KR20120120718A - Communication Method Between Sensor Node And Core Network For Sensor Network - Google Patents

Abstract

PURPOSE: A communication method between a sensor node and a core network is provided to protect a core network from the access of a sensor node which is not authenticated by the authentication procedure of the sensor node. CONSTITUTION: A sensor node determines the existence of a core network identifier(310). When the core network identifier is not existed, the sensor node transmits an authentication request for a core network including a sensor node identifier and the unique identifier of the sensor node to a gateway(330). The sensor node receives an authorization permission message including the core network identifier from the gateway(350). [Reference numerals] (310) Determining the existence of a core network identifier; (330) Transmitting an authentication request for a core network including a unique identifier of a sensor node and a gateway identifier to a gateway; (350) Receiving an authorization permission message including the core network identifier from the gateway; (AA) Start; (BB) Yes; (CC) No; (DD) End; (EE) Is there a core network identifier?

Description

Communication method between sensor node and core network for sensor network {Communication Method Between Sensor Node And Core Network For Sensor Network}

The present invention relates to a communication method of a sensor node for a sensor network, and more particularly, to a method for protecting a core network from access of an unauthorized sensor node through a sensor node authentication procedure.

Each sensor node constituting the wireless sensor network can be applied to various applications such as disaster prevention system and location-based service by acquiring sensing information through the mounted sensor and transmitting the sensing information to the core network through the sink node or gateway. The core network includes not only a backbone network or an internet network but also an infrastructure and a network specific to the sensor network service.

In general, sensor nodes are distinguished by a fixed ID input in advance or an ID assigned to a personal area network (PAN) coordinator. This point is the core network that has interface between user, user equipment (UE) or application server (AS, Application Server) and various sensor node terminals. It is not easy to distinguish the sensing information, and if the number of sensor nodes increases rapidly, duplicate information may provide incorrect information. In addition, when considering the diversification of sensor node terminal providers, there is a problem in providing an appropriate service because service access rights may be limited. Therefore, the sensor node authentication method is essential for efficient sensor node management and accurate and flexible sensor network service.

The first problem to be solved by the present invention is to provide a communication method of the sensor node for the sensor network to protect the core network from the unauthorized access of the sensor node.

The second problem to be solved by the present invention is to provide a communication method of a gateway for a sensor network to protect the core network from access of unauthorized sensor nodes.

The third problem to be solved by the present invention is to provide a communication method of a network registration server for a sensor network to protect the core network from access of unauthorized sensor nodes.

In order to solve the first problem, in the communication method of a sensor node for a sensor network, determining whether there is a core network identifier, if there is no core network identifier, the unique identifier and sensor node of the sensor node Sending an authentication request for the core network including the identifier to the gateway, and receiving an authentication permission message including the core network identifier from the gateway, wherein the core network identifier is a sensor node authentication information database. It provides a method characterized in that the given to the sensor node authenticated using the unique identifier.

According to an embodiment of the present invention, in the method of communicating a sensor node for the sensor network, if there is the core network identifier, a registration request for the core network including the core network identifier and the sensor node identifier is performed. The method may include transmitting to the gateway, and receiving a registration approval message from the gateway.

Further, according to another embodiment of the present invention, in the communication method of the sensor node for the sensor network, when the gateway to which the sensor node moves and communicates is changed from the first gateway to the second gateway, the sensor node The method may include transmitting a registration request for the core network including the core network identifier and the sensor node identifier to the second gateway, and receiving a registration approval message from the second gateway.

In order to solve the second problem, the present invention provides a communication method of a gateway for a sensor network, wherein the authentication request for a core network including a unique identifier and a sensor node identifier of the sensor node is performed. Receiving from the network registration server and transmitting an authentication request for the core network including the unique identifier to a network registration server, and receiving an authentication permission message and the core network identifier from the network registration server. Storing information, the sensor node identifier, and the core network identifier information, and transmitting the authentication permission message including the core network identifier to the sensor node, wherein the core network identifier is a sensor node authentication information database. Is given to the sensor node authenticated using the unique identifier. It provides a method characterized by.

