JP2015056843A - Communication connection system, communication connection program, communication connection method and lan connection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication connection system which can easily achieve LAN connection under an authentication filtering environment and to provide a communication connection program, a communication connection method and a LAN connection device.SOLUTION: A communication connection system 100 includes: a PC 200 having a MAC address of a MAC address filter; and a USBNIC 400 having the MAC address. When the USBNIC 400 is connected to the PC 200, application software 800 exchanges and sets the MAC address in the PC 200 and the MAC address of the USBNIC 400.

Description

  The present invention relates to a communication connection system, a communication connection program, a communication connection method, and a LAN connection device.

  Conventionally, a computer is connected to a LAN (Local Area Network) using a NIC (Network Interface Card, Network Interface Card).

  For example, in Patent Document 1 (Japanese Patent Laid-Open No. 2009-212617), when the communication method at the data link level of the real network is Ethernet (registered trademark), the MAC address of the real NIC and the MAC address of the virtual NIC are the same. Automate the process. When the real network is not Ethernet, the data link communication of the real network is converted into communication by Ethernet for the virtual NIC of the user VM. At this time, proxy ARP is performed for the virtual NIC of the user VM. For the IP address information for the virtual NIC of the user VM, the IP address information of the real network is reused. For communication from the virtual NIC of the user VM, the processing method is determined from the Ethernet frame and its payload. As for communication from a real network, a virtualization system that determines a processing method from an Ethernet frame or an IP packet is disclosed.

  In the virtualization system described in Patent Document 1, it is determined whether a real network connected via a network card that is a real NIC is direct Ethernet (registered trademark), and a virtual node that is a node opposite to the virtual NIC of the user VM The virtual node setting means for setting the network node, the MAC address of the network card is acquired according to the setting contents of the virtual node, the acquired MAC address is defined as the MAC address of the virtual NIC of the user VM, and the virtual NIC setting Virtual NIC setting means for performing the setting, and when the user VM is requested to change the MAC address of the virtual NIC, the real NIC setting means for changing the MAC address of the network card to the MAC address of the virtual NIC and setting the real NIC It comprises.

  Patent Document 2 (Japanese Patent Application Laid-Open No. 2004-129056) discloses a network device 110 connected to an existing network 10 and a device monitoring apparatus that can be easily installed between the network 10. 100 is disclosed.

  The device monitoring apparatus described in Patent Literature 2 is a device monitoring apparatus connected between a network and a network device to be connected to the network, and acquires communication settings related to the network of the network device. Means, first setting means for setting communication settings of the network device acquired by the communication setting acquisition means as network side communication settings, and communication settings between the network device and the device monitoring apparatus, Network device side communication setting means for setting as communication settings.

JP 2009-212617 A JP 2004-129056 A

  However, when a new LAN connection device is connected to a computer in an environment where access is restricted, such as authentication filtering, for example, MAC address filtering, it is necessary to perform various settings such as a MAC address for each. is there.

  For example, in an environment where access restrictions are imposed by MAC address filtering, a new LAN connection device is connected to a computer having a MAC address that is permitted to be accessed, and connection to the network is made via the LAN connection device. When performing the above, it is necessary to perform various settings so that the MAC address of the new LAN connection device is allowed access.

  An object of the present invention is to provide a communication connection system, a communication connection program, a communication connection method, and a LAN connection device that can easily perform a LAN connection in an authentication filtering environment.

(1)
A communication connection system according to an aspect includes a computer having a first code and a LAN connection device having a second code. When the computer is connected to the LAN connection device, the first code in the computer, It includes a replacement setting unit that replaces the two codes, confirms whether communication is possible, and sets the first code for communication as the code of the LAN connection device.

  A communication connection system according to the present invention includes a computer having a first code and a LAN connection device having a second code. Further, when the LAN connection device is connected to the computer, the replacement setting unit sets the first code and the second code in the computer to be switched.

In this case, since the first code can be replaced with the second code of the LAN connection device, if the first code is permitted to access the authentication filter, the LAN connection to the computer is possible even in an environment where the authentication filter is applied. The LAN connection device can be placed in the environment of the authentication filter simply by connecting the device and connecting the LAN cable connected to the computer to the LAN connection device.
In other words, even in the authentication filter environment, the LAN connection device can be easily used without re-setting the authentication filter.
The LAN connection device may be a USB-LAN converter, an access point, or any other device.

