KR101916668B1 - Base station and control method thereof - Google Patents

Abstract

The present invention discloses technology for enabling an individual business operator that is a different IoT service business operator to share and use a previously constructed IoT base station by implementing a function of branching a message of an IoT terminal to a network device (or IoT application server) of the individual business operator in an IoT base station end.

Description

TECHNICAL FIELD [0001] The present invention relates to a base station apparatus and a base station apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to Internet (IoT) technology, and more particularly, to a technology in which different Internet businesses (IoT) service providers can share pre-established IoT base stations.

Internet of Things (IoT) technology, which connects information of living things through wired / wireless networks in various fields such as healthcare, remote meter reading, smart home, smart car and smart farm, is attracting attention.

The following is a brief description of the IoT network structure for providing the Internet (IoT) service based on the Internet (IoT) technology.

The IoT network includes an object Internet terminal (IoT terminal) that periodically reports collected data, a customer who checks the collected data of the remote IoT terminal, and has an object for Internet application (hereinafter referred to as IoT application) for controlling the IoT terminal And an IoT base station serving as a gateway for transmitting and receiving messages between a terminal, a network device (or IoT app server) that connects the IoT terminal and a customer terminal (IoT app) via a wired / wireless network, and an IoT terminal and a network device .

In case of an uplink in which an IoT terminal transmits an uplink message to a network device, the IoT terminal transmits an uplink message in a broadcast manner, and two or more IoT base stations receive and transmit the uplink message to a network device .

When the network device transmits a downlink message to the IoT terminal, the network device transmits a downlink message to one of the downlink base stations selected by the IOT terminal, and the downlink base station receives the downlink message from the IoT terminal. .

Recently, there has been a need to develop / use my own Internet (IoT) service based on Internet of Things (IoT) technology, not by a network operator but by an individual enterprise such as a local government or a large corporation.

As an individual business, there is a data security issue, so we want to build our own IoT network for our own Internet (IoT) service.

However, for individual operators, the construction cost required to construct the IoT network, especially the cost of building the IoT base station, is high. Therefore, only a network device (or IoT app server) for realizing its own Internet IoT service And IoT base stations want to use the existing structure as it is.

However, in the current Internet (IoT) technology, since the network service provider establishing / operating the IoT base station provides the Internet service (IoT), the IoT base station transmits the message of the IoT terminal to the network device , IoT app server).

Thus, according to the present invention, by implementing the function of branching the message of the IoT terminal to the network device (or the IoT app server) of the individual provider at the IoT base station, individual businesses, that is, different object Internet (IoT) IoT base stations can be shared and used.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an environment in which different IoT service providers can share pre-established IoT base stations.

According to a first aspect of the present invention, there is provided a base station apparatus for transmitting and receiving messages between a terminal and a network device, comprising: a confirmation unit for checking identification information indicating a service provider in an uplink message received from the terminal; And a message transmission unit for transmitting the uplink message to a specific network device according to the identification information so that the uplink message of the terminal is routed to a specific network device of a service provider supported by the terminal.

Preferably, when the uplink message is a message requesting a connection to a network device (Join Request), the confirmation unit identifies, as the identification information in the uplink message, an application EUI (End User's Interface).

Preferably, when the uplink message is an uplink report reporting the collected data periodically to the network device, the confirming unit identifies, as the identification information in the uplink message, a network ID .

Preferably, the network ID may be identification information acquired by the terminal in a downlink message transmitted from the specific network device to the terminal during a connection process between the terminal and the specific network device.

Preferably, the downlink message may be a message (Join Accept) in which the specific network device includes the network ID for an uplink message (Join Request) received from the terminal for a connection request .

According to a second aspect of the present invention, there is provided a method of operating a base station apparatus for transmitting and receiving messages between a terminal and a network device, the method comprising: receiving, from an uplink message received from the terminal, Identification step; And a message transmission step of transmitting the uplink message to a specific network device according to the identification information so that an uplink message of the terminal is routed to a specific network device of a service provider supported by the terminal.

Preferably, when the uplink message is a message requesting a connection to a network device (Join Request), the identifying information checking step may include, as the identification information in the uplink message, EUI (End User's Interface).

Preferably, when the uplink message is a message (Uplink Report) periodically reported to the network device by the network device, the identification information checking step may include a step of assigning, as the identification information in the uplink message, The network ID can be confirmed.