The present invention, in order to solve the third problem, in the communication method of the network registration server for the sensor network, receiving an authentication request for the core network including a unique identifier of the sensor node without a core network identifier from the gateway, Storing relationship information between the sensor node and the gateway; checking whether the unique identifier exists in the sensor node authentication information database by querying the unique identifier in a previously constructed sensor node authentication information database; If the unique identifier is present in the sensor node authentication information database, assigning the core network identifier to the sensor node, mapping the core network identifier to relationship information between the sensor node and the gateway, and mapping Of the sensor node and the gateway The step of storing system information registers the sensor node, and authentication permission message and the core network identifier is provided a method comprising the step of transmitting to the gateway.

According to the present invention, it is possible to protect the core network from the unauthorized access of the sensor node through the authentication process of the sensor node. In addition, according to the present invention, efficient management is possible when re-registration of the sensor node is required. Furthermore, according to the present invention, it is possible to support wide area mobility by providing a roaming method so that the sensor node can maintain a session when moving.

1 is a schematic diagram of a sensor network in which embodiments of the present invention are implemented.
2 is a diagram illustrating an authentication procedure of a sensor node according to an embodiment of the present invention.
FIG. 3 is a flowchart illustrating a communication method for a sensor network in detail around a sensor node in the authentication procedure of FIG. 2.
4 is a flowchart illustrating a communication method for a sensor network in a center of a gateway in FIG. 2 in more detail.
FIG. 5 is a flowchart illustrating a communication method for a sensor network in detail based on a network registration server in the authentication procedure of FIG. 2.
6 is a diagram illustrating a registration process of a sensor node according to another embodiment of the present invention.
7 is a diagram illustrating a roaming procedure of a sensor node according to another embodiment of the present invention.

Prior to the description of the specific contents of the present invention, for the convenience of understanding, the outline of the solution of the problem to be solved by the present invention or the core of the technical idea will be presented first.

In the communication method of the sensor node for the sensor network according to an embodiment of the present invention, when there is access to the core network of the sensor node, it is determined whether there is a core network identifier for identifying the sensor node. If there is no core network identifier, the sensor node sends an authentication request including the sensor node's unique identifier to the network registration server via the gateway, and the network registration server queries the sensor node's authentication information database for the unique identifier of the sensor node. By performing the authentication process. When a core network identifier is assigned to a sensor node certified as suitable in the sensor node authentication information database, the network registration server registers the authenticated sensor node and transmits the core network identifier to the sensor node via a gateway. The sensor node receiving the core network identifier communicates with the core network through the gateway to which the communication is connected.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, these examples are intended to illustrate the present invention in more detail, it will be apparent to those skilled in the art that the scope of the present invention is not limited thereby.

The configuration of the invention for clarifying the solution to the problem to be solved by the present invention will be described in detail with reference to the accompanying drawings based on the preferred embodiment of the present invention, the same in the reference numerals to the components of the drawings The same reference numerals are given to the components even though they are on different drawings, and it is to be noted that in the description of the drawings, components of other drawings may be cited if necessary. In addition, in describing the operation principle of the preferred embodiment of the present invention in detail, when it is determined that the detailed description of the known function or configuration and other matters related to the present invention may unnecessarily obscure the subject matter of the present invention, The detailed description is omitted.

1 is a schematic diagram of a sensor network according to an embodiment of the present invention.

The sensor network 110 is composed of sensor nodes 130. The sensor network provides the user with information sensed by the sensor node through communication with the core network 150. The core network 150 may include a gateway 151, a network registration server 153, and a sensor node authentication information database 155. The core network 150 may further include other devices required to provide a service. The sensor node 130 may communicate with the core network 150 through the gateway 151 and transmit a message to the network registration server 153 through the gateway 151 for authentication, registration, and roaming. The network registration server 153 may perform an authentication procedure by querying the sensor node authentication information database 155 for a unique identifier such as a MAC (Media Access Control) ID of the sensor node when the sensor node requests an authentication. The sensor node authentication information database 155 may be included in the network registration server 153 or may be implemented as a separate server. The network registration server 153 may perform a registration or roaming procedure by using the information of the sensor node registered in the network registration server 153 when requesting the registration or roaming of the sensor node 130.

