KR102165774B1 - METHOD FOR CONTROLLING NETWORK CONNECTION OF IoT DEVICE - Google Patents

Abstract

The method for controlling network connection of an IoT terminal according to the present invention includes a process of registering terminal profile information including terminal characteristics of an IoT terminal in a terminal profile DB in a service profile management server, and the terminal profile information from the terminal profile DB. The process of retrieving and transmitting the message to the IoT base station, the process of generating an IoT connection control message including the terminal profile information by the IoT base station and broadcasting it to the IoT terminal, and the communication of things from the IoT terminal. When access to the base station is attempted, a process of providing an IoT communication service by establishing a session for an IoT communication service platform may be included.

Description

Network connection control method of an IoT device {METHOD FOR CONTROLLING NETWORK CONNECTION OF IoT DEVICE}

The present invention relates to a technique for controlling network connection of an IoT terminal, and more particularly, to a method for controlling a network connection of an IoT terminal suitable for providing an optimal IoT service using a base station dedicated to an IoT communication terminal.

In recent years, based on the development of wireless communication technology and the rapid expansion of wireless communication infrastructure, the use and application of machine-to-machine communication services in addition to things communication services, that is, general mobile communication services between people and people, has spread to various fields. Has become.

That is, such a machine-to-machine communication service is, for example, Internet of Things (IoT), Machine to Machine communication (M2M), Machine Type Communication (MTC), Smart Device communication, or Machine-oriented communication. ) Is defined in various terms, but hereinafter it will be collectively referred to as an object communication service.

According to the prior art, a technology using a dedicated base station that provides an object communication service optimized for the characteristics of the object communication terminal to the IoT terminal has not been proposed until now, but considering this point, it is suitable for the object communication service of the IoT terminal. There is a need to optimize network nodes for communication of things by designing a dedicated base station.

Republic of Korea Patent Publication No. 10-2012-0078132, published date July 10, 2012.

In the present invention, when the service profile management server transmits the terminal profile information to the dedicated IoT base station, the IoT base station generates an IoT connection control message including the terminal profile information and broadcasts it to the IoT terminal. We propose a new IoT network connection control method that allows an IoT terminal to access a corresponding IoT base station to receive an IoT service.

In addition, according to the present invention, each base station in a base station group dedicated to things communication generates an IoT connection control message including terminal profile information and band allocation information for each service group, and broadcasts it to an IoT terminal. A new technology for controlling a network connection of an IoT terminal in which a terminal accesses one of a plurality of IoT base stations for each frequency band to receive an IoT service for each frequency band is proposed.

In addition, the present invention, when the base station overload status information is received from the base station dedicated to object communication, the service profile management server generates a base station load balancing control message including the base station status information and delivers it to the base station group dedicated to the thing communication, Each base station in the group generates an IoT connection control message including base station change access information and broadcasts it to an IoT communication terminal.Through this, the IoT communication terminal is an object for each frequency band of the other of the communication base stations for each frequency band. We propose a network connection control method for a new IoT terminal capable of changing access to a communication base station.

The problem to be solved by the present invention is not limited to the ones mentioned above, and another problem to be solved that is not mentioned can be clearly understood by those of ordinary skill in the art from the following descriptions. will be.

According to one aspect, the present invention includes a process of registering terminal profile information including terminal characteristics of an object communication terminal to a terminal profile DB in a service profile management server, and retrieving the terminal profile information from the terminal profile DB to communicate things. The process of transmitting to the base station, the process of the IoT base station generating an IoT connection control message including the terminal profile information and broadcasting it to the IoT terminal, and an attempt to access the IoT base station from the IoT terminal When configured, a method for controlling network connection of an IoT terminal including a process of providing an IoT service by establishing a session for an IoT service platform is provided.

According to another aspect, the present invention includes a process of registering terminal profile information including terminal characteristics of an object communication terminal and service profile information including object communication service characteristics in a terminal profile DB in a service profile management server, and the terminal profile A process of generating a selection access command for selecting a band classification including allocation band information for each service group according to information and service profile information, and transmitting it to a base station group including an IoT base station for each frequency band, and for each of the base station groups. A process in which a base station generates an IoT connection control message including the terminal profile information and band allocation information for each service group and broadcasts it to the object communication terminal, and the object for each frequency band by the object communication terminal Network connection control method of an IoT terminal comprising the process of providing an IoT communication service for each frequency band by establishing a session for an IoT service platform when any one of the communication base stations is selected as a service target base station and an access is attempted Provides.

