KR101405248B1 - Communication apparatus and method of host identity protocol network environment - Google Patents

Abstract

The present invention relates to a communication system and a communication method in host identity protocol network environment. A communication system according to the present invention includes a plurality of routers managing mutually different communication networks; and a requesting terminal positioned at a first communication network for requesting communication with a counterpart terminal, where the mutually different routers store a mapping table indicating the corresponding relationship between a host identity tag and position information with respect to a terminal corresponding to mutually different initial position information, the requesting terminal transmits a request message including initial position information and a host identity tag of the counterpart terminal to a first router managing the first communication network, the first router transmits the request message to a second router corresponding to the initial position information according to the request message, and the second router searches for the position information corresponding to the host identity tag of the counterpart terminal from the mapping table to transmit the request message to the counter part terminal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a communication apparatus,

The present invention relates to a communication system in a host identity protocol (HIP) network environment and a communication method in a HIP network environment.

Generally, in a Host Identity Protocol (HIP) network environment, host identification information and location information of a terminal are separated and operated. That is, in the HIP network environment, a terminal is identified by Host Identity Tag (HIT) information, and HIT information does not include the location information of the terminal. The conventional HIP network environment communication system uses a centralized Rendezvous Server and manages the location information of the terminal by the rendezvous server. A pair of HIT information and IP address information of each terminal is registered in the rendezvous server. The rendezvous server searches the IP address corresponding to the HIT information of the terminal and grasps the location information of the terminal.

However, since a pair of HIT information and IP address information of all terminals is registered in a centralized rendezvous server, it is necessary to store a huge size table in proportion to the number of terminals, and in order to search the table quickly, Construction costs are required. In addition, if the request for location information of the terminal is concentrated on the rendezvous server, the response speed of the server may be delayed. Since the location information of all terminals is stored in the rendezvous server, Lt; / RTI > In addition, since the location search of the remote terminal is performed only through the centralized Rendezvous server, unnecessary message passing occurs and the time required to search for the location of the remote terminal becomes long.

The present invention relates to a communication system of a host identity protocol (HIP) network environment, in which the initial position information of a terminal is roughly identified by only Host Identity Tag (HIT) To quickly transmit a request message for establishing a communication path.

Another object of the present invention is to enable a communication path between a requesting terminal and a responder without a centralized Rendezvous Server in a communication system of the HIP network environment.

Another object of the present invention is to provide a communication system in a HIP network environment in which messages are exchanged directly between a router of a requesting terminal and a router in which information of a counterpart terminal is registered, And to reduce the time required for searching for the location of the other terminal by reducing unintentional message passing.

The problems to be solved by the present invention are not limited to the above-mentioned problems. Other technical subjects not mentioned will be apparent to those skilled in the art from the description below.

According to an aspect of the present invention, there is provided a communication system of a Host Identity Protocol network environment comprising: a plurality of routers managing different communication networks; And a requesting terminal located in the first communication network and requesting communication with the counterpart terminal, wherein the different routers have mapping tables for indicating correspondence between the hostidentification tag and the location information, Wherein the requesting terminal transmits a request message including an initial location information of the counterpart terminal and a host ID tag to a first router managing the first communication network, Transmits the request message to the second router corresponding to the initial location information, and the second router retrieves the location information corresponding to the host ID tag of the counterpart terminal from the mapping table and transmits the request message to the counterpart terminal .

In one embodiment, the requesting terminal generates a 128-K (K is a positive integer) bit host identification tag through a hash (Hash) encoding of a host identifier and a public key , The host identification tag of 128 bits can be generated by adding the K-bit initial position information to the 128-K-bit host identification tag.

In one embodiment, the mobile communication terminal further includes a third router managing the third communication network. When the counterpart terminal moves from the second communication network to the third communication network, the third router includes new location information of the counterpart terminal The second router stores the new location information in the mapping table, and in response to the request message from the first router, transmits a registration message corresponding to the host identification tag of the counterpart terminal to the second router, The new location information may be retrieved and the request message may be transmitted to the counterpart terminal via the third router.

