KR20150002934A - Method for Selecting Network Mode, Mobile Router Therefor - Google Patents

Abstract

Disclosed are a method for selecting a network mode according to communication environments using dynamic host configuration protocol (DHCP) message characteristics, and a mobile router therefor. The provided mobile router comprises: an interface unit for supporting multiple communication protocols; an IP discovery unit for broadcasting a dynamic IP discovery message; an interface selection unit for selecting one communication protocol among the multiple communication protocols based on whether a dynamic offer message corresponding to the dynamic IP discovery message is received from a dynamic IP allocation device within predetermined timeout; and a mode operation unit for operating in a network mode according to the communication protocol.

Description

METHOD FOR SELECTING NETWORK MODE AND MOBILE ROUTER FOR THE SAME

The present embodiment relates to a network mode selection method for enabling IP (Internet Protocol) based communication and a mobile router therefor.

It should be noted that the following description merely provides background information related to the present embodiment and does not constitute the prior art.

In general, a user performs IP-based communication using various communication standards. Among such IP-based communication devices, devices such as a wireless router are allocated an IP from an Internet service provider (ISP) and configure a separate internal network to provide Internet services. At this time, devices such as a wireless router can use a wide area network that enables communication by allocating IP from a communication service provider, or a local area network that enables communication while allocating IP to terminals of an internal private network.

Conventional devices such as wireless routers have a problem in that the user has to manually change (reset) the corresponding interface of the device when the role of the interface is fixed or the communication environment changes.

The main object of the present invention is to provide a method for selecting a network mode according to a communication environment using a Dynamic Host Configuration Protocol (DHCP) message characteristic and a mobile router for the method.

According to an aspect of the present invention, there is provided an information processing apparatus including an interface unit supporting a plurality of communication protocols; An IP discovery unit for broadcasting a dynamic IP (Dynamic IP) discovery message; Selects one of the plurality of communication standards based on whether or not a dynamic IP offer message corresponding to the dynamic IP discovery message is received from the dynamic IP allocation apparatus within a predetermined timeout (TimeOut) An interface selection unit; And a mode operation unit operable to operate in a network mode according to the selected communication standard.

According to another aspect of the present invention, there is provided a method for a mobile router to select a network mode, comprising: an IP discovery process for broadcasting a dynamic IP discovery message; Confirming whether a dynamic IP offer message corresponding to the dynamic IP discovery message is received from the dynamic IP allocation apparatus within a predetermined timeout; An interface selecting step of selecting any one of a plurality of communication standards supported by the interface unit based on a result of the checking of the checking process; And a mode operation to operate in a network mode according to the selected communication standard.

As described above, according to the present embodiment, the network mode according to the communication environment is selected using the DHCP message characteristic, and the communication is maintained in the selected network mode. That is, even if the communication environment is changed after the connection between the client and the mobile router only once, the client can automatically set up the network in the mobile router without having to reset the network, and as a result, the communication can be maintained. In other words, it is possible to automatically reset the network mode internally of the mobile router without user's operation.

In addition, according to the present embodiment, there is an effect that a plurality of network modes can be supported without a separate mode switching function such as a switch. In addition, since the network mode is automatically recognized according to the wired / wireless communication environment, it is not necessary for the users to set up the network separately, and the effect that the plurality of network modes can be received from the device in which the space limitation occurs have.

1 is a block diagram schematically showing a mobile router according to the present embodiment.
2 is a flowchart illustrating an IP address assignment procedure according to an embodiment of the present invention.
3 is a flowchart illustrating an IP address lease period extension procedure according to the present embodiment.
4 is a flowchart illustrating an IP address return procedure according to the present embodiment.
FIG. 5 is a diagram for explaining an IP address assignment, a lease term extension, and a return procedure according to the present embodiment.
6 is a flowchart for explaining a network mode selection method according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

The mobile router 100 according to the present embodiment may be implemented in a form of being combined with a portable terminal that basically converts a WiBro or Wi-MAX signal into a Wi-Fi signal.

1 is a block diagram schematically showing a mobile router according to the present embodiment.

The mobile router 100 according to the present embodiment includes an interface unit 110, an IP discovery unit 120, an interface selection unit 130, and a mode operation unit 140. The components included in the mobile router 100 are not necessarily limited thereto.

The mobile router 100 according to the present embodiment is described as being implemented as a separate device from the dynamic IP allocation device 220. However, 220 may be implemented as a stand-alone device of the type including some or all of the functions.