According to the operation method of the base station apparatus and the base station apparatus of the present invention, by implementing the function of branching the message of the IoT terminal to the network device (or IoT app server) of the individual operator at the IoT base station terminal, (IoT) service provider can share the pre-established IoT base station and provide an environment that can be used.

FIG. 1 is an exemplary diagram illustrating a structure of an Internet (IoT) network to which the present invention is applied.
2 is a block diagram illustrating a configuration of a base station apparatus according to a preferred embodiment of the present invention.
3 is an exemplary diagram illustrating a situation where a message of an IoT terminal is branched from an IoT base station to a network device of an individual carrier according to a preferred embodiment of the present invention.
4 is a flowchart illustrating an operation method of a base station apparatus according to an exemplary embodiment of the present invention.

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

FIG. 1 shows a network structure of Internet of Things (IOT) to which the present invention is applied.

1, the Internet IoT network structure to which the present invention is applied includes an Internet Internet terminal (IoT terminal such as a terminal 1, 2, 3, ... X) that periodically reports collected data, A client terminal (not shown) provided with an application for object Internet (hereinafter referred to as " IoT application ") for checking the collected data of the remote IoT terminal and controlling the IoT terminal, and an IoT terminal and a client terminal IoT base stations (eg, base stations 1, 2, ..., L) serving as gateways for transmitting and receiving messages between network devices (eg, A, B, .

In such Internet (IoT) technology, the IoT terminal reports collected data (uplink message) to a network device through a randomly selected channel among a plurality of channels used for transmitting and receiving messages at predetermined reporting periods Transmission).

In this case, when the IoT terminal transmits an uplink message to a network device, the IoT terminal transmits an uplink message in a broadcast manner, and two or more IoT base stations receive and transmit the uplink message to the network device .

When the network device transmits a downlink message to the IoT terminal, the network device transmits a downlink message to one of the downlink base stations selected by the IOT terminal, and the downlink base station receives the downlink message from the IoT terminal. .

Recently, there has been a need to develop / use my own Internet (IoT) service based on Internet of Things (IoT) technology, not by a network operator but by an individual enterprise such as a local government or a large corporation.

Therefore, in the case of an individual service provider (hereinafter referred to as an Internet service provider (IoT) service provider), there is a data security issue, and therefore, an attempt is made to construct an own IoT network for Internet service (IoT).

However, since the construction cost required for establishing the IoT network, especially the IoT base station construction cost, is consumed by the IoT service providers, only the network devices for realizing their own Internet (IoT) And the IoT base station wants to use the existing structure as it is.

Up to now, up to now, a network operator who has built / operated an IoT base station has provided Internet (IoT) service and was a single operator.

Accordingly, in the current Internet (IoT) technology, the IoT base station does not support the function of branching the message of the IoT terminal to the network device of the Internet service provider (IoT).

However, in the future, for the IoT service providers who wish to provide their own Internet (IoT) service by constructing only the network device themselves, a message of the IoT terminal is transmitted to the Internet (IoT) The function of branching to the service provider's network device should be supported.

Accordingly, in the present invention, a function of branching the message of the IoT terminal to the network device of the individual object Internet (IoT) service provider is realized at the IoT base station.

More specifically, a base station apparatus that realizes a branching function at the IoT base station stage proposed by the present invention is proposed.

Hereinafter, a base station apparatus according to a preferred embodiment of the present invention will be described in detail with reference to FIG.

The base station apparatus 100 of the present invention acts as a gateway for transmitting and receiving messages between an IoT terminal and a network apparatus in an IoT network and is provided with a function of one of the IoT base stations 1, would.

That is, when the base station 100 receives the uplink message transmitted by the IoT terminal in the coverage of the base station 100 in a broadcast manner, the base station 100 transmits the uplink message of the received IoT terminal to the network (Transmitted) to the device.

In addition, the base station apparatus 100 of the present invention can transmit (transmit) a received downlink message to a corresponding IoT terminal upon receiving a downlink message transmitted from the network apparatus to the IoT terminal.

More specifically, the base station apparatus 100 of the present invention includes: a confirmation unit 110 for confirming identification information indicating a service provider in an uplink message received from an IoT terminal; And a message transmission unit 120 for transmitting an uplink message of the IoT terminal to a specific network device so that the uplink message is routed to a specific network device of a service provider supported by the IoT terminal.

