfaces for connecting a computer to the network; In addition, for each of the lines, a line speed detecting unit that detects a line speed that is a communication speed of the line, a terminal that communicates with the network by relay by the communication apparatus, and the communication apparatus can communicate with each other. Communication speed storage means for storing all connection speeds that are communication speeds, and among the detected usable lines, the line speed is the line speed among the lines that are equal to or less than the maximum value of the connection speed. A line selecting means for selecting the fastest line, and receiving the identifier of the line and connecting to the network through the line corresponding to the identifier , Receiving the connection speed and transmitting the slowest connection speed that is equal to or higher than the selected line identifier and the selected line speed to the communication device connected to the terminal at the connection speed. Operate as instruction means.

  The present invention has an effect that the communication device can smoothly relay communication in a wide communication band.

FIG. 1 is a block diagram illustrating a configuration of a communication system 100 according to the first embodiment. FIG. 2 is a flowchart showing the operation of the communication control device 1 when the connection of the terminal 3 to the communication device 2 is detected. FIG. 3 is a flowchart showing a second operation of the communication control device 1 when the connection of the terminal 3 to the communication device 2 is detected. FIG. 4 is an example of pulses transmitted from the interface to the communication cable during idle when the communication speed is 10 Mbps. FIG. 5 is an example of pulses transmitted from the interface to the communication cable during idle when the communication speed is 100 Mbps. FIG. 6 is a block diagram illustrating the configuration of the communication control apparatus 1A according to the second embodiment. FIG. 7 is an example of communication speed, communication mode, and priority stored in the communication speed storage unit 12.

  Next, a first embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram illustrating a configuration of a communication system 100 according to the present embodiment.

  The communication system 100 includes a communication control device 1 and a communication device 2.

  A terminal 3 is connected to the communication device 2. The communication device 2 is connected to the network 4. The communication device 2 relays communication between the terminal 3 and the network 4. In FIG. 1, the communication control device 1 and the communication device 2 are depicted as separate devices, but the communication control device 1 and the communication device 2 may be the same device. In that case, for example, the communication device 2 may include the communication control device 1.

  The communication control device 1 includes a line detection unit 10, a line speed detection unit 11, a communication speed storage unit 12, a line selection unit 13, an instruction unit 14, and a communication speed acquisition unit 15.

  The communication device 2 includes a relay control unit 20, a first interface unit 21, and a second interface unit 22.

  The first interface unit 21 is connected to the network 4 by a plurality of lines. The first interface unit 21 transmits and receives data to and from the network 4 via any line.

  The first interface unit 21 is not always connected to the network 4 by all lines. The first interface unit 21 only needs to be connected to the network 4 by any one or a plurality of lines that can be used according to the installation location, wiring, and the like of the communication device 2. These lines are communication lines that can perform communication according to any one of wired communication standards or wireless communication standards. The first interface unit 21 may be configured by a plurality of physical interfaces that perform communication according to one or more communication standards.

  Lines include, for example, dial-up connected telephone lines, ADSL (Asymmetric Digital Subscriber Line) lines, optical fibers, wired LAN (Local Area Network) lines, wireless LAN lines, 3G (3rd Generation) systems, and 4G (4th). Generation) type mobile communication line. The line may be a line of another method as long as it can communicate.

  The second interface unit 22 is connected to the terminal 3 and transmits / receives data to / from the terminal 3. The second interface unit 22 is an interface capable of performing communication according to any one of a wired communication standard or a wireless communication standard. The second interface unit 22 may be configured by a plurality of physical interfaces that perform communication according to one or a plurality of communication standards. The second interface unit 22 only needs to be able to communicate at a plurality of communication speeds.