(2)
The communication connection system according to a second aspect of the present invention is the communication connection system according to one aspect, wherein the first code and the second code may be MAC addresses.

  In this case, even when a LAN connection device is used in an environment where MAC address filtering is already set, communication connection can be easily established.

(3)
In the communication connection system according to the third invention, in the communication connection system according to one aspect or the second invention, when the LAN connection device is disconnected from the computer, the second code and the first code in the computer are used. It is also possible to include an original setting unit that sets the original and the original.

  In this case, when the connection between the LAN connection device and the computer is released, the first code and the second code are automatically restored, so even if the connection with the LAN connection device is released. Since the first code is set in the computer, the communication connection environment can be used as it is.

(4)
In the communication connection system according to the fourth aspect of the present invention, the communication connection system according to one aspect or the second and third aspects of the present invention may include a notification unit that notifies the user of the setting status.

  In this case, the notification unit can notify the connection between the LAN connection device and the computer. In other words, the user can recognize that the LAN connection device and the computer are correctly connected and the communication environment is smoothly performed. On the other hand, it is possible to make the user recognize a defect in the communication environment.

(5)
In the communication connection system according to the fifth aspect of the present invention, in the communication connection system according to one aspect or the second to fourth aspects of the invention, the LAN connection device may be connected to the computer by wire or wirelessly.

In this case, the LAN connection device can be connected to the computer by wire or wirelessly. In the case of a wired connection, it can be connected by a USB connector or the like.
In the case of wireless, it can be freely connected within a predetermined distance.

(6)
In the communication connection system according to the sixth aspect of the present invention, in the communication connection system according to one aspect or the second to fifth aspects of the invention, the LAN connection device may detect the connection status with the computer in a predetermined period.

  In this case, since the LAN connection device detects the connection status in a predetermined period, even if an instantaneous connection release state occurs and the connection state is recovered, the communication environment can be continuously maintained. . Further, when the connection release state continues beyond a predetermined period, it can be formally determined that the connection has been released.

(7)
A communication connection system according to a seventh aspect is the communication connection system according to one aspect or the second to sixth inventions, wherein the first code includes a plurality of codes, and the replacement setting unit includes a plurality of the first codes. One of the codes may be replaced with the second code in order to confirm whether communication is possible, and any one of the first codes capable of communication may be set.

  In this case, even when there are a plurality of first codes, the replacement setting unit replaces the first code with the second code one by one in order, and sets one of the communicable first codes. The environment can be maintained. Further, the first code having the best communication state of the plurality of first codes may be selected and set.

(8)
The communication connection system according to the eighth invention is the communication connection system according to one aspect or the second to sixth inventions, wherein the first code includes a plurality of codes,
The replacement setting unit may sequentially replace the second code with the second code among the plurality of first codes, check whether communication is possible, and set the first code for communication.

  In this case, even when there are a plurality of first codes, the replacement setting unit replaces the first codes one by one with the second code one by one and sets the first code that can be communicated. Can be maintained.

(9)
A communication connection system according to a ninth aspect of the present invention is the communication connection system according to one aspect or the second to eighth aspects of the invention, wherein the computer may have a recording unit for recording the communication connection state set by replacement.

  In this case, since the communication connection status is recorded in the recording unit, in the case of a computer and a LAN connection device connected in the past, the first code and the second code are set according to the past recording. As a result, past connection results can be easily set.

(10)
A communication connection system according to a tenth aspect is the communication connection system according to one aspect, the second to ninth aspects, wherein the LAN connection device has password information, and the replacement setting unit is connected to the computer via a LAN. When the device is connected, the password information is transmitted to the LAN connection device, and the LAN connection device collates the password information transmitted from the computer with the password information set in itself, and uses the replaced code for communication. You may determine whether to use.

  In this case, the LAN connection device does not use the replaced code for communication unless it receives a correct password from the computer. Therefore, the LAN connection device can be easily replaced while the code is illegally rewritten. It is possible to prevent communication.

(11)
A communication connection program according to another aspect is the communication connection program for a computer having a first code and a LAN connection device having a second code, and when the LAN connection device and the computer are connected, It includes a replacement setting process in which the two codes are replaced to check whether communication is possible and the first code for communication is set as the code of the LAN connection device.