Hereinafter, for convenience of explanation, it is assumed that the base station apparatus 100 of the present invention is the base station 1 of the above-described IoT base stations 1, 2, ..., L shown in FIG.

For convenience of explanation, the following description will be made with reference to the network devices A and B constructed by the terminals 1, 2, ..., X and IoT service providers A and B as IoT terminals shown in FIG. 1 .

The confirmation unit 110 confirms the identification information indicating the service provider in the uplink message received from the IoT terminal.

Here, the service provider refers to a service provider who wants to provide an Internet service (IoT) service by operating / managing the IoT terminal.

That is, the confirmation unit 110 confirms the identification information indicating the Internet service provider (IoT) service provider in the uplink message received from the IoT terminal.

Each of the terminals 1, 2, ..., X serving as IoT terminals is provided with a function of collecting data for periodic reporting at predetermined reporting periods, which is loaded by a service provider (IoT) An application (hereinafter referred to as an App) that performs a function of generating an uplink message based on collected data (hereinafter, collecting data), a function of transmitting an uplink message, and the like.

At this time, the uplink messages transmitted by each of the terminals 1, 2, ..., X as the IoT terminals can be roughly classified into two types according to their purposes. One is a message for requesting connection to the network device Request) and the other is a message (Uplink Report) in which the UE periodically reports the collected data to the network device.

First, a description will be given with reference to a message (Join Request) for requesting a connection to a network device by the terminal. For example, when an application (App) operation for a stuff Internet (IoT) service is started in the terminal 1, And generates and transmits an uplink message (Join Request) requesting connection to the network device.

At this time, an uplink message (Join Request) includes an application EUI (End User's Interface, hereinafter referred to as an App EUI) that is differently allocated to each service provider, that is, the Internet (IoT) service provider.

Accordingly, when an uplink message (Join Request) is received from the IoT terminal, for example, the terminal 1, the confirmation unit 110 identifies the application (IoT) EUI can be confirmed.

Hereinafter, it will be assumed that the terminal 1 is an IoT terminal operated and managed by a business Internet (IoT) service provider B and that the terminal 2 is an IoT terminal operated and managed by a business Internet service provider (IoT) .

In this case, when the App 1 operation for the Internet Internet (IoT) service is started in the terminal 1, the terminal 1 generates and transmits an uplink message (Join Request) requesting connection to the network device according to the execution of the App, This uplink message (Join Request) will include an App EUI (e.g. App EUI = 0 ... 2) assigned to the Internet IoT service provider B.

When an App operation for the Internet service (IoT) is started in the terminal 2, the terminal 2 generates and transmits an uplink message (Join Request) requesting connection to the network device according to the execution of the App, The uplink message (Join Request) will include an App EUI (e.g., App EUI = 0 ... 1) assigned to the Internet (IoT) service provider A.

In this case, when an uplink message (Join Request) is received from the terminal 1, the confirmation unit 110 transmits an App EUI (e.g. App EUI = 0 ...) as identification information in an uplink message (Join Request) 2) can be confirmed.

On the other hand, when an uplink message (Join Request) is received from the terminal 2, the confirmation unit 110 identifies App EUI (e.g. App EUI = 0 ... 1 ).

The message transmission unit 120 transmits the uplink message to the specific network device according to the identification information so that the uplink message of the IoT terminal is transmitted to a specific network device of a service provider supported by the IoT terminal, To be routed.

As described above, the uplink message (Join Request) received from the terminal 1 will be described with reference to the message transmitting unit 120. The message transmitting unit 120 transmits the uplink message (Join Request) of the terminal 1 as identification information, that is, App EUI (Transmission) of the uplink message of the terminal 1 to the specific network device B according to the EUI = 0 ... 2), so that the uplink message of the terminal 1 is routed to the specific network device B of the Internet service provider (IoT) .

In addition, as described above, to describe the uplink message (Join Request) received from the terminal 2, the message transmission unit 120 transmits the uplink message (Join Request) of the terminal 2 as identification information, that is, App EUI (IoT) service provider A that manages the terminal 2 by transmitting (transmitting) the uplink message of the terminal 2 to the specific network device A according to the following formula: App EUI = 0 ... 1 .

For example, if the uplink message (Uplink Report) reporting the collected data periodically according to the execution of the application is described, the uplink message (Uplink Report) As shown in FIG.

Here, the uplink message includes a network ID (hereinafter referred to as Nwk ID) that is differently assigned to each service provider, that is, the Internet (IoT) service provider.