2 is a diagram illustrating an authentication procedure of a sensor node according to an embodiment of the present invention.

The authentication procedure of a sensor node according to an embodiment of the present invention is a sensor node 130, a gateway 151, a home location register (network registration server, 153), and a sensor node authentication information database (MD, hereinafter, MD, 155). Can be achieved through

The sensor node 130 may form a relationship with the gateway 151 to communicate with the core network and may be assigned a sensor node identifier from the gateway. In the present invention, the above procedure is referred to as a relationship establishment procedure.

Relationships are established when the sensor node is powered up or moved to join a new sensor network. The gateway periodically transmits a radio beacon signal to the periphery to inform the sensor node of the sensor network of its presence. The radio label signal may be a beacon message. The beacon message includes not only the beacons in the standard, but also a signal for the gateway to indicate its existence in case of establishing a relationship with the core network for authentication, registration, and roaming of the sensor node. The sensor node may receive a beacon message of the gateway in order to participate in the sensor network and transmit a relationship establishment request message including a unique identifier of the sensor node to the gateway to form a relationship with the gateway. The unique identifier of the sensor node may use a media access control (MAC) ID. The gateway that receives the relationship request message of the sensor node allocates a personal area network (PAN) ID and a sensor node identifier to the sensor node and transmits a relationship formation approval message including the PAN ID and the sensor node identifier to the sensor node. Can be. A relationship is established between the gateway and the sensor node by the sensor node receiving a relationship establishment approval message and sending an acknowledgment message to the gateway.

Embodiments of the present invention relating to relationship establishment will be described as embodiments in two types of environments. One embodiment is a method for establishing a relationship in a sensor network environment of a 'Star Topology' type. Star Topology refers to an environment in which multiple devices form one hop in one coordinator. The sensor nodes operate in the channel scanning mode to access the network. When the node receives the coordinator's beacon message, the sensor node performs a scan and, if the scan succeeds, sends a relationship request message including the sensor node's unique identifier to the gateway. Can be. The coordinator that has sent the relation request message may generate a sensor node identifier and transmit a relation approval message including the sensor node identifier to the sensor node. The sensor node that has received the relationship establishment approval message may complete the relationship establishment procedure by storing the sensor node identifier in a storage medium and transmitting an ACK to the gateway. The coordinator may be a gateway or a sink node having an interface with the gateway. The coordinator may check whether the sensor node identifier has already been assigned by checking the mapping table in which the unique identifier of the sensor node is mapped with the sensor node identifier to avoid the duplicate assignment of the sensor node identifier. As a result of the check, if no assignment has been made, a new sensor node identifier may be generated and stored in the mapping table, and the sensor node identifier may be transmitted to the sensor node to avoid duplicate assignment of the sensor node identifier. When the sensor node moves and moves the sensor network, an interrupt may occur when the sensor node receives a beacon message from the new coordinator. By comparing the coordinator address in the received beacon message with the address of the coordinator of the sensor node, if it is different, it may be determined that it is connected to another network and stored with an eventFlag. The sensor node can form a relationship with the new sensor network.