In one embodiment, the initial location information may include an autonomous system number of the counterpart terminal.

In an embodiment, the location information may include an IP address of the counterpart terminal.

In one embodiment, the different networks may be operator networks operated by different operators.

A terminal according to another aspect of the present invention includes a hash function for generating a host identification tag of a first bit through a hash of a host identifier of a counterpart terminal and a public key, An encoding unit; And an initial position information adding unit for adding the initial position information of the counterpart terminal to the host identification tag of the first bit to generate a host identification tag of the second bit.

In one embodiment, the terminal can transmit a request message including the IP address information of the terminal, the host ID tag of the terminal, and the host ID tag of the second bit of the counterpart terminal to the first router.

In an embodiment, when the number of communication networks operated by different operators is N (where N is an integer equal to or greater than 2), the initial position information of the counterpart terminal is determined to be K bits (K satisfies the condition of N 2 ^K 2N (K is a positive integer) bit host identification tag through hash encoding of the host identifier and the public key of the counterpart terminal, and the terminal generates 128-K (K is a positive integer) Lt; RTI ID = 0.0 > of K < / RTI > bits to the bit host identification tag.

In one embodiment, the terminal transmits a request message including the host identification tag of the second bit to the first router, receives a response message from the counterpart terminal from the first router, verifies the response message Message to the first router.

A router of a host identity protocol network environment according to another aspect of the present invention checks first initial position information of a first counterpart terminal in a first request message received from a first request terminal, And a transmitting unit for transmitting the first request message to another router corresponding to the initial location information.

In one embodiment, the router includes: a storage unit for storing a mapping table indicating a mapping relationship between a host ID tag and location information for one or more terminals corresponding to the second initial location information; A second request message of the second requesting terminal received from the other router, a host ID tag of the second counterpart terminal, and a search for searching for the location information corresponding to the host ID tag of the second counterpart terminal in the mapping table The transmitting unit may transmit the second request message to the second counterpart terminal or another router corresponding to the location information using the location information of the second counterpart terminal.

In one embodiment, the first initial position information and the second initial position information include an autonomous system number of the counterpart terminal, and the position information may include an IP address of the second counterpart terminal have.

According to another aspect of the present invention, there is provided a communication method in a Host Identity Protocol network environment, wherein a requesting terminal of a first communication network transmits a request message including a first terminal's initial location information and a host identification tag to a first router A first step of transmitting data; A second step of the first router transmitting the request message to a second router corresponding to the initial location information according to the request message; And a third step of the second router retrieving location information corresponding to the host ID tag of the counterpart terminal from the mapping table and transmitting the request message to the counterpart terminal.

In one embodiment, the first step is to generate 128-K (K is a positive integer) bit host identification tag through hash encoding of a host identifier and a public key ; And adding the K-bit initial position information to the 128-K bit host identification tag to generate the 128-bit host identification tag.

In one embodiment, in the third step, when the counterpart terminal moves from the communication network of the second router to the third communication network, the second router, in accordance with the request message, And transmit the request message to the counterpart terminal via the third router that controls the third communication network.

In one embodiment, in the third step, when the counterpart terminal moves from the communication network of the second router to the third communication network, the third router corresponding to the third communication network includes new position information of the counterpart terminal And sending a registration message to the second router.

A method for generating a host ID tag in a Host Identity Protocol network environment according to another aspect of the present invention includes a step of performing a hash encoding of a host identifier of a counterpart terminal and a public key Generating a Host Identity Tag of a first bit; And generating the host identification tag of the second bit by adding the initial position information of the counterpart terminal to the host identification tag of the first bit.

According to an embodiment of the present invention, at least one or more of the following effects can be obtained.

First, in a communication system of a Host Identity Protocol (HIP) network environment, the system grasps the rough initial position information of the terminal only by using Host Identity Tag (HIT) information, Messages can be transmitted quickly.