  When the LAN connection device and the computer are connected, the communication connection program according to the present invention is set by replacing the first code and the second code of the authentication filter in the computer by the replacement setting process.

In this case, since the first code can be replaced with the second code of the LAN connection device, if the first code is permitted to access the authentication filter, the LAN connection to the computer is possible even in an environment where the authentication filter is applied. The LAN connection device can be placed in the environment of the authentication filter simply by connecting the device and connecting the LAN cable connected to the computer to the LAN connection device.
In other words, even in the authentication filter environment, the LAN connection device can be easily used without re-setting the authentication filter.
The LAN connection device may be a USB-LAN converter, an access point, or any other device.

(12)
A LAN connection device according to another aspect includes a recording process, and records a communication connection program according to another aspect by the recording process.

In this case, since the first code can be replaced with the second code of the LAN connection device, if the first code is permitted to access the authentication filter, the LAN connection to the computer is possible even in an environment where the authentication filter is applied. The LAN connection device can be placed in the environment of the authentication filter simply by connecting the device and connecting the LAN cable connected to the computer to the LAN connection device.
In other words, even in the authentication filter environment, the LAN connection device can be easily used without re-setting the authentication filter.
The LAN connection device may be a USB-LAN converter, an access point, or any other device.

(13)
A communication connection method according to still another aspect is a communication connection method for a computer having a first code and a LAN connection device having a second code, and when the LAN connection device and the computer are connected, the first code in the computer; It includes a replacement setting step of replacing the second code to confirm whether communication is possible and setting the first code for communication as the code of the LAN connection device.

  In the communication connection method according to the present invention, when the LAN connection device and the computer are connected, the first code and the second code in the computer are replaced and set by the replacement setting step.

In this case, since the first code can be replaced with the second code of the LAN connection device, if the first code is permitted to access the authentication filter, the LAN connection to the computer is possible even in an environment where the authentication filter is applied. The LAN connection device can be placed in the environment of the authentication filter simply by connecting the device and connecting the LAN cable connected to the computer to the LAN connection device.
In other words, even in the authentication filter environment, the LAN connection device can be easily used without re-setting the authentication filter.
The LAN connection device may be a USB-LAN converter, an access point, or any other device.

It is a figure which shows an example of the communication connection system concerning this Embodiment. It is a schematic diagram which shows an example of the internal structure of USBNIC and the internal structure of PC. FIG. 3 is a schematic diagram illustrating an example of an internal configuration of a PC and a USB NIC when performing wireless connection instead of wired connection in FIG. 2. 10 is a flowchart illustrating an example of connecting a USB NIC that is a USB hub to a PC. 10 is a flowchart illustrating an example of connecting a USB NIC that is a USB hub to a PC. It is a schematic diagram which shows an example of a MAC address. It is a schematic diagram which shows the other example of the MAC address of FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same components are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

  FIG. 1 is a diagram illustrating an example of a communication connection system 100 according to the present embodiment.

  As shown in FIG. 1, a communication connection system 100 includes a personal computer (hereinafter referred to as PC) 200, a USB (Universal Serial Bus, hereinafter abbreviated as USB) NIC (Network Interface Card) 400, a display monitor 510, a USB. A printer 530, a USB hard disk 540, a USB keyboard 550, and a USB mouse 560 are included.

  In the communication connection system 100 shown in FIG. 1, the PC 200 has a large number of USB connection units. The PC 200 can be connected to a display monitor 510, a USB printer 530, a USB hard disk 540, a USB keyboard 550, and a USB mouse 560.

  In this case, in this embodiment, the display monitor 510, the USB printer 530, the USB hard disk 540, the USB keyboard 550, and the USB mouse 560 are collectively connected using the USB NIC 400, and the USB cable 400 is used from the USB NIC 400. Connect to PC200.

The PC 200 includes a recording unit 210, a display unit 220, and a USB control unit 230 (see FIG. 2). The recording unit 210 records a MAC address and records a past connection history and the like. Here, the past connection history includes a result of communication confirmation accompanying replacement of a MAC address of USB_NIC and a MAC address of PC_NIC, which will be described later.
In the present embodiment, application software 800 is installed in the recording unit 210 of the PC 200 in advance. The display unit 220 includes a display device.