Another embodiment of establishing a relationship is a method of establishing a relationship in a sensor network environment of a 'Simple Tree' or 'Cluser Tree Topology' type. A simple tree or a cluster tree type refers to an environment in which routing is supported and a network is formed with one or more multi-hop ad-hoc. When constructing a network around a coordinator, standard beacon messages are not sent to sensor nodes at 2 or 3 hops. In the present invention, the coordinator may periodically transmit a routing message to the surroundings. The routing message is included in the broad beacon message of the present invention. When the routing message is received by the 1-hop sensor nodes that have already been established, it is possible to add 1 to the hop of the field of the routing message, store its sensor node identifier, and forward it to the 2 hop sensor nodes. The broadcast storm phenomenon can be suppressed by storing the sensor node identifier and deleting the message if the received sensor node identifier is the same. When two hops of the sensor node receive the forwarded routing message, it determines whether the coordinator address of the routing message is different from the coordinator address of its own, is better than the signal quality of the existing network, and its own hop number is less than the maximum hop number. If the above condition is satisfied, it can be determined that the device has been moved. In case of movement, the request for establishing a relation including the unique identifier of the sensor node may be transmitted to the coordinator (through a routing path) through the one-hop sensor node forwarded with the routing message. The coordinator may assign a sensor node identifier and transmit a relationship establishment approval message including the sensor node identifier to the two hop sensor nodes through a routing path. The two-hop sensor node that receives the relation establishment approval message stores a sensor node identifier, transmits an ACK to the coordinator through a routing path, and the coordinator receiving the ACK adds the sensor node to the node list. You can finish.

Only sensor nodes with a core network identifier can communicate with the core network. The sensor node 130 without the core network identifier may request an authentication from the core network through the gateway in order to receive the core network identifier. The core network may use a unique identifier for authentication of the sensor node. Media ID can be used as a unique identifier. The sensor node 130 may transmit an authentication request including the MAC ID to the gateway 151. The gateway 151 may transmit the received authentication request of the sensor node to the network registration server 153.

The network registration server may be a home location register 153. The network registration server may store relationship information between the gateway and the sensor node receiving the authentication request, and inquire the MD ID of the sensor node to the pre-built MD 155 for authentication of the sensor node. The MD 155 may be included in the network registration server 153 or may be implemented as a separate device. If implemented separately, the network registration server 153 may transmit an authentication request including the MAC node of the sensor node to the MD 155. The MD 155 may check suitability by comparing the MAC ID of the sensor node with MAC IDs registered in advance by the sensor node providers in the MD 155. A core network identifier may be assigned to the sensor node that has passed the conformity check, and an authentication permission message including the core network identifier may be transmitted to the network registration server 153. The network registration server 153 may register the sensor node 130 by mapping the received core network identifier to relationship information between the gateway 151 and the sensor node 130 previously stored, and storing the mapped relationship information. . The network registration server 153 may transmit an authentication permission message including the core network identifier to the gateway 151.

The gateway 151 receiving the authentication permission message may store sensor network information, a sensor node identifier, and a core network identifier of the sensor node, and transmit an authentication permission message including the core network identifier to the sensor node. The sensor node 130 receiving the authentication permission message may transmit an acknowledgment (ACK) to the gateway 151 in response. The sensor node 130 granted the core network identifier through the above procedure may communicate with the core network.

In FIG. 2, the authentication process of the sensor node for the sensor network has been described. 3 to 5 will be described in detail for each step made in the sensor node, gateway, and network registration server.

3 is a flowchart illustrating a communication method of a sensor node for a sensor network according to an embodiment of the present invention.

Step 310 is to determine the presence or absence of a core network identifier of the sensor node.

In more detail, the core network identifier is an identifier assigned to a sensor node that has passed the conformity check of the sensor node authentication information database. The sensor node authentication information database checks whether the sensor node is suitable for the core network to communicate with and then assigns a core network identifier to the appropriate sensor node. The core network identifier is for blocking access to the core network for unauthorized sensor nodes. By blocking the access of unauthorized sensor nodes, the quality of the sensor network can be improved. The sensor node may have a storage medium inside or outside. The sensor node may store a core network identifier in the storage medium. In addition, the core network identifier may make the operation impossible to increase the efficiency. The core network identifier may be generated through encryption, or the core network identifier may be generated using a unique identifier of the sensor node.

The sensor node may store the core network identifier in a storage medium, and determine whether the sensor node has an identifier of the core network to communicate with through the gateway. If there is a core network identifier, the registration procedure can proceed to the network registration server of the core network. If already registered and communicating, the above procedure may not be performed.