Second, in the communication system of the HIP network environment, communication between a requesting terminal and a responder can be performed without a centralized Rendezvous Server.

Thirdly, in the communication system of the HIP network environment, the router of the requesting terminal and the counterpart terminal exchange messages directly with the registered router to prevent the concentration of data, thereby improving the data transmission speed, minimizing the unintentional message passing, It is possible to shorten the time required for searching for the location.

The effects of the present invention are not limited to the effects described above. Unless stated, the effects will be apparent to those skilled in the art from the description and the accompanying drawings.

1 is a configuration diagram of a communication system of a Host Identity Protocol (HIP) network environment according to an embodiment of the present invention.
2A is a configuration diagram of a requesting terminal constituting a communication system in an HIP network environment according to an embodiment of the present invention.
FIG. 2B is a configuration diagram of a router constituting a communication system of the HIP network environment according to an embodiment of the present invention.
3A to 3C are diagrams illustrating a mapping table stored in a router constituting a communication system of the HIP network environment according to an embodiment of the present invention.
4 is a flowchart of a method of communicating in a host identification protocol network environment according to an embodiment of the present invention.
FIG. 5 is a configuration diagram of a communication system in an HIP network environment according to an embodiment of the present invention, in which a counterpart terminal moves to another communication network.
FIG. 6 is a flowchart of a communication method in a HIP network environment according to an embodiment of the present invention, illustrating a process of communicating with a counterpart terminal moved to another communication network.

Other advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Although not defined, all terms (including technical or scientific terms) used herein have the same meaning as commonly accepted by the generic art in the prior art to which this invention belongs. Terms defined by generic dictionaries may be interpreted to have the same meaning as in the related art and / or in the text of this application, and may be conceptualized or overly formalized, even if not expressly defined herein I will not.

A communication system of a Host Identity Protocol (HIP) network environment according to an exemplary embodiment of the present invention includes a request message transmitted from a requesting terminal to a first router for communication with an initiator The initial position information of the counterpart terminal is included. The first router transmits the request message to the second router corresponding to the initial location information (initial access area) of the counterpart terminal in a quick manner according to the request message. The second router stores a mapping table indicating a correspondence relationship between Host Identity Tag (HIT) information and location information (IP address) to the terminal corresponding to the initial location information of the counterpart terminal. The second router retrieves the IP address corresponding to the HIT information of the counterpart terminal in the mapping table and transmits a request message to the counterpart terminal.

According to the communication system of the HIP network environment according to the embodiment of the present invention, the initial location information of the other terminal can be grasped only by the HIT host identification tag information and the request message can be transmitted to the communication network of the other terminal. In addition, the routers of the respective communication networks store a mapping table indicating the correspondence relationship between the HIT information and the IP address to the terminal corresponding to the individually assigned initial position information, exchange messages with the terminal corresponding to the initial position information Since the communication path between the requesting terminal and the counterpart terminal is set, communication between the requesting terminal and counterpart terminal is possible without a rendezvous server.

1 is a configuration diagram of a communication system of a Host Identity Protocol (HIP) network environment according to an embodiment of the present invention. Referring to FIG. 1, a communication system 100 of an HIP network environment according to an embodiment of the present invention includes terminals 111, 121, and 131 and routers 112, 122, and 132. The terminals 111, 121, and 131 may include, but are not limited to, a computer, a notebook, a PDA (Personal Digital Assistant), or a smart phone. Each of the routers 112, 122, and 132 may correspond to the communication networks 110, 120, and 130 in a one-to-one correspondence.

The requesting terminal 111 communicates with the first router 112 in the first communication network 110 while the counterpart terminal 121 communicates with the second router 122 in the second communication network 120 and the terminal 131 transmits, The third router 130 communicates with the third router 132 in the third communication network 130. The initiator 111 transmits the data packet to the responder 121 through the relay of the routers 112 and 122 or receives the data packet from the counterpart terminal 121.