The interface unit 110 supports a plurality of communication protocols. That is, the interface unit 110 includes communication modules or communication ports that support a plurality of communication standards. For example, the interface unit 110 may include at least one of a WiBro module, a WiMAX module, a 3G network communication module, a 4G network communication module, a WiFi communication module, and a tethering communication module. .

The IP discovery unit 120 broadcasts a dynamic IP (Dynamic IP) discovery message. Here, the dynamic IP discovery message refers to a Dynamic Host Configuration Protocol (DHCP) Discover message.

Hereinafter, 'Dynamic Host Configuration Protocol (DHCP)' will be described. Usually, the Internet address for using the Internet is an IP address. These Internet addresses are dynamically assigned when connecting to the Internet. The protocol for dynamically allocating IP addresses is called 'DHCP'. This assignment of IP address through DHCP has the concept of 'lease'. This is because the dynamic IP allocation unit 220 does not permanently allocate the IP address to the client 210 but specifies the lease period so that the client 210 uses the IP address only during that period. Here, the dynamic IP allocation device 220 refers to a DHCP server. The client 210 must request the dynamic IP allocation device 220 to extend the IP address lease period if it wishes to use the IP address continuously after the lease period. In addition, if the leased IP address is no longer needed, the client 210 can perform the IP address return procedure.

In other words, DHCP is a protocol that allows network administrators to centrally manage and assign IP addresses on the network within an organization. That is, in the TCP / IP protocol of the Internet, each client 210 must have a unique IP address to access the Internet. When the clients 210 in the organization connect to the Internet, the IP address must be assigned to each client 210. When DHCP is not used, an IP address must be entered manually for each client 210. If the client 210 moves to another location, the IP address must be newly input. DHCP allows a network administrator to centrally manage and assign IP addresses, and to automatically send new IP addresses when the client 210 is connected to another location on the network.

DHCP also has the concept of a 'lease' that allows a given IP address to be valid for that client 210 for a certain amount of time. The lease time may vary depending on how long the user will need Internet access in a particular location. DHCP is useful in environments such as schools where clients 210 frequently change. DHCP can dynamically reconfigure the network by setting the lease time of the IP address even if there are more clients 210 than the number of available IP addresses.

DHCP can be used for various network information such as IP address, Subnet Mask, Default Gateway IP address, Domain Name System (DNS) server IP address, Lease Time, etc. of a terminal in a wired and wireless IP environment (DHCP server) 220 to the client 210 dynamically. DHCP allows the user to set up the network automatically without having to manually configure the network information.

The interface selection unit 130 selects one of the plurality of communication standards based on whether or not a dynamic IP offer message corresponding to the dynamic IP discovery message is received from the dynamic IP allocation apparatus 220 within a predetermined timeout (TimeOut) And selects one of the communication standards. Here, the timeout refers to a preset time, and the dynamic IP offer message refers to a DHCP offer message.

Hereinafter, a case where the interface selection unit 130 selects the communication standard as the wide area network standard will be described. That is, when the dynamic IP address message is received from the dynamic IP allocation apparatus 220 within a predetermined timeout, the interface selection unit 130 selects the communication standard as the wide area network standard.

Hereinafter, a case where the interface selecting unit 130 selects the communication standard as the local network standard will be described. The interface selection unit 130 receives a dynamic IP discovery message from the client 210 or receives a dynamic IP allocation request message from the client 210 when the dynamic IP allocation message is not received from the dynamic IP allocation apparatus 220, The dynamic IP allocation apparatus 220 recognizes that the dynamic IP allocation apparatus 220 does not exist and selects the communication standard as the local network standard. Here, the dynamic IP allocation request message is a DHCP request message. In addition, when the dynamic IP address message is not received from the dynamic IP allocation device 220 so that the predetermined timeout elapses, the interface selection unit 130 may receive a dynamic IP discovery message from the client 210, Is not received, the communication standard is selected as the local network standard when the number of transmissions of the dynamic IP discovery message is equal to or greater than the maximum number of transmissions.

The mode operation unit 140 operates in a network mode according to the communication standard selected by the interface selection unit 130. [ The mode operation unit 140 includes an IP offer unit 142, an IP assignment request unit 144, and an IP assignment response unit 146. The IP offer unit 142 and the IP allocation request unit 144 may operate independently of the dynamic IP allocation apparatus 220 and may operate independently of the dynamic IP allocation apparatus 220.

When the wide area network standard is selected by the interface selection unit 130, the mode operation unit 140 operates in the wide area network mode according to the selected wide area network standard. Here, the wide area network mode is a WAN (Wide Area Network) supported mode and includes at least one of a network interface mode including a WiBro mode, a WiMAX mode, a 3G network mode, a 4G network mode, or an RJ45 mode. Here, the WAN is a local area network (LAN) distributed over a wide area by using a communication line service such as a dedicated line, a packet switching network, and an Integrated Services Digital Network (ISDN) Or a metropolitan area network (MAN) to each other.