In step 330, the sensor node transmits an authentication request for the core network including the unique identifier and the sensor node identifier of the sensor node to the gateway.

More specifically, when the sensor node does not have a core network identifier, the sensor node should be given a core network identifier for communicating with the core network. The sensor node sends an authentication request for the core network including the unique identifier of the sensor node and the sensor node identifier to the gateway to which the relationship is established, in order to be given the core network identifier. The sensor node has a unique identifier assigned by the provider at the time of manufacture. The unique identifier is a unique identifier of the corresponding sensor node. Using this, the core network may check whether the sensor node is suitable for the core network. Media ID can be used as a unique identifier. Alternatively, other identifiers may be used to distinguish each sensor node, such as a serial number. Furthermore, an identifier of only a sensor node may be generated and used as a unique identifier. The sensor node identifier is an identifier for communication between the sensor node and the gateway. The sensor node identifier communicates with the gateway using the sensor node identifier. A sensor node without a core network identifier transmits an authentication request for a core network including the unique identifier and the sensor node identifier to a gateway. The gateway acts as an intermediary through which sensor nodes communicate with the core network. You can use a sink node instead of a gateway.

In step 350, the sensor node receives an authentication permission message including a core network identifier from the gateway.

More specifically, in the sensor node authentication information database, a conformance check using a unique identifier is performed on a sensor node without a core network identifier, and an authentication permission message including a core network identifier is granted to the sensor node determined to be suitable. do. The sensor node receives from the gateway an authentication authorization message that includes the core network identifier. The core network identifier is provided from the sensor node authentication information database to the sensor node authenticated by the sensor node authentication information database through the unique identifier transmitted to the gateway in step 330. When the sensor node receives the authentication permission message including the core network identifier from the gateway, the authentication procedure for the sensor node's core network is terminated. The sensor node may receive the authentication authorization message and send the received message to the gateway. The sensor node may send an acknowledgment (ACK) to the gateway. After the authentication process is completed, the sensor node can communicate with the core network through the gateway.

The sensor node may be composed of a communication means and a storage means for communicating with the authentication request, the communication means may be implemented through a wireless communication means, the communication protocol is used for the ad hoc communication between the sensor nodes or the connection to the general purpose network. Any communication protocol can be used. The storage means may be implemented in various storage media such as RAM, ROM, or hard disk inside or outside the sensor node.

4 is a flowchart illustrating a communication method of a gateway for a sensor network according to an embodiment of the present invention.

In step 410, the gateway receives an authentication request for the core network from the sensor node and transmits it to the network registration server.

More specifically, a gateway is a device that acts as an entrance from one network to another. Like local area networks, it is used to connect one network to another. Different networks may have different communication protocols, and it is difficult to communicate directly between networks having different protocols. The gateway acts as an intermediary to allow communication between networks with different communication protocols. The gateway is responsible for reconstructing and changing the received data to make the data available to the gateway to communicate with.

The gateway receives an authentication request from the sensor node for the core network including the sensor node's unique identifier and the sensor node identifier. The unique identifier is used for authentication in the sensor node authentication information database, and the sensor node identifier is used for communication between the sensor node and the gateway. The gateway sends an authentication request for the core network including the received unique identifier to the network registration server. The gateway can act as an intermediary for the authentication process between the sensor node and the network registration server.

In step 430, the gateway receives the authentication permission message from the network registration server, stores the sensor node information, the sensor node identifier, and the core network identifier, and transmits the authentication permission message to the sensor node.

More specifically, the gateway receives an authentication permission message including a core network identifier from the network registration server. The core network identifier is assigned to a sensor node authenticated using a unique identifier by a previously constructed sensor node authentication information database. The network registration server sends the assigned core network identifier to the gateway by including the authentication permission message. The gateway stores sensor network information, sensor node identifier, and core network identifier information of the sensor node. The stored information may be used to distinguish sensor nodes and to mediate communication with core networks. In addition, the gateway transmits an authentication permission message including the core network identifier to the sensor node. After transmitting the authentication authorization message, the gateway may receive an ACK from the sensor node and communicate with the sensor node.