The first router 112 manages the first communication network 110, the second router 122 manages the second communication network 120, and the third router 132 manages the third communication network 130 . The first communication network 110, the second communication network 120, and the third communication network 130 may be different business networks established by different businesses. In the embodiment shown in FIG. 1, although each communication network 110, 120, and 130 is separate, some overlapping areas may be included in different communication networks 110, 120, and 130.

The requesting terminal 111 located in the first communication network 110 transmits a request message to the counterpart terminal 121 located in the second communication network 120 so that the requesting terminal 111 and the counterpart terminal 121 ) Is set as an example. On the contrary, when the terminals 121 and 131 located in the second communication network 120 or the third communication network 130 function as a requesting terminal to transmit a request message and the terminal 111 located in the first communication network 110, It is also possible that the other terminal becomes the other terminal.

In the embodiment shown in FIG. 1, three communication networks 110, 120 and 130 are illustrated, but the number of communication networks is not limited thereto. Although there are a plurality of terminals in each communication network 110, 120, and 130, only one terminal 111, 121, 131 is shown in each communication network 110, 120, 130 for convenience of explanation.

The requesting terminal 111 generates a request message requesting communication with the counterpart terminal 121 and transmits the request message to the first router 112. In one embodiment, the request message includes a header including the IP address of the requesting terminal 111, a Host Identity Tag (HIT) of the requesting terminal 111, a host identification tag (HIT) and the initial location information of the counterpart terminal 121.

In one embodiment, the DNS server (not shown) stores host identification tag (HIT) information of the counterpart terminal 121 and initial position information of the counterpart terminal 121. The requesting terminal 111 can obtain the host identification tag (HIT) of the counterpart terminal 121 and the initial position information of the counterpart terminal 121 from the DNS server.

2A is a configuration diagram of a requesting terminal constituting a communication system in an HIP network environment according to an embodiment of the present invention. 2A, the request terminal 111 includes a hash encoding unit 21 and an initial position information adding unit 23. [ Unlike the conventional terminal, the terminal according to the embodiment of the present invention includes the initial position information adding unit 23. Also, unlike the conventional terminal, the terminal according to the embodiment of the present invention generates a host identification tag (HIT) having a bit smaller than 128 bits by the hash encoding unit 21. [

In one embodiment, the hash encoding unit 21 performs a hash encoding process using a unique host identifier (HI) of the counterpart terminal 121 and an encrypted public key, bit) information of the host identification tag (HIT).

In the existing HIP network environment, the HIT information is generated through a hash encoding process using a host identifier and a public key, and has 128-bit information.

In the embodiment of the present invention, when the initial position information of the counterpart terminal 121 is K bits, the hash encoding section 21 generates a HIT of 128-K bit information. In the embodiment shown in FIG. 2, since the initial position information is 2 bits, the hash encoding unit 21 generates the HIT of the 126-bit information.

The initial position information adding section 23 adds the initial position information (for example, the AS number) to the 126-bit HIT 22 to generate the 128-bit HIT 24, for example. The number of bits K of the initial position information can be determined according to the number of all communication networks. For example, the initial position information can be defined as K bits (K is a positive integer) satisfying the following equation (1).

[Equation 1]

N? 2 ^K <2N

In Equation 1, N (N is an integer of 2 or more) represents the number of communication networks operated by different operators. In the embodiment shown in Fig. 1, since the number N of communication networks is 3, the initial position information can be determined to be 2 bits.

The initial location information may include, for example, an autonomous system number. However, information other than the autonomous system (AS) number may be used as the initial position information of the counterpart terminal 121. Here, the initial position information does not necessarily indicate the actual position of the terminal. For example, the initial location information may include information corresponding to the first registered network when the terminal is subscribed to the network. In the embodiment shown in FIG. 1, each terminal has an AS number of, for example, '00', '01', or '10'.

The requesting terminal 111 transmits a request message including the initial location information (e.g., 2 bits) and the host identification tag (e.g., 126 bits) of the counterpart terminal 121 to the first router 112. [ That is, unlike in the existing HIP network environment, the request message from the requesting terminal 111 includes the initial location information of the counterpart terminal 121.