Hereinafter, a process of operating the components included in the mode operation unit 140 in the wide area network mode will be described. The IP offerer 142 receives the dynamic IP offer message broadcasted by the dynamic IP allocator 220. The IP allocation request unit 144 transmits a dynamic IP allocation request message corresponding to the dynamic IP offer message to the dynamic IP allocation apparatus 220. The IP allocation response unit 146 receives the dynamic IP allocation response message corresponding to the IP allocation request message broadcast by the dynamic IP allocation apparatus 220. [ Here, the dynamic IP allocation response message refers to a DHCP Ack message.

When the local network standard is selected by the interface selection unit 130, the mode operation unit 140 operates in the local network mode according to the selected local network standard. Herein, the local area network mode is a LAN supporting mode and includes at least one of a network interface mode including a Wi-Fi mode, a tethering mode, or an RJ45 mode. Here, the LAN generally refers to a communication network within the enterprise in the sense of a network operated within the enterprise.

Hereinafter, a process in which the components included in the mode operation unit 140 operate in the short-range network mode will be described. The IP offerer 142 independently broadcasts a dynamic IP offer message in response to the dynamic IP discovery message without interworking with the dynamic IP allocator 220. [ That is, the IP offerer 142 transmits (broadcasts) a dynamic IP offer message to the client 210 in response to the dynamic IP discovery message received from the client 210. However, the operation of the IP offerer 142 is not limited to this. The dynamic offerer 220 may receive the dynamic IP offer message from the dynamic IP allocator 220 in cooperation with the dynamic IP allocator 220 and transmit the dynamic IP offer message to the client 210 Broadcasting). In other words, the IP offerer 142 can broadcast a dynamic IP offer message using the dynamic IP allocation device 220, which is internal (remote) or remote.

The IP allocation request unit 144 independently allocates the dynamic IP without linking with the dynamic IP allocation apparatus 220. That is, the IP allocation request unit 144 allocates the dynamic IP after receiving the dynamic IP allocation request message corresponding to the dynamic IP offer message from the client 210. However, the operation of the IP offerer 142 is not limited to this, and the dynamic IP allocation request message may be transmitted to the dynamic IP allocation apparatus 220 in cooperation with the dynamic IP allocation apparatus 220, have. In other words, the IP allocation request unit 144 can receive dynamic IP allocation using the internal (reader) or the remote dynamic IP allocation apparatus 220. The IP allocation response unit 146 transmits a dynamic IP allocation response message corresponding to the IP allocation request message to the client 210 through the information allocated to the internal (individual) or remote dynamic allocation apparatus 220.

The mobile router 100 shown in FIG. 1 may automatically detect a network mode using a DHCP message and automatically set it to a network mode according to a corresponding mode without setting a user. In addition, the mobile router 100 supports dynamic IP discovery message transmission and dynamic IP offer message detection. That is, when the interface unit 110 is activated, the mobile router 100 detects a dynamic IP discovery message and a dynamic IP offer message to confirm whether the interface unit 110 can operate in the wide area network mode. In addition, the mobile router 100 supports a timeout for retransmitting the dynamic IP discovery message and a function for limiting the maximum number of transmissions. That is, the mobile router 100 manages the maximum number of transmissions of the dynamic IP discovery message and the dynamic IP IP message reception timeout for detecting the wide area network mode. In addition, the mobile router 100 supports a dynamic IP discovery message and a dynamic IP allocation request message reception confirmation function.

In addition, when the interface unit 110 is activated, the mobile router 100 confirms whether the dynamic IP discovery message and the dynamic IP allocation request message are received in order to confirm whether or not the mobile terminal 100 can operate in the local area network mode. If it is set to 'wide area network mode', the client 210 is operated to set a gateway, a DNS setting, and a WAN mode firewall. On the other hand, if the 'local network mode' is set, the dynamic IP allocation device 220 must be operated and a local network mode firewall is set.

2 is a flowchart illustrating an IP address assignment procedure according to an embodiment of the present invention.

The client 210 shown in FIG. 2 refers to a terminal capable of transmitting and receiving various data via a network according to a key operation of a user, and includes a tablet PC, a laptop, a personal computer Computer, a smart phone, a personal digital assistant (PDA), and a mobile communication terminal. That is, the client 210 is a terminal that performs voice or data communication using a network, and is a memory for storing a program or a protocol for performing communication using a network, a microprocessor And the like. That is, the client 210 can be any terminal as long as it can communicate with the network. The dynamic IP allocation device 220 is a DHCP server, and is a device that allocates a dynamic IP to a client 210.