  The relay control unit 20 relays data transmitted and received between the first interface unit 21 and the second interface unit 22. Further, the relay control unit 20 detects a usable line among the lines to which the first interface unit 21 is connected. The relay control unit 20 transmits the detected line identifier to the communication control apparatus 1. The relay control unit 20 detects a line speed that is a line communication speed for each usable line. The relay control unit 20 transmits the detected line speed to the communication control device 1. The line speed is, for example, the link speed of the line. The line speed may be an effective line speed measured by an existing arbitrary method such as measurement of the transfer time of measurement data. When the line speed is the effective line speed, the relay control unit 20 is connected to the network 4 via the first interface unit 21 via the line for which the communication speed is detected, and communicates via the line. It is sufficient to measure the effective speed of The relay control unit 20 connects to the network 4 through a line instructed to the communication control device 1 to connect to the network 4. The relay control unit 20 disconnects the line connected to the network 4 according to an instruction from the communication control device 1.

  The relay control unit 20 further detects whether the terminal 3 is connected to the second interface unit 22. When the relay control unit 20 detects that the terminal 3 is connected to the second interface unit 22, for example, by auto-negotiation, the communication speed and the total speed in communication between the second interface unit 22 and the terminal 3 are determined. Determine the communication mode such as duplex or half duplex. At that time, the relay control unit 20 acquires from the terminal 3 each combination of a communication speed and a communication mode with which the terminal 3 can perform communication via the second interface unit 22. Further, the relay control unit 20 connects to the terminal 3 at a communication speed instructed to the communication control device 1. At that time, the relay control unit 20 may connect to the terminal 3 by, for example, auto-negotiation in which the communication speed instructed to the communication control device 1 is set to the maximum speed. When the communication control apparatus 1 receives the communication speed instruction and is already connected to the terminal 3, the relay control unit 20 may first disconnect the connection with the terminal 3. And the relay control part 20 should just connect with the terminal 3 again by the auto negotiation which made the communication speed instruct | indicated in the communication control apparatus 1 the maximum speed, for example. The relay control unit 20 may set or change the communication speed with the terminal 3 regardless of auto-negotiation.

  The line detection unit 10 detects a line that the communication device 2 can use for communication with the network 4. For example, the line detection unit 10 acquires a usable line identifier from the relay control unit 20 of the communication apparatus 2 to detect a line that the communication apparatus 2 can use for communication with the network 4. Good.

  The line speed detection unit 11 detects the communication speed of each line where it is detected that the communication apparatus 2 can be used for communication with the network 4. The line speed detection unit 11 may acquire the communication speed of each line detected that the communication device 2 can be used for communication with the network 4 from the relay control unit 20 of the communication device 2.

  The communication speed acquisition unit 15 detects whether the terminal 3 is connected to the communication device 2. When it is detected that the terminal 3 is connected to the communication device 2, the communication speed acquisition unit 15 acquires the communication speed at which the communication device 2 and the terminal 3 can communicate with each other from the communication device 2. Specifically, the communication speed acquisition unit 15 can communicate with the communication device 2 via each of the communication speeds with which the terminal 3 can communicate, and the second interface unit 22 that is an interface to which the terminal 3 is connected. Each communication speed is acquired from the communication device 2. Then, the communication speed acquisition unit 15 extracts each of the connection speeds, which are communication speeds at which the communication device 2 and the terminal 3 can communicate with each other. The communication speed acquisition unit 15 stores the extracted connection speed in the communication speed storage unit 12.

  The communication speed storage unit 12 stores each of the connection speeds, which are communication speeds at which the communication device 2 and the terminal 3 connected to the communication device 2 can communicate with each other. These connection speeds are connection speeds extracted by the communication speed acquisition unit 15. When the terminal 3 to be connected is known, these connection speeds may be connection speeds stored in the communication speed storage unit 12 in advance by the designer of the communication system 100, for example.

  The line selection unit 13 selects the line with the fastest line speed among the detected usable lines among the lines whose line speed is equal to or less than the maximum connection speed stored in the communication speed storage unit 12. To do.

  The instruction unit 14 transmits an instruction to connect to the network 4 through the selected line to the communication device 2. In addition, the instruction unit 14 transmits to the communication device 2 an instruction to connect the terminal 3 at the slowest connection speed that is equal to or higher than the line speed of the selected line.