The gateway may include a communication means for communication and storage means for storing sensor node information and the like, and the communication means may be implemented through a wireless communication means, a wired communication means, or a communication interface. The storage means may be implemented in various storage media such as RAM, ROM, or hard disk inside or outside the gateway.

5 is a flowchart illustrating a communication method of a network registration server for a sensor network according to an embodiment of the present invention.

In step 510, the network registration server receives an authentication request from the gateway and stores relationship information between the sensor node and the gateway.

More specifically, the network registration server is a server that registers information on sensor nodes that communicate with the core network, and registers the sensor nodes by storing information about the sensor nodes. In order to register the sensor node with the network registration server, it must be certified through conformance check.

The network registration server receives an authentication request for the core network including the unique identifier of the sensor node without the core network identifier from the gateway. The unique identifier of the sensor node is required for conformance testing using the unique identifier. In addition, the network registration server stores the relationship information between the sensor node and the gateway before performing the conformance check.

In step 530, a check is made to see whether a unique identifier exists in the sensor node authentication information database.

More specifically, the sensor node authentication information database stores information on unique identifiers of the respective sensor nodes that are registered in advance so that the sensor node providers can access the core network. The sensor node authentication information database may exist in the core network as a separate device from the network registration server or may be included in the network registration server. The network registration server checks whether the unique identifier exists in the sensor node authentication information database by querying the unique identifier in the previously constructed sensor node authentication information database.

In operation 550, a core network identifier is assigned to the sensor node according to the inspection result in operation 530.

In more detail, when the unique identifier exists in the sensor node authentication information database according to the inspection result of step 530, the core node identifier is assigned to the sensor node. The core network may authorize access to the core network if the unique identifier of the sensor node exists in the sensor node authentication information database, and block access if it does not exist. By allowing access to the core network only when there is a unique identifier in the sensor node authentication information database of the core network, malicious access of unauthorized sensor nodes can be prevented, and the quality of sensor network service can be improved in the core network. In addition, the above procedure may enable efficient management of the sensor node. Furthermore, since the sensor node provider must register the unique identifier of the sensor node in advance in the sensor node authentication information database in order to use the core network, the core network can know the information of the sensor node provider. By using the information of the provider and the sensor node, it is possible to effectively collect the fee for the sensor node provider using the core network.

In step 570, the assigned core network identifier is mapped to the relationship information between the sensor node and the gateway, and the relationship between the mapped sensor node and the gateway is stored to register the sensor node.

In more detail, the core network identifier assigned in step 550 is mapped to the relationship information between the sensor node and the gateway stored in step 510, and the sensor node is registered in the network registration server by storing the relationship information of the mapped sensor node and the gateway. do. The network registration server stores the information on the authenticated sensor node through the relationship information with the gateway and registers the sensor node in the server. By registering and storing the core network identifier assigned to the sensor node by the network registration sensor, the registered sensor node can communicate with the core network without a new authentication procedure. The network registration server may provide a registration and roaming service using the registered information of the sensor node when the sensor node needs to be registered or roams again.

In step 590, the network registration server transmits an authentication permission message including the core network identifier to the gateway.

In more detail, when authentication is completed at the network registration server, when authentication is performed, an authentication permission message including the assigned core network identifier is transmitted to the sensor node. In order to transmit the authentication permission message to the sensor node, the authentication procedure of the network registration server is terminated by transmitting to the gateway connected with the sensor node.

The network registration server may include a communication means for communication, a registration means for storing and registering a sensor node unique identifier, and the like, and the communication means may be implemented through a wireless communication means, a wired communication means, or a communication interface. . The registration means may be implemented in various storage media such as RAM, ROM, or hard disk inside or outside the network registration server. The sensor node authentication information database may be included in a network registration server or implemented as a separate device. In addition, a processing means for checking the suitability of the sensor node may be included in the network registration server, the processing means may be implemented through a processor (Processor) and storage (Memory).