FIG. 2B is a configuration diagram of a router constituting a communication system of the HIP network environment according to an embodiment of the present invention. Referring to FIG. 2B, each of the routers 112, 122, and 132 includes a receiving unit 25, a transmitting unit 26, a searching unit 27, and a storing unit 28.

The receiving unit 25 receives a request message from the requesting terminal 111. The transmitting unit 26 confirms the initial position information of the counterpart terminal 121 in the request message and transmits the request message to the second router 122 corresponding to the initial position information.

The search unit 27 of the second router 122 identifies the host ID tag of the counterpart terminal 121 in the request message received from the first router 112 and transmits the host ID tag to the counterpart terminal 121 in the mapping table. (E.g., an IP address) corresponding to the host identification tag (HIT) information of the host. The transmitting unit 26 of the second router 122 transmits a request message to the counterpart terminal 121 using the location information of the counterpart terminal 121 searched.

In the storage unit 28 of each of the routers 112, 122 and 132, a mapping table indicating the correspondence relationship between the host identification tag (HIT) and the location information (IP address) is stored for different terminals having corresponding initial location information.

3A to 3C are diagrams illustrating a mapping table stored in a router constituting a communication system of the HIP network environment according to an embodiment of the present invention. 3A to 3C, the first router 112 stores a mapping table 31 for terminals having the AS number '00', and the second router 122 stores the mapping table 31 for the AS numbers' And the third router 132 stores the mapping table 33 for the terminals having the AS number '10'.

The number of bits of the initial position information (AS number) corresponding to each of the routers 112, 122 and 132 is shown to be the same in the embodiment shown in FIGS. 3A to 3C, but the number of bits of the initial position information (AS number) The number of bits may be different. For example, if the number of bits of the initial position information corresponding to the third router 132 is 3 bits, the request terminal 111 generates a 125-bit HIT through the hash encoding and adds 3-bit initial position information A 128-bit HIT can be generated.

Each of the routers 112, 122 and 132 responds to the HIT of the counterpart terminal 121 in the mapping tables 31, 32 and 33 of the terminals having the initial position information corresponding to the respective routers 112, 122 and 132, And transmits a request message to the counterpart terminal 121 using the retrieved IP address. Therefore, it is possible to set a communication path between the requesting terminal 111 and the counterpart terminal 121 without a centralized Rendezvous Server.

Hereinafter, the operation and operation of a communication system of a Host Identity Protocol (HIP) network environment according to an embodiment of the present invention and operation of the HIP network environment Will be described. 4 is a flowchart of a method of communicating in a host identification protocol network environment according to an embodiment of the present invention.

Referring to FIGS. 1 to 4, first in step S40, the request term 111 generates a HIT. That is, in step S401, the hash encoding unit 21 of the requesting terminal 111 generates a hash encoding using a unique host identifier (HI) of the counterpart terminal 121 and an encrypted public key In step S402, the initial location information adding unit 23 of the requesting terminal 111 adds the 128-K bit (K is a positive integer) host identification tag to the 128-K bit host identification tag K-bit initial position information is added to generate a 128-bit host identification tag.

The requesting terminal 111 transmits a request message including the initial location information of the counterpart terminal 121 and the host ID tag to the first router 112 in step S41. In step S42, the first router 112 confirms the initial position information of the counterpart terminal 121 in the request message. If the initial position information of the counterpart terminal 121 is '01', for example, in step S43, the transmitting unit 26 of the first router 112 transmits, to the second router 122 corresponding to the initial position information '01' Lt; RTI ID = 0.0 &gt; I1. &Lt; / RTI &gt;

In step S44, the second router 122 retrieves location information (e.g., an IP address) corresponding to the host ID tag of the counterpart terminal 121 in the mapping table. The transmitting unit 26 of the second router 122 transmits the request message to the counterpart terminal 121 using the location information of the counterpart terminal 121 in step S45.