According to another aspect, the present invention generates and transmits base station overload status information to a service profile management server when an overload occurs in any one of a plurality of frequency band-specific IoT base stations, and the service profile management server A process of generating a base station load balancing control message including the base station status information and transmitting it to the plurality of frequency band-specific IoT base stations, and the multi-frequency band-specific IoT base station connection for things communication including base station change access information The process of generating a control message and broadcasting it to the IoT terminal, and when a base station change connection is attempted based on the base station change access information from the IoT terminal, the IoT base station for each frequency band selected for change is an IoT service platform. Provides a method for controlling network connection of an IoT terminal including a process of providing an IoT service through a changed frequency band by setting a session for the communication.

The present invention provides a dedicated base station (object communication base station) suitable for service characteristics of an object communication terminal (object communication subscriber terminal) to construct an optimized network camping on a radio access network optimized for an object communication service, and Through the configuration, it is possible to simplify the operation structure of the network for the IoT service.

In addition, since the present invention separately provides a base station dedicated to IoT communication, it is possible to minimize the effect of signaling and traffic occurring in a plurality of IoT terminals on service stability of a general subscriber (Mass) terminal.

Moreover, the present invention provides an IoT service optimized for service characteristics to service subscribers of IoT service by separately operating base stations that provide frequency services for different bands according to the characteristics of the IoT service. have.

1 is a block diagram of an IoT service system suitable for applying a method of controlling a network connection in an IoT terminal according to various embodiments of the present disclosure.
2 is a flowchart illustrating a main process of providing a network connection control service to an IoT terminal according to an embodiment of the present invention.
3 is a flow chart illustrating a main process of providing a network connection control service to an IoT terminal based on different frequency bands according to another embodiment of the present invention.
4 is a flow chart illustrating a main process of providing a network connection control service to an IoT terminal based on whether an IoT base station is overloaded according to another embodiment of the present invention.

First, the advantages and features of the present invention, and a method of achieving them will become apparent with reference to embodiments to be described later in detail together with the accompanying drawings. Here, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, only the present embodiments are intended to complete the disclosure of the present invention, and are common in the technical field to which the present invention pertains. Since it is provided by way of example in order to allow a person skilled in the art to clearly understand the scope of the invention, the technical scope of the invention should be defined by the claims.

In addition, in the following description of the present invention, if it is determined that a detailed description of known functions or configurations may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the technical idea described throughout the specification.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an IoT service system suitable for applying a method of controlling a network connection in an IoT terminal according to various embodiments of the present disclosure. A service profile management server 102, a database 104, and a plurality of It may include a base station group 106 made up of an IoT base station 106/1 106/n, a terminal group 108 made up of a plurality of IoT terminals 108/1 108/n, a network node 110, etc. have.

Referring to FIG. 1, the service profile management server 102 includes terminal characteristics (object communication terminal identifier, etc.) of an object communication terminal from a remote object communication service server (not shown) according to an embodiment of the present invention. When the terminal profile information is provided, it is received and registered (stored) in the terminal profile DB 104a in the database 104, and the terminal profile information is transmitted to the terminal profile DB 104a at a predetermined period (e.g., several minutes). ) And transmitting (transmitting) to each of the things communication base stations 106/1 106/n in the base station group 106 may be provided.

Here, the transmission of the terminal profile information (delivery to the base station group) is not only for a predetermined period, but also for providing (collecting) new terminal profile information from the IoT service server or providing (collecting) terminal update profile information. May be executed when.

In addition, according to another embodiment of the present invention, the service profile management server 102 includes terminal profile information including terminal characteristics (object communication terminal identifier, etc.) of an object communication terminal from a remote object communication service server, and an object communication service. When service profile information including characteristics (object communication service identifier, etc.) is provided, a function such as receiving it and registering (storing) it in the terminal profile DB 104a in the database 104 may be provided.

In addition, the service profile management server 102 generates a selection access command for band classification including terminal profile information and allocated band information for each service group according to the service profile information at a predetermined period (eg, a moisture period, etc.). Each IoT base station (106/1 106/n) in the base station group 106 including a plurality of frequency band-specific IoT base stations (eg, high-band IoT base stations, mid-band IoT base stations, and low-band IoT base stations) It can provide functions such as transmitting (sending) to.

Here, the transmission of a selection access command for selecting a band division including information on an allocated band for each service group (e.g., information on a high frequency band of 1.8 GHz or more, information on a mid-band band between 1.8 GHz and 800 MHz, and information on a low frequency band of 800 MHz or less) Transmission to a base station group) is performed when new terminal profile information and service profile information are provided (collected) from the IoT service server as well as a predetermined period of time, or when terminal updated profile information and service profile information are provided (collected). It can also be implemented.