6 is a diagram illustrating a registration process of a sensor node according to an embodiment of the present invention.

The registration process of the sensor node according to an embodiment of the present invention may be performed through the sensor node 130, the gateway 151, and the home location register 153. The core network may support registration of sensor nodes to manage the network or location of authorized sensor nodes. The sensor node may perform the registration process when the sensor node power is turned on / off, by a periodic beacon message of the gateway, or when moving to another sensor network.

The sensor node 130 may establish a relationship and be assigned a sensor node identifier through communication with the gateway 151 in order to communicate with the core network. The relationship is replaced by the description in FIG. 2 corresponding to the description in FIG. 2. The sensor node transmits a registration request to the gateway including a core node identifier and a sensor node identifier of the sensor node. The gateway receiving the registration request may store mapping information between the sensor node core network identifier and the sensor node identifier, and transmit the registration request to the network registration server.

The network registration server receiving the registration request may register the sensor node with the server by storing the relationship information between the gateway and the sensor node. The network registration server that registered the sensor node may transmit a registration approval message to the gateway. The gateway may receive the registration approval message, store sensor network information, sensor node identifier, and core network identifier of the sensor node, and transmit the registration approval message to the sensor node. The sensor node receiving the registration approval message may transmit an acknowledgment (ACK) to the gateway in response. The registered sensor node can communicate with the core network through the above procedure.

7 illustrates a roaming procedure of a sensor node according to an embodiment of the present invention.

The roaming procedure of a sensor node according to an embodiment of the present invention includes a sensor node 130, a first gateway (gateway connected to the sensor node before roaming, 151), and a second gateway (roaming with the sensor node newly roaming). Through the gateway 152, and the home location register 153. The core network may provide a roaming method so that the session can be continuously maintained in consideration of the mobility of the sensor node and the quality of service of the user. The sensor node 130 may be fixed, but the gateway for moving and communicating with the core network may be changed. If the sensor node moves while performing data communication with the core network through the gateway, roaming is required so that communication is not interrupted.

When the sensor node moves and communicates with the gateway, which is changed from the first gateway 151 to the second gateway 152 and is disconnected, it is necessary to maintain and register session information through the second gateway to communicate with the first gateway. Information can be maintained. When the sensor node is moved and disconnected, the sensor node may request registration with the newly connected second gateway. Until the network registration server receives the registration request is the same as the registration procedure of FIG.

The network registration server may determine the movement of the sensor node by receiving the registration request and confirming the relationship information between the sensor node and the first gateway. Since the network registration server stores and registers information with the gateway for each sensor node, the gateway information may be compared to determine whether the gateway is changed according to the movement of the sensor node. If it is determined that the gateway has been changed, the network registration server may receive the session information from the first gateway and transmit the session information to the second gateway to maintain session information of the sensor node. The network registration server may transmit a registration information update request of the roaming sensor node to the first gateway. The first gateway may transmit the session information of the roaming sensor node to the network registration server, and delete the information of the sensor node to terminate communication with the sensor node. The network registration server may include session information of the sensor node received from the first gateway in the registration approval message and transmit the session information to the second gateway. The second gateway may store the session information, the sensor node identifier, and the core network identifier, and transmit a registration approval message to the sensor node. The sensor node receiving the registration approval message may transmit an acknowledgment (ACK) to the gateway in response. The sensor node registered through the above procedure may communicate with the core network by maintaining a disconnected data communication.

The present invention has been described above with reference to various embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

110: sensor network
130: sensor node
151: gateway
153: network registration server
155: Sensor node authentication information database

Claims (12)