  Next, FIG. 2 is a schematic diagram illustrating an example of the internal configuration of the USB NIC 400 and the internal configuration of the PC 200.

  As shown in FIG. 2, the USB NIC 400 includes a USB control unit (hereinafter referred to as a USB hub in the present embodiment) 410, a USB to HDMI 420, a USB to LAN 430, an HDMI connector 440, a LAN connector 450, a USB connector 460, and a USB connector 470. USB connector 480 and recording unit 490.

  The USB hub 410 of the USB NIC 400 is connected to the HDMI connector 440 via a USB to HDMI 420 that converts USB and HDMI (registered trademark). Therefore, the HDMI connector 440 can be connected to the HDMI cable of the display monitor 510 of FIG.

  The USB hub 410 is connected to the LAN connector 450 via a USB to LAN 430 that converts USB and LAN. Therefore, the LAN connector 450 can connect the LAN cable of FIG.

  Further, the USB hub 410 is connected to the USB connectors 460 and 470. Accordingly, the USB connectors 460 and 470 can be connected to the USB printer 530, the USB hard disk 540, the USB keyboard 550, and the USB mouse 560 shown in FIG.

  Finally, the USB hub 410 is connected to the USB connector 480. Therefore, the USB connector 480 can be connected to the USB cable 300.

  Further, as shown in FIG. 2, the PC 200 includes a recording unit 210 (see FIG. 1), a display unit 220 (see FIG. 1), and a USB control unit (hereinafter referred to as a USB host in this embodiment) 230. USB connector 240 is provided. The USB cable 300 is connected to the USB connector 240. The USB device connected to the USB connector 240 can be recognized in the USB host 230 by a program operating on the PC 200.

  The recording unit 490 built in the USB NIC 400 can record the MAC address used by the LAN unit of the USB to LAN 430. In addition, in an environment where access is restricted, a MAC address that is set to replace the MAC address of the PC_NIC for the PC 200 to use for network connection via the LAN via the USB to LAN 430 can be recorded.

  In the present embodiment, application software 800 (described later) is also recorded in the recording unit 490, and the application software 800 is installed in advance in the recording unit 210 of the PC 200 as described above.

  In this embodiment, the USB NIC 400 and the PC 200 are connected by the USB cable 300. However, the present invention is not limited to this, and the USB NIC 400 may have a wireless function and may be wirelessly connected to the PC 200.

  FIG. 3 is a schematic diagram illustrating an example of internal configurations of the PC 200 and the USB NIC 400 when performing a wireless connection instead of the wired connection of FIG. In FIG. 3, only differences from FIG. 2 will be described.

  As shown in FIG. 3, the PC 200 is provided with a wired wireless LAN connection unit 245 instead of the USB connector 240, and the USB NIC 400 is provided with a wired wireless LAN connection unit 485 instead of the USB connector 480.

  A USB over IP 235 is provided between the USB host 230 and the wired wireless LAN connection unit 245, and a USB over IP 405 is provided between the USB hub 410 and the wired wireless LAN connection unit 485.

  As shown in FIG. 3, the USB signal connected to the PC 200 is converted into a LAN signal by the USB over IP 405, and the LAN signal is wirelessly connected to the PC 200 via the wireless LAN.

  The USB over IP 405 realizes USB command transmission / reception by TCP / IP, for example, by encapsulating a USB command used in USB into an IP packet, and enables a USB device to be used via a network.

  When a signal is transmitted from the USB NIC 400 to the PC 200, the signal input to the LAN connector 450 of the USB NIC 400 is converted into a USB signal by the USB to LAN 430, and the USB signal is encapsulated into an IP packet by the USB over IP 405 on the USB device side and transmitted to the PC 200. Is done. The PC 200 that has received it extracts the USB signal from the IP packet by the USB over IP 235 on the USB host side, and recognizes the USB NIC 400 as a USB device virtually connected to its own USB port.

  When a signal is transmitted from the PC 200 to the USB NIC 400, the USB signal input from the USB host 230 of the PC 200 to the USB over IP 235 on the USB host side is encapsulated in an IP packet and transmitted to the USB NIC 400. The USB NIC 400 that has received it extracts the USB signal from the IP packet by the USB over IP 405 on the USB device side and transfers it to the USB device connected inside or outside the USB NIC 400.