2, the client 210 receives a dynamic IP discovery message (DHCP discovery message) S210, a dynamic IP offer message A dynamic IP allocation request message (DHCP request message) (S230), and a dynamic IP allocation response message (DHCP response message) (S240) '. Hereinafter, steps S210 to S240 will be described.

The client 210 broadcasts a dynamic IP discovery message (DHCP discovery message) (S210). In step S210, it is described that the client 210 broadcasts a dynamic IP discovery message (DHCP discovery message). In actual implementation, if the mobile router 100 operates in the wide area network mode, It will send a dynamic IP discovery message (DHCP DISCONNECT message). If it operates in the LAN mode, it will act as a dynamic IP allocation device and will receive the message.

That is, when the client 210 boots, it broadcasts a dynamic IP discovery message (DHCP discovery message) to the Ethernet network to find the dynamic IP allocation apparatus 220 located in the same subnet (LAN) The destination MAC is Broadcast MAC = FF: FF: FF: FF: FF: FF). Accordingly, all dynamic IP allocation devices (DHCP servers) 220 on the same subnet receive a dynamic IP discovery message (DHCP discovery message).

The dynamic IP allocation device (DHCP server) 220 broadcasts a dynamic IP address message (DHCP offer message) when receiving a dynamic IP discovery message (DHCP discovery message) broadcasted by the client 210 ). In step S220, the client 210 receives a dynamic IP offer message (DHCP offer message) broadcasted by the dynamic IP allocation apparatus (DHCP server) 220. [

That is, the dynamic IP allocation device (DHCP server) 220 receiving the dynamic IP discovery message (DHCP DISCONNECT message) broadcasts a dynamic IP address message (DHCP offer message) to the Ethernet network in order to inform its existence. At this time, since the client 210 has not yet been assigned an IP address, it broadcasts a dynamic IP offer message (DHCP offer message).

The network information (terminal IP address, subnet mask, default gateway IP address, DNS IP address, lease time, etc.) required by the client 210 is stored in the dynamic IP offer message (DHCP offer message) . The dynamic IP offer message (DHCP offer message) broadcasted in this manner can be received by all clients on the same subnet including the client 210 that transmitted the dynamic IP discovery message (DHCP discovery message).

The client 210 broadcasts a dynamic IP allocation request message (DHCP request message) after receiving a dynamic IP offer message (DHCP offer message) broadcasted by the dynamic IP allocation apparatus (DHCP server) 220 (S230) . In step S230, the dynamic IP allocation apparatus (DHCP server) 220 receives a dynamic IP allocation request message (DHCP request message) broadcasted by the client 210. [

That is, after receiving the dynamic IP offer message (DHCP offer message), the client 210 confirms that the dynamic IP allocation apparatus 220 exists in the same subnet, and then transmits a dynamic IP allocation request And broadcasts the message (DHCP request message) to the Ethernet network.

At this time, if there are two or more dynamic IP allocation apparatuses 220 on the same subnet, the client 210 will receive a plurality of dynamic IP offer messages (DHCP offer messages) The dynamic IP allocation device 220 of the dynamic IP allocation device 220 and records the IP address of the device in a server identifier (Option 54) field in a dynamic IP allocation request message (DHCP request message) To the user. The reason why all the dynamic IP allocation devices 220 broadcast to receive a dynamic IP allocation request message (DHCP request message) is that each dynamic IP allocation device 220 sends a dynamic IP allocation message (DHCP offer message) IP address' and 'other information' to be allocated to the corresponding client 210, the dynamic IP allocation devices 220, which have not been selected, can delete the 'IP address' and' other information ' It is for this reason.

The dynamic IP allocation unit (DHCP server) 220 broadcasts a dynamic IP allocation response message (DHCP response message) when receiving a dynamic IP allocation request message (DHCP request message) broadcasted by the client 210 S240). In step S240, the client 210 receives a dynamic IP allocation response message (DHCP response message) broadcasted by the dynamic IP allocation device (DHCP server) 220. [

That is, the dynamic IP allocation device (DHCP server) 220 receiving the dynamic IP allocation request message (DHCP request message) confirms whether the IP address recorded in the server identifier field is its own address in the message, Broadcast a response message (DHCP response message) to the Ethernet network (since the client 210 has not yet been assigned an IP address) to allow the client 210 to receive a dynamic IP assignment response message (DHCP response message) .