In the communication method of a sensor node for a sensor network,
Determining whether a core network identifier exists;
If there is no core network identifier, transmitting an authentication request for a core network including a unique identifier of the sensor node and a sensor node identifier to a gateway; And
Receiving from the gateway an authentication permission message that includes the core network identifier;
And wherein the core network identifier is assigned to the sensor node that the sensor node authentication information database authenticates using the unique identifier. The method of claim 1,
Receiving a radiolabel signal from the gateway before determining the core network identifier;
Transmitting a relationship forming request message including a unique identifier of the sensor node to the gateway; And
Receiving from the gateway a relationship establishment approval message including the sensor node identifier;
And the sensor node identifier is assigned by the gateway to distinguish the sensor node from other sensor nodes. The method of claim 1,
If there is the core network identifier, sending a registration request for the core network including the core network identifier and the sensor node identifier to the gateway; And
Receiving a registration approval message from the gateway. The method of claim 1,
When the gateway to which the sensor node moves and communicates is changed from the first gateway to the second gateway, a registration request for the core network including the core node identifier and the sensor node identifier of the sensor node is transmitted to the second gateway. Transmitting; And
Receiving a registration approval message from the second gateway. In the communication method of the gateway for the sensor network,
Receives an authentication request for a core network including a unique identifier of a sensor node and a sensor node identifier from the sensor node without a core network identifier, and sends an authentication request for the core network including the unique identifier to a network registration server. Making; And
Receiving an authentication permission message including the core network identifier from the network registration server, storing sensor network information, the sensor node identifier, and the core network identifier information of the sensor node, and including the core network identifier Sending an authorization message to the sensor node,
And wherein the core network identifier is assigned to the sensor node that the sensor node authentication information database authenticates using the unique identifier. The method of claim 5, wherein
Receiving a registration request for the core network including the core network identifier and the sensor node identifier from the sensor node with the core network identifier, storing the core network identifier and the sensor node identifier mapping information, and storing the core Sending a network registration request to the network registration server; And
Receiving a registration approval message from the network registration server, storing sensor network information, the sensor node identifier, and the core network identifier information of the sensor node, and transmitting the registration approval message to the sensor node. Way. The method of claim 5, wherein
When the gateway to which the sensor node moves and communicates is changed from the first gateway to the second gateway, the first gateway sends a registration request for the core network including the core network identifier and the sensor node identifier to the core network identifier. Receiving from the sensor node, storing the core network identifier and the sensor node identifier mapping information, and transmitting the core network registration request to the network registration server; And
The first gateway receives a registration approval message and the sensor node session information from the network registration server, stores sensor network information, the sensor node identifier, and the core network identifier information of the sensor node, and registers the registration approval message. Transmitting to the sensor node. The method of claim 5, wherein
When the sensor node moves and communicates with the gateway changed from the first gateway to the second gateway, the second gateway receives an information update request of the sensor node from the network registration server, and receives the session information of the sensor node. Transmitting to a network registration server and deleting the information of the sensor node. In the communication method of the network registration server for the sensor network,
Receiving an authentication request for a core network including a unique identifier of a sensor node without a core network identifier from a gateway, and storing relationship information between the sensor node and the gateway;
Checking whether the unique identifier exists in the sensor node authentication information database by querying the unique identifier in a previously constructed sensor node authentication information database;
Assigning the core network identifier to the sensor node when the unique identifier exists in the sensor node authentication information database according to the inspection result;
Mapping the core network identifier to relationship information between the sensor node and the gateway, registering the sensor node by storing the mapped relationship information between the sensor node and the gateway; And
And sending an authentication authorization message containing the core network identifier to the gateway. The method of claim 9,
Receiving a registration request for the core network of the sensor node having the core network identifier from the gateway, registering the sensor node by storing relationship information between the sensor node and the gateway; And
Sending a registration approval message to the gateway. The method of claim 9,
When the gateway to which the sensor node moves and communicates is changed from the first gateway to the second gateway, the core network registration request including the core network identifier of the sensor node with the core network identifier is received from the second gateway, Checking relationship information between the sensor node and the first gateway and transmitting a registration information update request of the sensor node to the first gateway;
Receiving session information of the sensor node from the first gateway, storing relationship information between the sensor node and the second gateway, and registering the sensor node; And
Sending a registration approval message and the sensor node session information to the second gateway. A computer-readable recording medium storing a program for causing a computer to execute the method according to any one of claims 1 to 11.

Images