Moreover, the service profile management server 102, according to another embodiment of the present invention, receives base station overload status information from a specific base station (for example, a high-band or mid-band or low-band IoT base station) within the base station group 106. If provided (collected), a function such as storing the base station overload status information as load management information for a specific base station in the base station profile DB 104b in the database 104 may be provided.

In addition, when the base station overload status information is collected, the service profile management server 102 generates a base station load balancing control message including the base station status information, and the object communication base station for each frequency band in the base station group 106 (for example, High-band, mid-band, and low-band IoT communication base stations) can provide functions such as transmission.

Next, the base station group 106 is composed of a plurality of IoT base stations (base stations dedicated to object communication) for an embodiment of the present invention, or an IoT base station for each frequency band for another embodiment of the present invention. It may be composed of (a number of base stations dedicated to high-band or mid-band or low-band IoT communication), wherein each base station dedicated to object communication forming the base station group 106 means base station equipment or base station equipment dedicated to object communication. can do.

As an example, assuming that a total of 100 IoT base stations are constructed as the base station group 106, according to an embodiment of the present invention, all IoT base stations may provide an IoT service in the same frequency band. .

In addition, assuming that a total of 100 IoT base stations are constructed as the base station group 106, according to another embodiment or another embodiment of the present invention, for example, 40 base stations function as high-band IoT base stations. , 30 base stations may be constructed to function as mid-band IoT communication base stations, and the remaining 30 base stations may function as low-band IoT communication base stations.

In addition, each of the IoT base stations 106/1 106/n in the base station group 106 generates an IoT connection control message including terminal profile information, according to an embodiment of the present invention, so that the terminal group 108 It is possible to provide a function such as broadcasting to each of my things communication terminals (108/1 108/n).

In addition, each of the IoT base stations 106/1 106/n generates an IoT connection control message including terminal profile information and band allocation information for each service group, according to another embodiment of the present invention, so that the terminal group ( 108) A function such as broadcasting to each of the things communication terminals 108/1 108/n may be provided.

Moreover, each IoT base station (106/1 106/n), that is, an IoT base station for each frequency band, generates overload status information accordingly when an overload is detected in the base station for another embodiment of the present invention. When a base station load balancing control message including base station status information is provided from the service profile management server 102 in response to (transmits) it to the service profile management server 102, and the object including base station change access information A function of generating a communication connection control message and broadcasting it to each of the things communication terminals 108/1 108/n in the terminal group 108 may be provided.

Here, the connection control message for IoT communication may be broadcast to each of the IoT terminals through, for example, a System Information Block (SIB) signaling message in which terminal profile information is inserted.

In addition, each IoT base station (e.g., high-band or mid-band or low-band IoT base station) is a legitimate terminal for which the corresponding IoT terminal is allowed to service when there is an access attempt (or base station change access attempt) from an IoT terminal. A function such as setting up a session for an IoT service platform can be provided by performing an access procedure such as authenticating whether or not it is recognized. Here, the IoT base station may reject an access attempt of the corresponding IoT terminal if it is not a legitimate terminal for which service is permitted.

In addition, each of the things communication terminals 108/1 108/n in the terminal group 108 may be, for example, a fixed, stationary, or detachable built-in terminal or a portable terminal. For example, a vehicle terminal, a home auto terminal, a factory terminal, It may mean a sensor terminal or the like.

Here, when a connection control message is received through broadcasting, each object communication terminal checks whether its own terminal characteristics (object communication identifier: ID) and terminal profile information in the connection control message match, and the terminal characteristics are When they match, a function such as requesting (attempting) access (or base station change access) by selecting a specific IoT base station (or a high-band IoT base station or a low-band IoT base station) as a service target base station can be provided. . To this end, each of the things communication terminals stores their own information about a communication identifier.

Finally, the network node 110, although detailed illustration in the drawings is omitted, for example, a mobility management node (MME: Mobility Management Entity), a signal processing node (SGW: Serving Gateway), a packet processing node (PGW: PDN Gateway). ), and the like, and may mean a physical node or a virtual node, and a function of providing various types of things communication services to users of each IoT terminal may be provided.

Next, a series of processes for providing a network connection control service to an IoT terminal through an IoT communication service system having the above-described configuration will be described in detail.

2 is a flowchart illustrating a main process of providing a network connection control service to an IoT terminal according to an embodiment of the present invention.

2, in the service profile management server 102, when terminal profile information including terminal characteristics (object communication terminal identifier, etc.) of an object communication terminal is transmitted (collected) from a remote object communication service server, the collected The terminal profile information is registered (stored) in the terminal profile DB 104a in the database 104 (step 202), and registration of such terminal profile information can be executed each time the terminal profile information is collected.

