KR20120015243A - Ipv6 communication architecture using 6lowpan and communication method thereof - Google Patents

Abstract

PURPOSE: An IPv6 communication architecture and a communication method thereof are provided to easily transmit a packet between 6LoWPAN and IPv6 having unique address. CONSTITUTION: An internal node(IN) and an external node(ON) confirm the existence of ID corresponding to IPv6(Internet Protocol version6) of a transmission point and a reception point. The internal node and the external node request ID allocation to a gateway(G). The gateway generates an ID for allocation with reference to an address assignment table. The gateway transmits the generated ID to the internal node and the external node.

Description

IP6 communication architecture and communication method using 6LFANAN {IPv6 COMMUNICATION ARCHITECTURE USING 6LoWPAN AND COMMUNICATION METHOD THEREOF}

The present invention relates to a communication architecture and a communication method thereof. More specifically, the present invention relates to an IPv6 communication architecture using 6LoWPAN that enables communication between internal nodes and external nodes, which are heterogeneous domains, in 6LoWPAN connecting sensor networks and IPv6, and a communication method thereof.

Recently, with the development of wireless communication technology, wireless communication protocols of various standards have been proposed. Among them, 6LoWPAN (IPv6 over Low power WPAN) is a standard of IP-USN (Ubiquitous Sensor Network), a wireless private network for implementing low power in IPv6, and is a technology that directly interworks a sensor network with an IPv6 network.

In 6LoWPAN, in order to apply IPv6 to IEEE 802.15.4 based low-rate WPAN, header compression and mesh routing are performed by placing an adaptation layer between the IEEE 802.15.4 MAC layer and the IPv6 layer.

By the way, although the method of managing the address of the device between IPv6 and IEEE 802.15.4 is well known, in the case of routing, since each protocol has its own address system, the standard packet size is different, so that the devices are connected between nodes via IPv6. When performing communication, it is difficult to define an address of a source where data is stored and an address of a destination where data is to be transmitted in a limited MAC payload field.

In particular, in the case of the sensor node included in 6LoWPAN, the location is not specified and a plurality of sensor nodes are generally present.

Accordingly, an object of the present invention is to provide an IPv6 communication architecture and a communication method using 6LoWPAN which can easily transmit data between 6LoWPAN having a unique address system and an external IPv6 by automatically assigning an ID to an address address. It is done.

In addition, an object of the present invention is to provide an IPv6 communication architecture using 6LoWPAN that can assign IDs by address using an address assignment table, and a communication method thereof.

The purpose of the present invention is to provide an IPv6 communication architecture using 6LoWPAN including a gateway and internal and external nodes, wherein the node checks whether an ID corresponding to IPv6 of each data transmission point and a reception point exists, and identifies the ID. If the ID does not exist, the gateway requests ID assignment, and the gateway generates an ID for which the assignment is requested by referring to an address assignment table, and then transmits the generated ID to the node that requested the assignment. It is achieved by IPv6 communication architecture using 6LoWPAN.

The address assignment table may store an IPv6 address and an ID corresponding to the IPv6 address.

The gateway, when the ID allocation request is received, searches the address assignment table to confirm whether an ID corresponding to the IPv6 address of the node exists, and if the ID corresponding to the IPv6 address does not exist, the ID. May be newly generated and transmitted to the node.

A packet transmitted from the node may optionally include an IP header or an ID header.

The ID header may include an ID of a transmission point of the data, an ID of a reception point of the data, and a protocol type.

On the other hand, the communication method of the IPv6 communication architecture using 6LoWPAN including the gateway and the internal and external nodes, the communication method comprising the steps of: checking whether there is an ID corresponding to the IPv6 address of each data transmission point and destination point; Requesting an ID assignment from the gateway if the ID does not exist; Generating, by the gateway, an ID for which the allocation is requested by referring to an address allocation table; The object is also achieved by a communication method of the IPv6 communication architecture using 6LoWPAN, characterized in that it comprises the step of transmitting the generated ID to the node requesting the allocation.

The address assignment table may store an IPv6 address and an ID corresponding to the IPv6 address.

The generating of the ID for which the allocation is requested, when receiving the ID allocation request, searches the address allocation table to confirm whether an ID corresponding to the IPv6 address of the node exists and corresponds to the IPv6 address. If no ID exists, a new ID may be generated and transmitted to the node.

A packet transmitted from the node may optionally include an IP header or an ID header.

The ID header may include an ID of a transmission point of the data, an ID of a reception point of the data, and a protocol type.