  In general, in communication between the terminal 3 and the network 4, the data received by the terminal 3 from the network 4 is often more than the data transmitted from the terminal 3 to the network 4. If the data transmitted from the terminal 3 to the network 4 is larger than the data transmitted in the reverse direction, the communication speed between the terminal 3 and the communication device 2 is slower than the communication speed between the communication device 2 and the network 4. It is considered that the buffer of the device 2 is likely to overflow. In this case, data transmitted / received between the terminal 3 and the network 4 is faster when the communication speed between the terminal 3 and the communication device 2 is faster than the communication speed between the communication device 2 and the network 4. Therefore, it is considered that the buffer of the communication device 2 is unlikely to overflow. Accordingly, among the detected usable lines, the line speed is the fastest among the lines whose line speed is equal to or lower than the maximum connection speed stored in the communication speed storage unit 12. By selecting, communication in a wide communication band becomes possible. This also enables smooth communication at least from the network 4 to the terminal 3.

  Furthermore, if the communication speed between the terminal 3 and the communication device 2 is set to a speed close to the communication speed between the communication device 2 and the network 4, the data transmitted from the terminal 3 to the network 4 overflows the buffer of the communication device 2. The possibility is also reduced. Therefore, in the communication device 2, smooth communication is possible in both directions between the terminal 3 and the network 4. Therefore, the instruction unit 14 transmits an instruction to connect the terminal 3 at the slowest connection speed that is equal to or higher than the line speed of the selected line to the communication device 2, so that the bidirectional communication between the terminal 3 and the network 4 is performed. Smoother communication becomes possible.

  Next, the operation of the communication control apparatus 1 of the present embodiment will be described in detail with reference to the drawings.

  FIG. 2 is a flowchart showing the operation of the communication control device 1 when the connection of the terminal 3 to the communication device 2 is detected.

  Referring to FIG. 2, the communication speed acquisition unit 15 detects whether or not the terminal 3 is connected to the communication device 2 (step S1). The communication speed acquisition unit 15 waits until the terminal 3 is connected to the communication device 2 (step S1, N).

  When it is detected that the terminal 3 is connected to the communication device 2 (step S1, Y), the communication speed acquisition unit 15 determines the communication speed at which the communication device 2 and the terminal 3 can communicate with each other. (Step S2).

  The communication speed acquisition unit 15 can communicate with each combination of the communication speed and the communication mode with which the second interface unit 22 of the communication device 2 can communicate, and the communication speed and communication with which the terminal 3 can communicate. Each mode combination may be acquired from the communication device 2. The communication speed acquisition unit 15 may further acquire a priority for each combination.

  The communication speed acquisition unit 15 extracts all communication speeds at which the terminal 3 and the communication device 2 can communicate with each other from the acquired communication speed (step S3).

  The communication device 2 and the terminal 3 are set so that the second interface unit 22 and an interface (not shown) connected to the communication device 2 of the terminal 3 communicate with each other at the same communication speed and the same communication mode. In some cases, they can communicate with each other. If the communication mode in which the interface of the second interface unit 22 and the interface of the terminal 3 can communicate with each other is the same and the same communication speed for both, the communication speed for both is set to be the same. The terminal 3 and the communication device 2 can communicate with each other. In this case, the communication speed at which the terminal 3 and the communication device 2 can communicate with each other is a communication speed at which the second interface unit 22 of the communication device 2 and the terminal 3 can communicate with each other. The communication speed acquisition unit 15 may extract all communication speeds at which both devices can communicate from the communication speed at which the second interface unit 22 of the communication device 2 can communicate and the communication speed at which the terminal 3 can communicate.

  If the communication mode in which the second interface unit 22 and the terminal 3 can communicate with each other is the communication speed at which both can communicate, and is not necessarily one type and the same, the communication speed and the communication mode are set to be the same on both sides. If so, the terminal 3 and the communication device 2 can communicate with each other. In this case, a combination of a communication speed and a communication mode at which the terminal 3 and the communication device 2 can communicate with each other is such that the communication speed acquisition unit 15 can communicate with both the terminal 3 and the second interface unit 22 of the communication device 2. It is a combination of speed and communication mode. The communication speed acquisition unit 15 may extract all combinations of communication speeds and communication modes in which both the terminal 3 and the second interface unit 22 of the communication device 2 can communicate. The communication speed acquisition unit 15 determines all combinations of communication speeds and communication modes in which the terminal 3 can communicate, and all combinations of communication speeds and communication modes in which the second interface unit 22 can communicate. Can be obtained from And the communication speed acquisition part 15 should just extract the combination of the communication speed and communication mode with which the terminal 3 and the 2nd interface part 22 of the communication apparatus 2 can communicate together from these acquired combinations.