The counterpart terminal 121 transmits the response message R1 to the requesting terminal 111 via the second router 122 and the first router 112 in sequence in response to the request message in step S46. The response message R1 includes a header including the IP address of the requesting terminal 111 and the counterpart terminal 121 and the HIT information and the verification value of the requesting terminal 111 and the counterpart terminal 121. [

The requesting terminal 111 transmits the verification message I2 to the counterpart terminal 121 sequentially via the first router 112 and the second router 122 in response to the response message R1 in step S47. The verification message I2 includes response information for the verification value of the response message R1.

The counterpart terminal 121 transmits an acknowledgment message R2 to the requesting terminal 111 via the second router 122 and the first router 112 in step S48. The confirmation message R2 includes acknowledgment (ACK) information for the verification message I2.

In this way, messages (I1, R1, I2, R2) transmitted between the requesting terminal 111 and the counterpart terminal 121 via the first router 112 and the second router 122 are transmitted to the requesting terminal 111 The data packet is transmitted from the requesting terminal 111 to the counterpart terminal 121 via the first router 112 and the second router 122 in step S49 . Alternatively, a data packet may be transmitted from the counterpart terminal 121 to the requesting terminal 111 in step S49.

FIG. 5 is a configuration diagram of a communication system in an HIP network environment according to an embodiment of the present invention, in which a counterpart terminal moves to another communication network. FIG. 6 is a flowchart of a communication method in a HIP network environment according to an embodiment of the present invention, illustrating a process of communicating with a counterpart terminal moved to another communication network. Referring to FIGS. 5 and 6, since the processes of steps S60 to S63 are the same as those of FIG. 4, duplicate descriptions are omitted.

When the counterpart terminal 121 moves from the second communication network 120 to the third communication network 130, the third router 132 transmits a registration message to the second router 122. The registration message includes location information (e.g., IP address) of the counterpart terminal 121. The second router 122 confirms the new location information of the counterpart terminal 121 from the registration message and updates the mapping table.

In step S64, the second router 122 searches for the location information corresponding to the HIT of the counterpart terminal 121 in the updated mapping table. In step S65, the second router 122 confirms that the counterpart terminal 121 has moved to the third communication network 130, transmits the request message I1 to the third router 132, Transmits a request message (I1) to the counterpart terminal (121).

In steps S66 to S68, messages R1, I2, and R2 are transmitted between the requesting terminal 111 and the counterpart terminal 121 via the first router 112 and the third router 132, do. The data packet is transmitted between the request terminal 111 and the counterpart terminal 121 via the communication path set in step S69.

5 and FIG. 6, although an unintentional message passing from the second router 122 to the third router 132 occurs, the average of the movements of the counterpart terminal 121 The communication route setting time is shortened because the distance between the generated routers 122 and 132 is much shorter.

According to the embodiment of the present invention, it is possible to grasp the rough initial position information (for example, the AS number) of the counterpart terminal 121 only by using the host ID tag information and to quickly transmit the request message to the communication network of the counterpart terminal 121 have. In addition, the routers of the respective communication networks store a mapping table indicating the correspondence relationship between the HIT information and the IP address to the terminal corresponding to the individually assigned initial position information, exchange messages with the terminal corresponding to the initial position information The communication path between the initiator and the responder can be set without a centralized Rendezvous Server because the communication path between the requesting terminal and the responder is set. Also, in the communication system of the HIP network environment, the router of the requesting terminal and the router of the counterpart terminal directly exchange messages with each other to prevent data concentration, thereby improving the data transmission speed, The location searching time can be shortened.

It is to be understood that the above-described embodiments are provided to facilitate understanding of the present invention, and do not limit the scope of the present invention, and it is to be understood that various modifications are possible within the scope of the present invention. It is to be understood that the technical scope of the present invention should be determined by the technical idea of the claims and that the technical scope of the present invention is not limited to the literary description of the claims, To the invention of the invention.