  In the present embodiment, the USB NIC 400 having the USB hub function is used. However, the present invention is not limited to this. The USB-LAN adapter having only the USB to LAN 430 function is used as the interface conversion function, and the application software 800 is installed on the server or It may be set to be downloadable from the cloud.

Next, a case where the PC 200 in the MAC address filter environment is connected to the authentication hub via the USB NIC 400 will be described.
FIG. 4 and FIG. 5 are flowcharts showing an example in which the PC 200 is connected to the authentication hub via the USB NIC 400. The authentication hub is a network hub that performs access restriction by MAC address filtering, for example.
FIG. 6 is a schematic diagram illustrating an example of the MAC address, and FIG. 7 is a schematic diagram illustrating still another example of the MAC address in FIG.

  First, the PC 200 determines whether or not the USB NIC 400 is connected (step S1). The connection in this case may be a connection determination between the PC 200 and the USB NIC 400, or it is determined whether the PC 200 and the USB NIC 400 are already connected and the LAN part of the USB to LAN 430 of the USB NIC 400 is in a link state. May be.

Next, the application (application software 800) already installed as resident software in the PC 200 is started (step S2). Note that the application 800 may determine whether or not the USB NIC 400 is connected.
In the present embodiment, the user starts the application 800 installed in the recording unit 210 of the PC 200. However, the present invention is not limited to this, and when the USB NIC 400 is connected to the PC 200 using the USB. The data recorded in the USB NIC 400 may be auto-run on the PC 200 side.

Next, the PC 200 determines whether or not it has a NIC (step S3). In the following, since a plurality of NICs coexist, the NIC of the PC 200 is called PC_NIC, and the NIC of the USB NIC 400 is called USB_NIC.
If it is determined in step S3 that PC_NIC does not exist, all processing is terminated.
If it is determined in step S3 that PC_NIC exists, PC_NIC and USB_NIC information (MAC address) is acquired.

Next, it is determined whether or not all PC_NICs have been used (step S5).
When the processing from Step S5 to Step S9 described later is performed using all the PC_NICs, the process proceeds to Step S10.
On the other hand, if not all PC_NICs are used, the MAC address of USB_NIC and the MAC address of PC_NIC are exchanged (step S6).

  Here, in this embodiment, it is assumed that there are n MAC addresses of PC_NIC. Therefore, it is assumed that PC_NIC1, PC_NIC2, PC_NIC3,..., PC_NICn.

In this case, the MAC address of USB_NIC and the MAC address of PC_NIC1 are exchanged.
Here, as shown in FIG. 6, the method of replacing the MAC address is to read the MAC address of the PC_NIC1 from the MAC address storage unit of the PC_NIC, read the MAC address of the USB_NIC1 from the MAC address storage unit of the USB_NIC, and read the MAC of the PC_NIC1. The address is set in USB_NIC1 as the MAC address of USB_NIC, and the read MAC address of USB_NIC1 is set in PC_NIC1 as the MAC address of PC_NIC1.

  Alternatively, as shown in FIG. 7, the MAC address of the PC_NIC1 is read from the MAC address storage unit of the PC_NIC, and the read MAC address of the PC_NIC1 is set to the USB_NIC1 as the MAC address of the USB_NIC, and the MAC address is prevented from being duplicated. PC_NIC1 is disabled.

  Note that, when the MAC address is exchanged, if the PC_NIC corresponding to the exchange operation is in use, the configuration may be notified.

Subsequently, after the replacement, it is determined whether the PC 200 can perform communication that passes the MAC address filtering via the USB to LAN 430 (step S7). For example, it is possible to determine whether or not communication is possible by sending a PING to a specific server existing ahead of an authentication hub subjected to MAC address filtering and confirming the response.
If communication is possible, it is determined that the MAC address is a MAC address that can be used in an environment where access is restricted by MAC address filtering, and a communicable PC_NIC is recorded (step S8). On the other hand, when communication is impossible, it progresses to the process of step S9.