  Further, the communication device 2 instead of the communication speed acquisition unit 15 may perform the above extraction process. In that case, the communication speed acquisition unit 15 may acquire the extracted communication speed, or the combination of the communication speed and the communication mode, from which the terminal 3 and the communication apparatus 2 can communicate with each other.

  The communication speed acquisition unit 15 stores the extracted communication speed in the communication speed storage unit 12 (step S4).

  The communication speed acquisition unit 15 may store each of the extracted communication speed and communication mode combinations in the communication speed storage unit 12. Further, the communication speed acquisition unit 15 may store the priority for each combination described above in the communication speed storage unit 12 in association with the combination.

  FIG. 7 is an example of communication speed, communication mode, and priority stored in the communication speed storage unit 12. As in this example, the communication mode may include a type of communication such as 10BASE-T or 100BASE-TX, for example.

  Note that any terminal 3 that may be connected to the communication device 2 may have the same communication speed and communication mode at which the terminal 3 can communicate. In such a case, for example, the designer of the communication system 100 may store the communication speed or a combination of the communication speed and the communication mode in the communication speed storage unit 12. In this case, the communication control device 1 does not need to perform the operation of FIG.

  FIG. 3 is a flowchart showing a second operation of the communication control device 1 when the connection of the terminal 3 to the communication device 2 is detected.

  The communication control device 1 performs the operation of FIG. 3 when, for example, a line that can be used by the communication device 2 changes. When the line that can be used by the communication device 2 changes, for example, the line that the communication device 2 was connected to the network 4 becomes unusable, or the line that could not be connected to the network 4 becomes connectable. Is the case. For example, a change in the line that can be used by the communication device 2 occurs due to a change in weather or a movement of a user holding the communication system 100 that is a mobile router. For example, the line detection unit 10 may detect a line that can be used by the communication apparatus 2 continuously (at step S10) or at predetermined intervals to detect a change in the line that can be used by the communication apparatus 2. And when the change of the line which can use the communication apparatus 2 is detected, the communication control apparatus 1 should just operate | move of step S11.

  Note that, for example, when it is detected that the terminal 3 is connected to the communication device 2, the communication control device 1 may perform the operation of FIG. 3 following the operation of FIG. 2. In that case, when the usable line and the line speed have already been detected and the usable line has not changed since the detection, the communication control device 1 continues to the operation of FIG. Subsequent operations may be performed.

  Referring to FIG. 3, first, the line detection unit 10 detects a line that can be used by the communication device 2 (step S10).

  As described above, the line detection unit 10 may perform the operation of step S10 in order to detect a change in the line that can be used by the communication device 2.

  Further, the line detection unit 10 may further detect a line connected to the network 4 by the communication device 2.

  Next, the line speed detection unit 11 detects the line speed that is the line communication speed for each of the detected lines that can be used by the communication device 2 (step S11).

  Note that the line speed detection unit 11 determines the higher communication speed when the communication speed in the direction from the communication device 2 to the network 4 and the communication speed in the direction from the network 4 to the communication device 2 are different. The line speed of the line may be set.

  Of the detected usable lines, the line selection unit 13 has a line speed equal to or less than the maximum value of the communication speeds stored in the communication speed storage unit 12 and capable of communicating with each other between the communication device 2 and the terminal 3. Identify a line. The line selection unit 13 further selects a line having the fastest line speed among the specified lines (step S12).