Next, through the time count, it is checked whether the current time is a transmission time, that is, a predetermined period (step 204). If it is determined that the current time is a transmission time as a result of the check, the service profile management server 102 The terminal profile information is fetched from the terminal profile DB 104a and transmitted (transmitted) to each of the things communication base stations 106/1 106/n in the base station group 106 (step 206).

Here, the terminal profile information is each object in the base station group 106 when new terminal profile information is provided (collected) from the thing communication service server as well as a predetermined period. It may be set to be delivered to the communication base station 106/1 106/n.

In response to this, each IoT base station 106/1 106/n in the base station group 106 generates an IoT connection control message including the terminal profile information to each IoT communication terminal 108/n in the terminal group 108. 1 108/n) (step 208). Here, the connection control message for object communication may mean, for example, a system information block (SIB) signaling message into which terminal profile information is inserted.

Thereafter, each of the things communication terminals analyzes the connection control message received through broadcasting (step 210), and determines whether the terminal characteristics (object communication identifier: ID) and the terminal profile information in the connection control message match when the analysis result Whether or not it is checked (step 212).

As a result of the check in step 212, if the terminal characteristics (object communication identifier: ID) of the object communication terminal and the terminal profile information in the connection control message match, the object communication terminal performs a specific object communication within the base station group 106 The base station may be selected as a service target base station and an access may be attempted (requested) (step 214).

As a result, the service target base station (object communication base station) establishes a session (communication session) for the IoT service platform by performing an access procedure such as verifying whether the corresponding IoT terminal is a legitimate terminal for which service is permitted ( Step 216), through this, an IoT communication service may be provided to a corresponding IoT communication terminal.

3 is a flow chart illustrating a main process of providing a network connection control service to an IoT terminal based on different frequency bands according to another embodiment of the present invention.

Referring to FIG. 3, the service profile management server 102 includes terminal profile information including terminal characteristics (object communication terminal identifier, etc.) of an object communication terminal from a remote object communication service server, and service including object communication service characteristic information. When the profile information is transmitted (collected), the collected terminal profile information and service profile information are registered (stored) in the terminal profile DB 104a in the database 104 (step 302), such terminal profile information and service profile information Registration can be performed whenever relevant profile information is collected.

Next, through the time count, it is checked whether the current time is a transmission time, that is, a predetermined period (step 304). If it is determined that the current time is a transmission time as a result of the check, the service profile management server 102 Generates a selection access command for band classification including information on the allocated band for each service group (high-frequency band information and low-frequency band information) according to the terminal profile information and service profile information, and transmits it to each of the things communication base stations in the base station group 106 ( Send) (step 306).

Here, the IoT base station for each frequency band in the base station group 106 may be classified as, for example, a high-band IoT base station or a mid-band IoT base station or a low-band IoT base station. For example, a service such as music streaming can be provided to IoT terminals using a high-band frequency (eg, a frequency of 1.8 GHz or higher), and the low-band IoT base station provides services such as periodic monitoring information and periodic sensing information. Can be provided to the communication terminals using a low-band frequency (eg, a frequency of 800 MHz or less).

In addition, the terminal profile information and service profile information are provided (collected) or updated terminal profile information and service profile information are provided (collected) from the IoT service server as well as a predetermined period. ) May be set to be transmitted to each IoT base station in the base station group 106.

In response, each of the IoT base stations (eg, high-band, mid-band, or low-band IoT base stations) in the base station group 106 transmits an IoT connection control message including terminal profile information and band allocation information for each service group. It is generated and broadcast to each of the IoT terminals in the terminal group 108 (step 308). Here, the connection control message for object communication may mean, for example, a system information block (SIB) signaling message into which terminal profile information is inserted.

Thereafter, each IoT terminal analyzes the connection control message received through broadcasting (step 310), and determines whether the terminal characteristics (object communication identifier: ID) and the terminal profile information in the connection control message match at the analysis result. Whether or not it is checked (step 312).

As a result of the check in step 312, if the terminal characteristics (object communication identifier: ID) of the object communication terminal and the terminal profile information in the connection control message match, the object communication terminal has a specific frequency band within the base station group 106 A base station that provides a service in a frequency band (high band, mid band, or low band) corresponding to its service profile among different things communication base stations, i.e., high-band IoT base stations, mid-band IoT base stations, and low-band IoT base stations. An access may be attempted (requested) by selecting as a service target base station (step 314).