The client 210 accesses the network using a dynamic IP allocation response message (DHCP response message) after receiving a dynamic IP allocation response message (DHCP response message) broadcast by the dynamic IP allocation device (DHCP server) 220 (S250). In step S250, the dynamic IP allocation device (DHCP server) 220 delivers various network information including an IP address, such as a dynamic IP offer message (DHCP offer message) The client 220 may configure the network environment of the client 210 based on the information transmitted by the device 220 and access the Internet. At this time, representative network information transmitted to the client 210 through the dynamic IP allocation response message (DHCP response message) includes 'IP address', 'subnet mask', 'default gateway IP address', 'DNS server IP address' (The period during which the client 210 can use the IP address assigned (leased) by the dynamic IP allocation device (DHCP server) 220) ', and the like.

The mobile router 100 can detect whether the interface is connected in the short-range network mode or the wide-area network mode by using the DHCP message characteristic of FIG. 2, and can automatically set the network for the interface.

First, the mobile router 100 can distinguish DHCP messages when operating in the 'wide area network mode'. That is, if the interface operates in the wide area network mode, the client 210 is executed and delivers a dynamic IP discovery message (DHCP discovery message). The dynamic IP allocation unit 220 receives the dynamic IP offer message (DHCP offer message). The mobile router 100 can use the DHCP message characteristic.

Meanwhile, the mobile router 100 can distinguish the DHCP message when operating in the 'local network mode'. That is, if the interface operates in the short-range network mode, the dynamic IP allocation device 220 is executed and waits for receiving a dynamic IP discovery message (DHCP discovery message) and a dynamic IP allocation request message (DHCP request message) 100 may utilize this DHCP message characteristic.

3 is a flowchart illustrating an IP address lease period extension procedure according to the present embodiment.

The dynamic IP allocation response message (DHCP response message), which is the final step S240 of the 'IP address assignment (lease) procedure' in FIG. 2, includes an IP lease time (Option 51) parameter. The client 210 may use the corresponding IP address (e.g., '1.1.1.10') only for the time (rental period) specified in the IP lease time parameter. Accordingly, in order to use the corresponding IP address for the lease period, the client 210 requests the dynamic IP allocation unit (DHCP server) 220 to extend the IP address lease period as shown in FIG.

The client 210 unicasts a dynamic IP allocation request message (DHCP request message) to the dynamic IP allocation device (DHCP server) 220 (S310). For example, when the IP lease time included in the dynamic IP allocation response message (DHCP response message) which is the final step S240 of the 'IP address allocation (lease) procedure' (for example, the lease period is one hour) The client 210 sends a dynamic IP allocation request message (DHCP request message) to the dynamic IP allocation device (DHCP server) 220 to extend the IP address lease period.

At this time, unlike the 'IP address allocation (lease) procedure' in FIG. 2, S310 is a method of broadcasting a dynamic IP allocation request message (DHCP request message) (Destination MAC = FF: FF: FF: FF: (Destination MAC = DHCP Server MAC (m2), Destination IP = DHCP Server IP (e.g., '1.1.1.254') instead of 255.255.255.255) (DHCP request message) for extension of the IP address lease period, the client IP 210 and the dynamic IP allocation apparatus (DHCP server) 220 know the IP addresses of the client 210 and the dynamic IP allocation apparatus The IP address of the client 210 requesting the extension of the lease period must be entered in the address (CIADDR) field, and the requested IP address (Option 50) and the server identifier field can not be included in the corresponding message.

The dynamic IP allocation unit (DHCP server) 220 unicasts a dynamic IP allocation response message (DHCP response message) to the client 210 (S320). That is, when the dynamic IP allocation device (DHCP server) 220 receiving the dynamic IP allocation request message (DHCP request message) accepts the request (use of the IP address extension) of the client 210, the dynamic IP allocation response message The client 210 may include an IP address, a subnet mask, a default gateway IP address, a DNS IP address, a lease time (a period during which the client 210 can use the IP address) (Destination MAC = PC MAC (m1), Destination IP = PC IP (for example, 1.1.1.10)) instead of broadcasting. ), The IP address can be extended and utilized during the IP lease time.

4 is a flowchart illustrating an IP address return procedure according to the present embodiment.

When the client 210 is shut down or a specific command (for example, ipconfig or release) is input on the OS (Operating System) of the client 210, the client 210 transmits the allocated IP address to the dynamic IP allocation device (DHCP release) message to the dynamic IP allocation device (DHCP server) 220 as shown in FIG. 4 in order to return the dynamic IP return message (DHCP release message) to the dynamic IP allocation device (DHCP server) Thereafter, the client 210 releases the network environment information (the IP address of the client 210, the subnet mask, the default gateway IP address, the DNS IP address, etc.). Thus, the client 210 is no longer able to access the Internet.