  For example, the communication speed at which the communication device 2 and the terminal 3 can communicate with each other is 10 Mbps (Mega bit per second) and 100 Mbps, and the usable line speed is 150 Mbps, 54 Mbps, 37.5 Mbps, and 11 Mbps. An example of the operation is as follows. The line selection unit 13 specifies a line of 54 Mbps, 37.5 Mbps, or 11 Mbps with a line speed of 100 Mbps or less, and selects a line with a line speed of 54 Mbps from them.

  The instructing unit 14 sets the slowest communication speed that is equal to or higher than the line speed of the selected line among the communication speeds stored in the communication speed storage unit 12 and capable of communication between the communication apparatus 2 and the terminal 3. And the communication speed between the terminal 3 and the terminal 3 (step S13).

  In the case of the above-described example, the instruction unit 14 determines 100 Mbps, which is the slowest communication speed of the communication apparatus 2 and the terminal 3, which is 54 Mbps or higher, which is the line speed of the selected line, as the communication speed.

  The instruction unit 14 transmits an instruction to connect to the network 4 through the selected line to the communication device 2 (step S14).

  The instruction to be transmitted to the communication apparatus 2 by the instructing unit 14 to connect to the network 4 with the selected line may be information including the identifier of the selected line or the identifier of the selected line. When one line can communicate at a plurality of line speeds, the identifier may be a combination of information specifying the line and the line speed.

  In the above example, the instruction unit 14 transmits the line identifier of 54 Mbps to the communication device 2.

  The communication device 2 that has received the identifier of the selected line connects to the network 4 via the line. And the communication apparatus 2 transmits / receives the data of the communication between the terminal 3 and the network 4 via the selected line | wire.

  When the communication apparatus 2 and the network 4 are connected by a line other than the selected line, the communication apparatus 2 that has received the identifier of the selected line disconnects the connected line and the network is selected by the selected line. 4 may be reconnected.

  Further, the instruction unit 14 transmits an instruction to set the communication speed between the terminal 3 and the communication device 2 to the determined communication speed to the communication device 2 (step S15).

  The instruction to set the communication speed between the terminal 3 and the communication device 2 to the determined communication speed may be information including the determined communication speed or a value of the determined communication speed. When the communication speed storage unit 12 stores a combination of a communication speed and a communication mode, the instruction unit 14 may further transmit a communication mode combined with the determined communication speed. If there are a plurality of combinations of communication speeds and communication modes including the same communication speed, the instruction unit 14 transmits the communication speed and communication mode of the highest associated priority to the communication device 2. Good.

  In the above example, the instruction unit 14 transmits data representing 100 Mbps to the communication device 2.

  The communication device 2 that has received the determined communication speed sets the communication speed with the terminal 3 to the received communication speed, for example, by auto-negotiation in which the received communication speed is set to the maximum speed. The method for setting the communication speed between the communication device 2 and the terminal 3 may be another existing method. When the communication device 2 receives the communication mode in addition to the communication speed, the communication device 2 may set the communication speed and communication mode with the terminal 3 to the received communication speed and communication mode.

  When the communication device 2 and the terminal 3 are already connected, the communication device 2 may change the communication speed. In that case, for example, the communication device 2 may disconnect the connection once and connect to the terminal 3 again at the received communication speed. The communication device 2 may change the communication speed by another existing method.

  The embodiment described above has an effect that the communication device 2 can smoothly relay communication in a wide communication band.

  The reason is that, among the usable lines detected by the line selection unit 13, the line speed is stored in the communication speed storage unit 12, and the maximum communication speed at which the communication device 2 and the terminal 3 can communicate with each other is the maximum. This is because a line that is less than or equal to the value is selected. Then, the instruction unit 14 transmits an instruction to connect to the network 4 through the selected line to the communication device 2. Thus, the communication device 2 can smoothly relay communication in a wide communication band. In addition, the instruction unit 14 communicates the slowest communication speed that is equal to or higher than the line speed of the selected line among the communication speeds stored in the communication speed storage unit 12 and capable of communication between the communication device 2 and the terminal 3. The communication speed between the device 2 and the terminal 3 is determined. Then, the instruction unit 14 transmits to the communication device 2 an instruction to set the communication speed between the terminal 3 and the communication device 2 to the determined communication speed. As a result, the communication device 2 can perform smoother relaying of communication.