According to the IPv6 communication architecture and its communication method using 6LoWPAN according to the present invention, by automatically assigning IDs to address addresses, it is possible to easily transmit packets between 6LoWPAN having its own address system and external IPv6.

In addition, according to the IPv6 communication architecture and its communication method using 6LoWPAN according to the present invention, it is possible to accurately assign IDs by address using an address assignment table.

1 is a block diagram illustrating the configuration of a gateway and a node included in an IPv6 communication architecture using 6LoWPAN according to the present invention.
2 is a view for explaining an address assignment table stored in a gateway according to the present invention;
3A and 3B are diagrams illustrating the configuration of a header used by an IPv6 communication architecture using 6LoWPAN according to the present invention.
4 is a diagram illustrating the configuration of an ID header used by the IPv6 communication architecture using 6LoWPAN according to the present invention.
5 is a flowchart illustrating a communication method of an IPv6 communication architecture using 6LoWPAN according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the following will describe a preferred embodiment of the present invention, but the technical idea of the present invention is not limited thereto and may be variously modified and modified by those skilled in the art.

Hereinafter, an IPv6 communication architecture and a communication method using 6LoWPAN according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating the configuration of a gateway and a node included in an IPv6 communication architecture using 6LoWPAN according to the present invention. As shown in FIG. 1, the IPv6 communication architecture using 6LoWPAN according to the present invention includes a gateway G, an internal node IN, and an external node ON to use an IPv6 network.

Gateway (G) provides interoperability with 6LoWPAN and external IP networks. The gateway G according to the invention also performs the general functions of compressing and decompressing packets and of fragmenting and recombining packets at the sub-IP layer.

An inner node (IN) includes a sensor node used in 6LoWPAN and must be directly controlled by an existing IP network. Each internal node (IN) has a unique address system, which is generally not a specific location of the device is present. An outer node (ON) includes a node included in an external IPv6 IP network.

The internal node (IN) and the external node (ON) according to the present invention checks the existence of the ID corresponding to the IPv6 of each of the transmission point and the receiving point of the data, and assigns the ID to the gateway (G) when the ID does not exist Ask. As a result, data transfer can be easily performed between 6LoWPAN having its own address system and external IPv6.

In the IPv6 communication architecture using 6LoWPAN according to the present invention, the type of packet transmission is largely transmitted from an internal node (IN) to an external node (hereinafter referred to as outbound traffic), and internal from an external node (ON). In case of being transmitted to the node IN (hereinafter referred to as inbound traffic), it may be divided. In the following, the operations of the gateway G and the nodes IN and ON necessary for transmitting packets in each case will be described.

First, in the case of outbound traffic, the internal node (IN), which is a data transmission point, checks whether it has an ID for its IPv6. Thus, if it has its own ID, the ID is used. Otherwise, the gateway G is requested to be assigned an ID.

Next, the internal node IN checks whether the internal node IN has an ID for IPv6 of the external node ON, which is a reception point of data. Thus, if the ID of the external node ON is used, the ID is used. Otherwise, the gateway G is requested to be assigned an ID.

Second, in the case of inbound traffic, the gateway (G) checks whether or not it has an ID for IPv6 of the external node (ON) which is a transmission point of data. Thus, if the external node has an ID for IPv6, the ID is used. Otherwise, the ID is newly assigned.

Next, the gateway G checks whether it has an ID for IPv6 of the internal node IN, which is a reception point of data. Thus, if the internal node (IN) has an ID for IPv6, the ID is used. Otherwise, the ID is newly assigned.

The process of requesting allocation of an ID to the gateway G from the internal node IN and the external node ON is as follows.

The internal node IN transmits a request ID (RQID) message to the gateway G when ID assignment is required. This message sends information about the IP of the node that needs to be assigned an ID. At this time, the gateway G receives the RQID message and transmits a RPID (Reply ID) message to the node requesting the assignment of the ID.

Meanwhile, the gateway G according to the present invention generates an ID for which allocation is requested by referring to the address assignment table T, and then transmits the generated ID to the internal node IN and the external node ON that have requested the allocation. do. 2 is a diagram illustrating an address assignment table stored in the gateway G according to the present invention. Here, the IPv6 address is 128 bits long and can be stored with a total length of 140 bits per record with an ID of 12 bits. Here, 16-bit address mapping of 6LoWPAN is performed using a 64-bit EUI-64 identifier rather than using a 128-bit IPv6 address.