The client 210 unicasts the dynamic IP return message (DHCP release message) to the dynamic IP allocation device (DHCP server) (S410). That is, the client 210, which does not need a leased IP address, unicasts the dynamic IP return message (DHCP release message) (Destination MAC = DHCP Server MAC (m2), Destination IP = DHCP Server IP (DHCP server) 220 to the dynamic IP allocation device (DHCP server) 220. The dynamic IP allocation device (DHCP server) 220 receives the IP address (IP address) recorded in the client IP field in the dynamic IP return message Address (e.g., '1.1.1.10').

FIG. 5 is a diagram for explaining an IP address assignment, a lease term extension, and a return procedure according to the present embodiment.

The IP address assignment (lease), the IP address lease extension period, and the IP address return procedure using the DHCP protocol are as shown in FIG.

That is, the 'IP address allocation (lease)' procedure broadcasts a dynamic IP discovery message (DHCP discovery message) when the client 210 is booted. The dynamic IP allocation unit (DHCP server) 220 (s) broadcasts a dynamic IP offer message (DHCP offer message) in response. At this time, if there are two or more dynamic IP allocation devices (DHCP servers) 220, the client 210 selects one dynamic IP allocation device (DHCP server) 220 among them. Thereafter, the information is loaded into the 'server identifier field' to broadcast a dynamic IP allocation request message (DHCP request message). Finally, the client 210 receives the IP address of the client 210, the subnet mask, the default gateway IP address, the DNS IP address, and the IP lease time from the corresponding dynamic IP allocation device (DHCP server) do.

In addition, the 'extended IP address lease period' procedure is a process in which the client 210 transmits a dynamic IP allocation request message (DHCP request message) in a dynamic manner after a half of the IP lease time received through the 'IP address allocation (lease) To the IP allocation device (DHCP server) 220 to request extension of the IP address lease time (rental period) of the client 210. [ The dynamic IP allocation unit (DHCP server) 220 unicasts a dynamic IP allocation response message (DHCP response message) to the client 210 in response thereto and accepts the request.

When the client 210 logs off the client 210, the client 210 unicasts the dynamic IP return message (DHCP release message) to the dynamic IP allocation unit (DHCP server) 220 Return the IP address that you did.

6 is a flowchart for explaining a network mode selection method according to the present embodiment.

The mobile router 100 activates the interface unit 110 supporting a plurality of communication standards (S610). The mobile router 100 activates the interface unit 110 and operates in a message reception standby state (S620). Here, the message refers to a DHCP message. The mobile router 100 broadcasts a dynamic IP discovery message (S630). In step S630, the mobile router 100 counts the number of transmissions of the broadcasted dynamic IP discovery message.

The mobile router 100 confirms whether a dynamic IP offer message corresponding to the dynamic IP discovery message is received from the dynamic IP allocation device 220 at operation S640. That is, in step S640, the mobile router 100 confirms whether a dynamic IP offer message broadcasting by the dynamic IP allocation apparatus 220 is received.

If it is determined in step S640 that the dynamic IP offer message is received, the mobile router 100 selects the communication standard as the wide area network standard and operates in the wide area network mode according to the selected wide area network standard (step S650). Here, the wide area network mode is a WAN supporting mode and includes at least one of a network interface mode including a WiBro mode, a WiMAX mode, a 3G network mode, a 4G network mode, or an RJ45 mode. In addition, after S650, the mobile router 100 broadcasts a dynamic IP allocation request message corresponding to the dynamic IP offer message. Then, the mobile router 100 receives a dynamic IP allocation response message corresponding to the IP allocation request message broadcasted by the dynamic IP allocation apparatus 220. The mobile router 100 accesses the wide area network using the IP allocation response message.

After step S650, when the mobile router 100 is set in the 'wide area network mode', the client 210 is operated to perform gateway setting, DNS setting, and firewall setting in the WAN mode.

On the other hand, if it is determined in step S640 that the dynamic IP offer message is not received, the mobile router 100 determines whether a predetermined timeout has arrived (step S660). That is, in step S660, the mobile router 100 confirms the reception timeout for the dynamic IP offer message (DHCP offer message) in order to prevent the infinite wait after broadcasting the dynamic IP discovery message (DHCP discovery message).