  This embodiment further has an effect of reducing the power consumption of the communication device 2.

The reason is that the instruction unit 14 selects the slowest communication speed stored in the communication speed storage unit 12 that is equal to or higher than the line speed of the selected line among the communication speeds at which the communication device 2 and the terminal 3 can communicate with each other. This is because the communication speed between the communication device 2 and the terminal 3 is determined. Then, the instruction unit 14 transmits to the communication device 2 an instruction to set the communication speed between the terminal 3 and the communication device 2 to the determined communication speed. As a result, the communication device 2
When the communication speed between the terminal 3 and the communication device 2 is significantly higher than the communication speed between the network 4 and the communication device 2, in communication between the terminal 3 and the network 4 via the communication device 2, the terminal 3 and the communication device Most of the communication bandwidth between the two is not used. However, in general, when a communication interface can communicate at a plurality of communication speeds, power consumption at the interface increases as the communication speed increases even in an idle state where communication is not performed.

  FIG. 4 and FIG. 5 are examples of pulses that the interface transmits to the communication cable at idle when the communication speed is 10 Mbps and when the communication speed is 100 Mbps, respectively. Even when the communication interface is idle, the higher the communication speed, the higher the frequency of pulses. And the higher the communication speed, the greater the power consumption at the interface.

  That is, when the difference between the communication speed between the terminal 3 and the communication device 2 and the communication speed between the network 4 and the communication device 2 is large, the second interface unit 22 connected to the terminal 3 has a smaller difference than when the difference is small. A large amount of power is consumed due to the unused communication band. However, the instruction unit 14 transmits an instruction to set the communication speed between the terminal 3 and the communication device 2 to the communication speed determined as described above, so that the communication between the terminal 3 and the network 4 is performed. The power consumption can be reduced without reducing the communication bandwidth in communication. That is, power consumption for communication bands that are not used is reduced.

  Next, a second embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 6 is a diagram illustrating the configuration of the communication control apparatus 1A according to the present embodiment.

  Referring to FIG. 6, the communication control apparatus 1 </ b> A according to the present embodiment detects each of the lines that can be used for connection to the network 4 of the communication apparatus 2 having a plurality of line interfaces connected to the network 4. A line speed detecting unit 10 that detects the line speed that is a communication speed of the line, and a communication by the communication device 2 to communicate with the network 4. The communication speed storage unit 12 stores all of the connection speeds that are communication speeds at which the terminal 3 and the communication device 2 can communicate with each other, and among the detected usable lines, the line speed is the connection speed. The line selection unit 13 that selects the line having the fastest line speed among the lines that is equal to or less than the maximum value of the line, and the circuit that receives the identifier of the line and that corresponds to the identifier. The communication device 2 connected to the network 4, receives the connection speed, and connects to the terminal 3 at the connection speed is sent to the selected line identifier and at least the line speed of the selected line. And an instruction unit 14 for transmitting the slowest connection speed.

  The present embodiment described above has the same effect as the first embodiment.

  The communication control device 1, the communication control device 1A, and the communication device 2 are each realized by a computer and a program for controlling the computer, dedicated hardware, or a combination of a program for controlling the computer and the computer and dedicated hardware. Can do.

  The line detection unit 10, the line speed detection unit 11, the line selection unit 13, the instruction unit 14, the communication speed acquisition unit 15, the relay control unit 20, the first interface unit 21, and the second interface unit 22, for example, It can be realized by a dedicated program for realizing the function of each unit read from a recording medium to be stored into the memory and a processor that executes the program. The communication speed storage unit 12 can be realized by a memory or a hard disk device included in the computer. Alternatively, the line detection unit 10, the line speed detection unit 11, the communication speed storage unit 12, the line selection unit 13, the instruction unit 14, the communication speed acquisition unit 15, the relay control unit 20, the first interface unit 21, and the second interface Part or all of the unit 22 may be realized by a dedicated circuit that implements the function of each unit.

  The present invention has been described above with reference to the embodiments, but the present invention is not limited to the above embodiments. 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.