As a result, the service target base station (high-band, mid-band, or low-band IoT base station) proceeds with an access procedure such as verifying whether the corresponding IoT terminal is a legitimate terminal for which service is permitted, thereby providing a session for the IoT service platform. A (communication session) is established (step 316), through which an IoT service can be provided to the corresponding IoT terminal.

4 is a flow chart illustrating a main process of providing a network connection control service to an IoT terminal based on whether an IoT base station is overloaded according to another embodiment of the present invention.

Referring to FIG. 4, base stations for each frequency band constituting the base station group 106, for example, a high-band IoT base station, a mid-band IoT base station, and a low-band IoT base station, are IoT terminals in their service area. When providing an object communication service to a user (step 402), it is monitored whether an overload of the base station occurs (step 404). Here, the overload of the IoT base station may occur depending on, for example, a place or a time when a lot of people are temporarily crowded.

If it is determined that an overload has occurred as a result of the check in step 404, the corresponding base station (high-band, mid-band, or low-band IoT communication base station) generates overload status information according to the overload detection, and the service profile management server 102 (Step 406), and the service profile management server 102 stores the overload status information as load management information of the corresponding base station in the base station profile DB 104b in the database 104 (step 408).

Thereafter, the service profile management server 102 generates a base station load balancing control message including the base station status information and delivers it to each of the things communication base stations (high-band or mid-band or low-band IoT base stations) in the base station group 106 ( Send) (step 410).

In response, each IoT base station (high-band, mid-band, or low-band IoT base station) in the base station group 106 generates an IoT connection control message including base station change access information, Broadcast to the IoT terminal (step 412). Here, the connection control message for object communication may mean, for example, a system information block (SIB) signaling message into which terminal profile information is inserted.

Thereafter, each of the IoT terminals changes the access to the base station based on the base station change access information included in the connection control message received through broadcasting (e.g., change the connection from the high-band IoT base station to the low-band IoT base station). It can be attempted (requested) (step 414). If it is determined that there is no connection change attempt as a result of the check here, the session established through the existing base station will be maintained (step 416).

As a result of the check in step 414, if the object communication terminal changes and selects the object communication base station for each specific frequency band in the base station group 106 as a service target base station and attempts access (request) (step 418), the service The target base station (high-band, mid-band, or low-band IoT base station) proceeds with a connection change procedure, such as verifying whether the corresponding IoT terminal is a legitimate terminal for which service is permitted, thereby providing a session for the IoT service platform (communication session ) Is set (step 420), and through this, an object communication service may be provided to a corresponding object communication terminal.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains, various substitutions, modifications, and changes, etc., within the scope not departing from the essential characteristics of the present invention. It will be easy to see that this is possible. That is, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments.

Accordingly, the scope of protection of the present invention should be interpreted by the claims to be described later, and all technical thoughts within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

According to an embodiment of the present invention, when the service profile management server transmits the terminal profile information to a dedicated IoT base station, the IoT base station generates an IoT connection control message including the terminal profile information and broadcasts it to the IoT terminal. And, through this, it is possible to provide a network connection control method of an IoT terminal capable of accessing an IoT base station to receive an IoT communication service.

The present invention including such a technical configuration, by providing a dedicated thing communication base station suitable for the service characteristics of the thing communication terminal, the construction and configuration of an optimized network camping in a radio access network optimized for an IoT service. Through this, it is possible to simplify the operation structure of the network for the IoT service.

102: Service Profile Management Server
104: database
106: base station group
106/1 106/n: an object communication base station
108: terminal group
108/1 108/n: communication terminal

Claims (8)

delete delete delete delete The IoT terminal provides, from each of the IoT base stations for each frequency band, information on band allocation for each service group according to service profile information including characteristics of an IoT service and terminal profile information including terminal characteristics of the IoT terminal. A process of receiving a connection control message for communication of things, including,
In response to reception of the IoT connection control message, based on the terminal profile information included in the connection control message, a service of a frequency band corresponding to the service profile of the IoT terminal among frequency bands corresponding to each of the base stations Including the process of requesting an access attempt to the base station providing,
In the process of receiving the connection control message for communication of things,
The object communication terminal receives the connection control message for the object communication through the base station selected on the basis of a selection access command for selecting a band classification including the terminal profile information and the band allocation information for each service group according to the service profile information Network connection control method of communication terminal. The method of claim 5,
The service of the frequency band corresponding to the service profile of the IoT terminal,
Including a service using a high frequency band including a music streaming service, or a service using a low frequency band including a monitoring information providing service or a sensing information providing service
Network connection control method of an IoT terminal. delete The method of claim 5,
The receiving process,
Performed whenever the terminal profile information is updated
Network connection control method of an IoT terminal.

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