If it is determined in step S660 that the predetermined timeout has arrived, the mobile router 100 determines whether a dynamic IP discovery message is received from the client 210 or a dynamic IP allocation request message is received (step S670). That is, in step S670, the function of the mobile router 100 to confirm whether a message for a dynamic IP discovery message (DHCP discovery message) or a dynamic IP allocation request message (DHCP request message) is received includes a dynamic IP discovery message Message) to compensate for the error when setting the local area network mode only by logic that waits only for a dynamic IP offer message (DHCP offer message) after transmission.

If it is determined in step S670 that the dynamic IP discovery message is received from the client 210 or the dynamic IP allocation request message is received, the mobile router 100 recognizes that the dynamic IP allocation apparatus 220 does not exist, And operates in the short-range network mode according to the selected local network standard (S680). Herein, the local area network mode is a LAN supporting mode and includes at least one of a network interface mode including a Wi-Fi mode, a tethering mode, or an RJ45 mode.

 After step S680, the mobile router 100 receives a dynamic IP allocation request message corresponding to the received dynamic IP offer message from the client 210, and broadcasts a dynamic IP allocation request message. The mobile router 100 receives the dynamic IP allocation response message corresponding to the IP allocation request message broadcasted by the dynamic IP allocation apparatus 220 and delivers the dynamic IP allocation response message to the client 210.

After the step S680, when the mobile router 100 is set to the 'near LAN mode', the dynamic IP allocation device (DHCP server) 220 must be operated and a firewall in the near LAN mode is set.

If it is determined in step S670 that the dynamic IP discovery message or dynamic IP allocation request message is not received from the client 210, it is checked in step S690 if the number of transmissions of the dynamic IP discovery message is equal to or greater than the maximum number of transmissions. That is, the maximum number of transmissions of the dynamic IP discovery message (DHCP discovery message) stored in the mobile router 100 in step S690 should be set in relation to the automatic discovery time of the local area network mode or the wide area network mode. If it is determined in step S690 that the number of transmissions of the dynamic IP discovery message is equal to or greater than the maximum number of transmissions, the mobile router 100 selects the communication standard as the local area network standard and operates in the local area network mode according to the selected local area network standard ). In this case, the step S680 is not necessarily limited to the local area network mode, and may operate in a specific network mode (wide area network mode or local area network mode) according to the priority value set according to the purpose of the mobile router 100. [

In Fig. 6, steps S610 to S690 are sequentially executed. However, the present invention is not limited to this. That is, FIG. 6 is not limited to the time-series order because it can be applied to changing the steps described in FIG. 6 and executing them or performing one or more steps in parallel.

As described above, the network mode selection method according to the present embodiment described in FIG. 6 can be implemented by a program and recorded in a computer-readable recording medium. A program for implementing the network mode selection method according to the present embodiment is recorded, and a computer-readable recording medium includes all kinds of recording devices for storing data that can be read by a computer system. Examples of such computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, etc., and also implemented in the form of a carrier wave (e.g., transmission over the Internet) . The computer readable recording medium may also be distributed over a networked computer system so that computer readable code in a distributed manner may be stored and executed. In addition, functional programs, codes, and code segments for implementing the present embodiment can be easily inferred by programmers in the technical field to which the present embodiment belongs.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: mobile router 110: interface part
120: IP discovery unit 130: Interface selection unit
140: a mode operation unit 142: an IP offer unit
144: IP allocation requesting unit 146: IP allocation requesting unit
210: client 220: dynamic IP allocation device

Claims (16)