Upon receiving the request for ID assignment for the IP address, the gateway G searches its own address assignment table T. Thus, if the ID has an ID, the corresponding ID is transmitted. If the ID does not exist, a new ID is generated and transmitted to the node requesting the ID.

On the other hand, when the internal node IN transmits a packet using IPv6 using an ID, the IP header is changed to an ID header. FIG. 3A is a structure of a packet transmitted using IPv6, and FIG. 3B is a structure of a packet transmitted using ID. Here, since the size of the small packet is given the maximum size of the physical layer packet of 127 bytes, the frame size available in the MAC layer is 102 bytes.

4 is a structure of an ID header included when a packet is transmitted using an ID in the communication architecture according to the present invention. As shown in FIG. 4, the ID header according to the present invention includes an ID of a node which is a transmission point of data, an ID of a node which is a reception point of data, and an ID of a protocol type. . Here, the ID of the node has a size of 12 bits and the ID of the protocol type has a size of 8 bits.

Hereinafter, a communication method of an IPv6 communication architecture using 6LoWPAN according to the present invention will be described with reference to FIG. 5.

First, it is checked whether an ID corresponding to an IPv6 address of each of a data transmission point and a reception point exists. As a result of the check in step S510, if the ID does not exist, the gateway G is requested to allocate the ID (S520).

Next, the gateway G generates an ID for which allocation is requested by referring to the address assignment table T (S530). Specifically, generation of an ID according to a request of a node, when an ID allocation request is received, checks whether the ID corresponding to the node's IPv6 address exists by searching the address assignment table, and an ID corresponding to the IPv6 address exists. If not, this is done by creating a new ID and sending it to the node.

Finally, the ID generated in step S530 is transmitted to the node requesting the allocation (S540).

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

G: Gateway T: Address assignment table
IN: Internal node ON: External node

Claims (10)

In the IPv6 communication architecture using 6LoWPAN including a gateway (G) and an internal node (IN) and an external node (ON),
The internal node (IN) and the external node (ON),
Check whether there is an ID corresponding to IPv6 of each data transmission point and reception point, and if the ID does not exist, request the gateway G to assign an ID.
The gateway G,
By using the 6LoWPAN, after generating the ID requested for the assignment with reference to the address assignment table (T), the generated ID is transmitted to the internal node (IN) and the external node (ON) requesting the assignment. IPv6 communication architecture. The method of claim 1,
The address assignment table (T) is an IPv6 communication architecture using 6LoWPAN, characterized in that for storing the IPv6 address and the ID corresponding to the IPv6 address. The method of claim 2,
The gateway G,
When the request for assignment of the ID is received, the address assignment table T is searched to determine whether an ID corresponding to the IPv6 address of the node exists, and if the ID corresponding to the IPv6 address does not exist, the ID is assigned. IPv6 communication architecture using 6LoWPAN, characterized in that the newly generated and transmitted to the node. The method of claim 1,
An IPv6 communication architecture using 6LoWPAN, wherein the packet transmitted from the node optionally includes an IP header or an ID header. The method of claim 4, wherein
The ID header,
An IPv6 communication architecture using 6LoWPAN, characterized in that it includes an ID of a transmission point of the data, an ID of a reception point of the data, and a protocol type. In a communication method of an IPv6 communication architecture using 6LoWPAN including a gateway G and an internal node IN and an external node ON,
Checking whether an ID corresponding to an IPv6 address of each of a transmission point and a reception point of data exists;
Requesting ID allocation from the gateway G when the ID does not exist;
Generating, by the gateway (G), an ID for which the allocation is requested by referring to an address allocation table (T); And
And transmitting the generated ID to the node requesting the allocation. 6. The method according to claim 6,
The address assignment table (T) stores an IPv6 address and an ID corresponding to the IPv6 address. The communication method of the IPv6 communication architecture using 6LoWPAN. The method of claim 7, wherein
Generating the ID requested to be assigned,
When the request for the assignment of the ID is received, the address assignment table T is searched to determine whether there is an ID corresponding to the IPv6 address of the node, and if the ID corresponding to the IPv6 address does not exist, the ID is assigned. A communication method of an IPv6 communication architecture using 6LoWPAN, characterized in that the newly generated and transmitted to the node. The method according to claim 6,
The packet transmitted from the node optionally includes an IP header or an ID header. The communication method of the IPv6 communication architecture using 6LoWPAN. The method of claim 9,
The ID header,
And a protocol type and a protocol type. 6. A communication method of an IPv6 communication architecture using 6LoWPAN, comprising: an ID of a transmission point of the data, an ID of a reception point of the data, and a protocol type.

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