21: Hash encoding unit 23: Initial position information adding unit
25: Receiving unit 26:
27: search unit 28: storage unit
31, 32, 33: mapping table 100: communication system of HIP network environment
110: first communication network 111: requesting terminal (Initiator)
112: first router 120: second network
121: Responder 122: Second router
130: third communication network 131: terminal
132: third router

Claims (20)

A plurality of routers for managing different communication networks; And
And a requesting terminal located in the first communication network and requesting communication with the counterpart terminal,
Different routers store a mapping table indicating the correspondence relationship between the host identification tag and the location information for terminals corresponding to different initial location information,
The requesting terminal transmits a request message including the initial location information of the counterpart terminal and the host ID tag to the first router managing the first communication network,
The first router transmits the request message to a second router corresponding to the initial location information according to the request message,
The second router searches the mapping table for location information corresponding to the host ID tag of the counterpart terminal and transmits the request message to the counterpart terminal,
Wherein the initial location information includes an autonomous system number of the counterpart terminal. The method according to claim 1,
The requesting terminal,
Generates a 128-K (K is a positive integer) bit host identification tag through hash encoding of a host identifier and a public key, To generate the host identification tag of 128 bits by adding the initial position information of K bits to the host identification tag of the host identification protocol. A plurality of routers for managing different communication networks; And
And a requesting terminal located in the first communication network and requesting communication with the counterpart terminal,
Different routers store a mapping table indicating the correspondence relationship between the host identification tag and the location information for terminals corresponding to different initial location information,
The requesting terminal transmits a request message including the initial location information of the counterpart terminal and the host ID tag to the first router managing the first communication network,
The first router transmits the request message to a second router corresponding to the initial location information according to the request message,
The second router searches the mapping table for location information corresponding to the host ID tag of the counterpart terminal and transmits the request message to the counterpart terminal,
Further comprising a third router overseeing the third network,
When the counterpart terminal moves from the second communication network to the third communication network, the third router transmits a registration message including the new location information of the counterpart terminal to the second router,
The second router stores the new location information in the mapping table, searches the new location information corresponding to the host ID tag of the counterpart terminal according to the request message from the first router, And transmits the request message to the counterpart terminal via the Host Identity Protocol network. delete A plurality of routers for managing different communication networks; And
And a requesting terminal located in the first communication network and requesting communication with the counterpart terminal,
Different routers store a mapping table indicating the correspondence relationship between the host identification tag and the location information for terminals corresponding to different initial location information,
The requesting terminal transmits a request message including the initial location information of the counterpart terminal and the host ID tag to the first router managing the first communication network,
The first router transmits the request message to a second router corresponding to the initial location information according to the request message,
The second router searches the mapping table for location information corresponding to the host ID tag of the counterpart terminal and transmits the request message to the counterpart terminal,
And the location information includes an IP address of the counterpart terminal. A plurality of routers for managing different communication networks; And
And a requesting terminal located in the first communication network and requesting communication with the counterpart terminal,
Different routers store a mapping table indicating the correspondence relationship between the host identification tag and the location information for terminals corresponding to different initial location information,
The requesting terminal transmits a request message including the initial location information of the counterpart terminal and the host ID tag to the first router managing the first communication network,
The first router transmits the request message to a second router corresponding to the initial location information according to the request message,
The second router searches the mapping table for location information corresponding to the host ID tag of the counterpart terminal and transmits the request message to the counterpart terminal,
A communication system in a Host Identity Protocol network environment in which different communication networks are operator networks operated by different operators. A hash encoding unit for generating a host identification tag of a first bit through hash encoding of a host identifier of a counterpart terminal and a public key; And
And an initial position information adding unit for adding the initial position information of the counterpart terminal to the host identification tag of the first bit to generate a host identification tag of the second bit. 8. The method of claim 7,