An interface unit supporting a plurality of communication protocols;
An IP discovery unit for broadcasting a dynamic IP (Dynamic IP) discovery message;
Selects one of the plurality of communication standards based on whether or not a dynamic IP offer message corresponding to the dynamic IP discovery message is received from the dynamic IP allocation apparatus within a predetermined timeout (TimeOut) An interface selection unit; And
And to operate in a network mode according to the selected communication standard
The mobile router comprising: The method according to claim 1,
Wherein the interface selection unit selects the communication standard as a wide area network standard when the dynamic IP access message is received from the dynamic IP allocation apparatus within a predetermined timeout,
Wherein the mode operation unit operates in a wide area network mode according to the wide area network standard. 3. The method of claim 2,
The mode-
An IP offerer for receiving the dynamic IP offer message from the dynamic IP assignment device;
An IP allocation request unit for broadcasting a dynamic IP allocation request message corresponding to the dynamic IP offer message; And
An IP allocation response unit for receiving a dynamic IP allocation response message corresponding to the IP allocation request message from the dynamic IP allocation apparatus,
The mobile router comprising: The method of claim 3,
Wherein the dynamic IP discovery message is a Dynamic Host Configuration Protocol (DHCP) Discover message, the dynamic IP offer message is a DHCP offer message, the dynamic IP allocation request message is a DHCP request message, Wherein the dynamic IP allocation response message is a DHCP Ack message, and the dynamic IP allocation device is a DHCP server. 3. The method of claim 2,
In the wide area network mode,
A Wide Area Network (WAN) support mode, comprising at least one of a WiBro mode, a WiMAX mode, a 3G network mode, a 4G network mode, and an RJ45 mode. The method according to claim 1,
Wherein the interface selection unit selects the communication standard as a local area network standard when the dynamic IP address message is not received from the dynamic IP allocation unit such that a predetermined timeout elapses,
Wherein the mode operation unit operates in a short-range network mode according to the local area network standard. The method according to claim 6,
Wherein the interface selecting unit comprises:
When the dynamic IP address message is not received from the dynamic IP allocation device such that a predetermined timeout elapses,
When the dynamic IP discovery message is received from a client or a dynamic IP allocation request message is received, the dynamic IP allocation apparatus recognizes that the dynamic IP allocation apparatus does not exist and selects the communication standard as the local network standard. router. 8. The method of claim 7,
Wherein the interface selecting unit comprises:
When the dynamic IP address message is not received from the dynamic IP allocation device such that a predetermined timeout elapses,
If the dynamic IP discovery message is received from the client or the dynamic IP allocation request message is not received,
And selects the communication standard as the local area network standard when the number of transmissions of the dynamic IP discovery message is equal to or greater than the maximum number of transmissions. 8. The method of claim 7,
The mode-
An IP offerer for broadcasting the dynamic IP offer message;
An IP allocation request unit for receiving a dynamic IP allocation request message corresponding to the dynamic IP offer message from the client and processing the dynamic IP allocation request message; And
An IP allocation response unit for broadcasting a dynamic IP allocation response message corresponding to the IP allocation request message,
The mobile router comprising: The method according to claim 6,
Wherein the short-
Wherein the mobile router includes at least one of a WiFi mode, a tethering mode, and an RJ45 mode, as a LAN (Local Area Network) support mode. A method for a mobile router to select a network mode,
An IP discovery process for broadcasting a dynamic IP discovery message;
Confirming whether a dynamic IP offer message corresponding to the dynamic IP discovery message is received from the dynamic IP allocation apparatus within a predetermined timeout;
An interface selecting step of selecting any one of a plurality of communication standards supported by the interface unit based on a result of the checking of the checking process; And
A mode operation process for operating in a network mode according to the selected communication standard
The method comprising the steps of: 12. The method of claim 11,
Wherein the interface selection step comprises the step of selecting the communication standard as a wide area network standard when the dynamic IP access message is received from the dynamic IP allocation device within a predetermined timeout,
Wherein the mode operation comprises: operating in a wide area network mode according to the wide area network standard. 13. The method of claim 12,
The mode operation process includes:
An IP offer step of receiving the dynamic IP offer message from the dynamic IP allocation device;
An IP allocation requesting step of broadcasting a dynamic IP allocation request message corresponding to the dynamic IP offer message; And
An IP allocation response process for receiving a dynamic IP allocation response message corresponding to the IP allocation request message from the dynamic IP allocation device
The method comprising the steps of: 12. The method of claim 11,
And selecting the communication standard as a local area network standard when the dynamic IP address message is not received from the dynamic IP allocation apparatus such that a predetermined timeout elapses,
Wherein the mode operation comprises: operating in a local area network mode according to the local area network standard. 15. The method of claim 14,
The interface selection process includes:
A first confirming step of confirming whether the dynamic IP offer message is received from the dynamic IP allocating device within a predetermined timeout period;
A second confirming step of confirming whether the dynamic IP discovery message is received or a dynamic IP allocation request message is received from the client when the dynamic IP access message is not received as a result of the first checking step; And
If the dynamic IP discovery message or the dynamic IP allocation request message is received as a result of the second confirmation process, the dynamic IP allocation apparatus recognizes that the dynamic IP allocation apparatus does not exist and selects the communication standard as the local network standard process
The method comprising the steps of: 16. The method of claim 15,
The mode operation process includes:
An IP offer process for broadcasting the dynamic IP offer message;
An IP allocation request process for receiving a dynamic IP allocation request message corresponding to the dynamic IP offer message from the client and processing the dynamic IP allocation request message; And
An IP allocation response message for broadcasting a dynamic IP allocation response message corresponding to the IP allocation request message
The method comprising the steps of:

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