Next, PC_NIC1 to PC_NICn are changed in order (step S9), and the processing from step S5 to step S9 is repeatedly performed.
That is, the MAC_address of PC_NIC1 on the PC 200 side to be replaced with the MAC address of USBtoLAN 430 is sequentially replaced with PC_NIC2 and PC_NIC3 to determine whether or not communication is possible, and the processing is performed up to PC_NICn.

  In the present embodiment, it is determined whether or not all communication up to PC_NICn can be performed repeatedly. However, when it is determined in step S7 that communication is possible, the process may be stopped. You may use the optimal communication environment, for example, a thing with quick response time by PING.

Subsequently, the PC 200 notifies the user of the communication result (step S10). The user selects the MAC address of the communicable PC_NIC (step S11). If not selected, wait.
If selected, the MAC address is replaced and set, and communication is started (step S12).

In this embodiment, the user selects a MAC address, but the present invention is not limited to this, and an optimum communication environment, for example, one with a fast response time by PING is automatically selected. , May be set. Alternatively, the MAC address that can be communicated first may be automatically selected and set.
In that case, it is possible to save time and effort by the user.

Subsequently, the PC 200 determines whether or not communication is disconnected (step S13). If it is determined that the connection is broken, it is determined whether or not a predetermined time has elapsed (step S14). If the predetermined time has not elapsed, the process is repeated from step S13.
On the other hand, when the predetermined time has elapsed, it is determined that the connection is cut off, and the exchange of the MAC address of the USB_NIC and the MAC address of the PC_NIC is corrected. That is, the state before the replacement is restored.
Note that the connection cutoff may be determined as a connection cutoff when the connection between the USB NIC 400 and the PC 200 is logically or physically removed, or when the LAN connection link of the USB NIC 400 is disconnected. .

  Further, the replacement correction in the present embodiment is performed when the USB NIC 400 determines that the USB NIC 400 is disconnected from the PC 200 or the USB NIC 400 is disconnected from the LAN side when the USB NIC 400 is turned off. The USB NIC 400 may be replaced and corrected.

For example, when the USB NIC 400 determines that the connection is cut off, the MAC address set to replace the volatile memory of the USB NIC 400, for example, from the PC 200 is deleted.
In such a case, when the replacement-configured USB NIC 400 is unintentionally removed from the PC 200, the outflow of the USB NIC 400 in which the MAC address that can be used in the environment where access restrictions are imposed by MAC address filtering is set is prevented. Can do.

Further, the USB NIC 400 may have password information for validating the setting for using the MAC address exchanged from the PC 200 for communication in the recording unit 490.
The USB NIC 400 compares the password information transmitted from the PC 200 with the password information set for itself, and determines whether or not to enable the setting. In this case, since the USB NIC 400 does not use the replaced MAC address for communication unless it receives correct password information from the PC 200, the USB NIC 400 can be prevented from communicating in a state where the MAC address is illegally rewritten.

  In the present embodiment, the case where the common key method is used as the authentication method between the USB NIC 400 and the PC 200 has been described. However, the present invention is not limited to this, and the USB NIC 400 and the PC 200 are set to be one-to-one. That's fine.

  As described above, since the MAC address of the PC 200 and the MAC address of the USB NIC 400 according to the present embodiment can be interchanged, when the MAC address of the PC 200 is permitted to access the MAC address filter, the MAC address filter Even under the environment, the USB NIC 400 can be placed in the MAC address filter environment simply by connecting the USB NIC 400 to the PC 200 and connecting the LAN cable connected to the PC 200 to the USB NIC 400.

  In other words, even in the MAC address filter environment, the USB NIC 400 can be easily used without performing the MAC address filter setting again.

  In addition, when the connection between the USB NIC 400 and the PC 200 is released, the MAC address is automatically restored, so even if the connection with the USB NIC 400 is released, the original MAC address is set in the PC 200. Therefore, the communication connection environment can be used as it is.

  Further, the connection between the USB NIC 400 and the PC 200 can be notified by the display unit 220 of the PC 200. That is, the user can recognize that the USB NIC 400 and the PC 200 are correctly connected and the communication environment is smoothly performed. On the other hand, it is possible to make the user recognize a defect in the communication environment.

  Further, since the USB NIC 400 detects the connection status in steps S13 and S14, the communication environment can be continuously maintained even when the instantaneous connection disconnection state occurs and the connection state is recovered. In addition, when the disconnection state continues after a predetermined period, it can be formally determined that the connection has been disconnected.