DESCRIPTION OF SYMBOLS 1, 1A Communication control apparatus 2 Communication apparatus 3 Terminal 4 Network 10 Line detection part 11 Line speed detection part 12 Communication speed memory | storage part 13 Line selection part 14 Instruction part 15 Communication speed acquisition part 20 Relay control part 21 1st interface part 22 Second interface unit 100 Communication system

Claims (7)

A line detecting means for detecting each of the lines that can be used for connection to the network, of a communication device having a plurality of line interfaces connected to the network;
For each of the detected lines, a line speed detecting means for detecting a line speed that is a communication speed of the line;
A communication speed storage means for storing all of the connection speeds, which are communication speeds at which the terminal and the communication apparatus communicate with the network by relay by the communication apparatus can communicate with each other;
Of the detected usable lines, line selection means for selecting the line with the fastest line speed among the lines whose line speed is equal to or less than the maximum value of the connection speed;
Receiving the line identifier and connecting to the network via the line corresponding to the identifier; receiving the connection speed and connecting to the terminal at the connection speed; and the selected line identifier; An instruction means for transmitting the slowest connection speed that is equal to or higher than the line speed of the selected line. When the terminal is connected, the communication device acquires each of the communication speeds with which the terminal can communicate, from the communication device, through all the communication speeds with which the terminal can communicate, and the interface to which the terminal is connected Acquires all the communication speeds at which communication is possible, extracts all the communication speeds at which the terminal and the communication device can communicate together, and stores each of the extracted communication speeds as the connection speed in the communication speed storage means The communication control apparatus according to claim 1, further comprising:   A communication system including the communication device and the communication control device according to claim 1. Detecting each of the lines that can be used for connection to the network of a communication device having a plurality of line interfaces connected to the network;
For each of the detected lines, a line speed that is the communication speed of the line is detected,
A terminal that communicates with the network by relay by the communication apparatus and the communication apparatus store all of connection speeds that are communication speeds capable of communicating with each other in a communication speed storage unit,
Among the detected usable lines, the line speed of the line speed that is not more than the maximum value of the connection speed is selected, and the line speed is the fastest.
Receiving the line identifier and connecting to the network via the line corresponding to the identifier; receiving the connection speed and connecting to the terminal at the connection speed; and the selected line identifier; A communication control method including: transmitting the slowest connection speed that is equal to or higher than the line speed of the selected line. When the terminal is connected, the communication device acquires each of the communication speeds with which the terminal can communicate, from the communication device, through all the communication speeds with which the terminal can communicate, and the interface to which the terminal is connected Acquires all the communication speeds at which communication is possible, extracts all the communication speeds at which the terminal and the communication device can communicate together, and stores each of the extracted communication speeds as the connection speed in the communication speed storage means The communication control method according to claim 4. Computer
A line detecting means for detecting each of the lines that can be used for connection to the network, of a communication device having a plurality of line interfaces connected to the network;
For each of the detected lines, a line speed detecting means for detecting a line speed that is a communication speed of the line;
A communication speed storage means for storing all of the connection speeds, which are communication speeds at which the terminal and the communication apparatus communicate with the network by relay by the communication apparatus can communicate with each other;
Of the detected usable lines, line selection means for selecting the line with the fastest line speed among the lines whose line speed is equal to or less than the maximum value of the connection speed;
Receiving the line identifier and connecting to the network via the line corresponding to the identifier; receiving the connection speed and connecting to the terminal at the connection speed; and the selected line identifier; A communication control program that operates as instruction means for transmitting the slowest connection speed that is equal to or higher than the line speed of the selected line. Computer
When the terminal is connected, the communication device acquires each of the communication speeds with which the terminal can communicate, from the communication device, through all the communication speeds with which the terminal can communicate, and the interface to which the terminal is connected Acquires all the communication speeds at which communication is possible, extracts all the communication speeds at which the terminal and the communication device can communicate together, and stores each of the extracted communication speeds as the connection speed in the communication speed storage means The communication control program according to claim 6, wherein the communication control program is operated as communication speed acquisition means.

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