To the first router, a request message including the IP address information of the terminal, the host ID tag of the terminal, and the host ID tag of the second bit of the counterpart terminal. 9. The method according to claim 7 or 8,
If another number of networks operated by different operators in N (N is an integer of 2 or more), initial location information of the correspondent node is determined K bits (K is the amount satisfying the condition of N≤2 ^K <2N Integer),
The terminal generates 128-K (K is a positive integer) bit host identification tag through the hash encoding of the host identifier and the public key of the counterpart terminal, and the 128-K (K is a positive integer) To generate a 128-bit host identification tag. 9. The method according to claim 7 or 8,
Wherein the initial location information includes an autonomous system number of the counterpart terminal. 9. The method according to claim 7 or 8,
Transmitting a request message including the host identification tag of the second bit to the first router, receiving a response message from the counterpart terminal from the first router, and transmitting a verification message for the response message to the first router Transmitting terminal. delete Host Identity Protocol A router in a network environment,
A transmission unit for confirming the first initial position information of the first counterpart terminal in the first request message received from the first requesting terminal and transmitting the first request message to another router corresponding to the first initial position information;
A storage unit for storing a mapping table indicating a correspondence relationship between a host identity tag and location information for one or more terminals corresponding to the second initial location information; And
A search unit for checking the host ID tag of the second counterpart terminal in the second request message of the second requesting terminal received from another router and searching for the position information corresponding to the host ID tag of the second counterpart terminal in the mapping table &Lt; / RTI &
Wherein the transmitting unit transmits the second request message to the second counterpart terminal or another router corresponding to the position information using the position information of the second counterpart terminal. 14. The method of claim 13,
Wherein the first initial position information and the second initial position information include an autonomous system number of the counterpart terminal,
And the location information includes an IP address of the second counterpart terminal. A first step of the requesting terminal of the first communication network transmitting a request message including the initial location information of the counterpart terminal and the host ID tag to the first router;
A second step of the first router transmitting the request message to a second router corresponding to the initial location information according to the request message; And
And a third step of the second router retrieving location information corresponding to the host ID tag of the counterpart terminal from the mapping table and transmitting the request message to the counterpart terminal,
In the third step,
When the counterpart terminal moves from the communication network of the second router to the third communication network, the second router searches the location information corresponding to the host ID tag of the counterpart terminal according to the request message, And transmits the request message to the counterpart terminal via a third router of the Host Identity Protocol network. 16. The method of claim 15,
In the first step,
Generating a 128-K (K is a positive integer) bit host identification tag through hash encoding of a host identifier and a public key; And
And adding the K-bit initial location information to the 128-K-bit host identification tag to generate the 128-bit host identification tag. delete A first step of the requesting terminal of the first communication network transmitting a request message including the initial location information of the counterpart terminal and the host ID tag to the first router;
A second step of the first router transmitting the request message to a second router corresponding to the initial location information according to the request message; And
And a third step of the second router retrieving location information corresponding to the host ID tag of the counterpart terminal from the mapping table and transmitting the request message to the counterpart terminal,
In the third step,
When the counterpart terminal moves from the communication network of the second router to the third communication network, the third router corresponding to the third communication network transmits a registration message including the new location information of the counterpart terminal to the second router A method of communicating in a Host Identity Protocol (&quot; Network &quot;) network environment. A first step of the requesting terminal of the first communication network transmitting a request message including the initial location information of the counterpart terminal and the host ID tag to the first router;
A second step of the first router transmitting the request message to a second router corresponding to the initial location information according to the request message; And
And a third step of the second router retrieving location information corresponding to the host ID tag of the counterpart terminal from the mapping table and transmitting the request message to the counterpart terminal,
The initial position information includes an autonomous system number of the counterpart terminal,
Wherein the location information includes an IP address of the counterpart terminal,
A communication method of a host identity protocol network in which each router's communication network is a business network operated by different providers. Generating a Host Identity Tag of a first bit through hash encoding of a host identifier and a public key of the counterpart terminal; And
And generating a host ID tag of a second bit by adding initial position information of the counterpart terminal to the host ID tag of the first bit. Generation method.

Images