  In this case, even when there are a plurality of PC_NICs in the PC 200, that is, when there are a plurality of MAC addresses, the application software 800 of the PC 200 replaces the MAC addresses one by one in order, and one of the communicable MAC addresses Since the setting is performed by replacing the MAC address, the communication environment can be maintained.

  Further, since the communication connection status (connection history) is recorded in the recording unit 210 of the PC 200, in the case of the PC 200 and the USB NIC 400 connected in the past again, the MAC address is set according to the past recording. As a result, past connection results can be easily set.

  Note that the present invention may be applied to authentication filters other than the MAC address filter.

  In the present invention, the MAC address of the PC 200 corresponds to “first code”, the PC 200 corresponds to “computer”, the MAC address of the USB NIC 400 corresponds to “second code”, and the USB NIC 400 corresponds to “LAN connection device”. The application software 800 corresponds to the “replacement setting unit”, the communication connection system 100 corresponds to the “communication connection system, communication connection method”, the application software 800 corresponds to the “original setting unit”, and the display unit 220 is equivalent to the “notification unit”, the recording units 210 and 490 are equivalent to the “recording unit”, the application software 800 is equivalent to the “communication connection program”, and the process of step S6 is “replacement setting process, replacement setting process”. Is equivalent to.

  Moreover, although one preferable embodiment of this invention is as above-mentioned, this invention is not restrict | limited only to it. It will be understood that various other embodiments may be made without departing from the spirit and scope of the invention. Furthermore, in this embodiment, although the effect | action and effect by the structure of this invention are described, these effect | actions and effects are examples and do not limit this invention.

100 communication connection system 200 PC
220 Display unit 210 Recording unit 400 USB NIC
490 Recording unit 800 Application software

Claims (13)

A computer having a first code;
A LAN connection device having a second code,
When the computer is connected to the LAN connection device, the computer replaces the first code and the second code in the computer, confirms whether communication is possible, and sets the first code for communication as the code of the LAN connection device. A communication connection system including a replacement setting unit to set as.   The communication connection system according to claim 1, wherein the first code and the second code are MAC addresses.   3. The LAN connection device according to claim 1, further comprising: a restoration setting unit configured to restore and set the second code and the first code in the computer when the connection with the computer is released. Communication connection system.   The communication connection system according to claim 1, further comprising a notification unit that notifies the user of the setting status.   The communication connection system according to any one of claims 1 to 4, wherein the LAN connection device is connected to the computer by wire or wirelessly.   The communication connection system according to claim 1, wherein the LAN connection device detects a connection state with the computer in a predetermined period. The first code includes a plurality of codes,
The replacement setting unit sequentially replaces each one of the plurality of first codes with the second code, confirms whether communication is possible, and sets any one of the first codes that can be communicated. The communication connection system according to any one of claims 1 to 6. The first code includes a plurality of codes,
7. The replacement setting unit according to claim 1, wherein the replacement setting unit sequentially replaces the second code with the second code among the plurality of the first codes, confirms whether communication is possible, and sets the first code for communication. The communication connection system according to item 1. The computer
The communication connection system according to any one of claims 1 to 8, further comprising a recording unit that records the communication connection status set by the replacement. The LAN connection device has password information,
The replacement setting unit transmits the password information to the LAN connection device when the LAN connection device is connected to the computer, and the LAN connection device transmits the password information transmitted from the computer to itself. The communication connection system according to any one of claims 1 to 9, wherein password information that has been set is collated to determine whether or not to use the replaced code for communication. In a communication connection program for a computer having a first code and a LAN connection device having a second code,
When the LAN connection device and the computer are connected, the first code and the second code in the computer are exchanged to confirm whether communication is possible, and the first code for communication is used as the code of the LAN connection device A communication connection program that includes replacement setting processing to be set. Further including a recording process,
A LAN connection device that records the communication connection program according to claim 11 by the recording process. In a communication connection method for a computer having a first code and a LAN connection device having a second code,
When the LAN connection device and the computer are connected, the first code and the second code in the computer are exchanged to confirm whether communication is possible, and the first code for communication is used as the code of the LAN connection device A communication connection method including a replacement setting step for setting.

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