In this case, the network ID, that is, the Nwk ID, is preferably identification information acquired by the UE in a downlink message transmitted from a specific network device to the UE during a join process between the UE and the specific network device.

More specifically, as described above, the base station apparatus 100 of the present invention adds the uplink message (Join Request) received from the terminal 1 to the identification information, that is, App EUI (for example, App EUI = 0 ... 2) So that the uplink message of the terminal 1 is routed to the specific network device B of the business Internet (IoT) service provider B that manages the terminal 1.

In this case, the network device B performs a pre-defined join process between the terminal 1 and the network device B based on the uplink message (Join Request) of the terminal 1, and in this process, , It returns a downlink message (Join Accept) to the terminal 1 for allowing the connection to the uplink message (Join Request).

At this time, the network device B includes the Nwk ID (e.g., Nwk ID = 14) allocated to the network device B itself in a downlink message (Join Accept) returned to the terminal 1.

The downlink message (Join Accept) returned from the network apparatus B to the terminal 1 is transmitted to the base station apparatus 100 and the base station apparatuses 100, which transmit (transmit) the uplink message (Join Request) , It will be received at terminal 1 via one downlink base station determined / selected by network device B to have the highest uplink reception quality.

Accordingly, in the downlink message (Join Accept) transmitted (returned) from the specific network device B during the connection process with the specific network device B, the terminal 1 transmits the identification information of the reporting network device B I.e., Nwk ID (e.g., Nwk ID = 14).

Accordingly, when an uplink message is received from the IoT terminal, for example, the terminal 1, the confirmation unit 110 determines Nwk (i, j) to be allocated differently for each of the Internet (IoT) service providers as identification information in the uplink message ID can be confirmed.

Hereinafter, it will be assumed that the terminal 1 is an IoT terminal operated and managed by a business Internet (IoT) service provider B and that the terminal 2 is an IoT terminal operated and managed by a business Internet service provider (IoT) .

In this case, the terminal 1 generates and transmits an uplink message reporting periodically the collected data according to the execution of the application. In the uplink message, the terminal 1 The Nwk ID to be assigned (e.g., Nwk ID = 14) will be included.

Also, the terminal 2 generates and transmits an uplink message reporting the collected data periodically according to the execution of the application. In the uplink message, the terminal 2 allocates the uplink message to the Internet service provider (IoT) The Nwk ID (e.g., Nwk ID = 13) will be included.

In this case, when the uplink message is received from the terminal 1, the confirmation unit 110 confirms the Nwk ID (e.g., Nwk ID = 14) as the identification information in the uplink message of the terminal 1 .

On the other hand, when the uplink message is received from the terminal 2, the confirmation unit 110 can confirm the Nwk ID (e.g., Nwk ID = 13) as the identification information in the uplink message of the terminal 1 have.

The message transmission unit 120 transmits (transmits) the uplink message received from the terminal 1 to the specific network device B according to the identification information, that is, the Nwk ID (e.g., Nwk ID = 14) The uplink message is routed to the specific network device B of the Internet service provider (IoT)

In addition, the message transmission unit 120 transmits (transmits) the uplink message received from the terminal 2 to the specific network device A according to the identification information, that is, the Nwk ID (e.g., Nwk ID = 13) 2 to be routed to the specific network device A of the Internet (IoT) service provider A that manages the terminal 2.

As described above, the base station apparatus 100 of the present invention routes an uplink message of an IoT terminal to a network device of a Internet service provider (IoT) according to identification information identified in a corresponding message, And a function of branching the message of the terminal to a network device (or IoT app server) of an individual provider is realized.

To this end, in the base station apparatus 100 of the present invention, only a small-sized information to which a network device to which an uplink message is to be routed is mapped per identification information (App EUI / Nwk ID) is additionally managed.

Accordingly, in consideration of the fact that the IoT network does not introduce a high degree of computation to the IoT base station only serving as a gateway, the message branching function in the IoT base station unit realized in the present invention is excellent in usability and effect .

On the other hand, in the case of the downlink in which the IoT base station transmits (transmits) the downlink message transmitted from the network device to the IoT terminal, it is necessary to consider whether or not a downlink message is received from the network device of the Internet service provider Since the IoT base station must transmit the received downlink message to the corresponding IoT terminal without considering the branching function.

As described above, according to the present invention, by implementing the function of branching the message of the IoT terminal to the network device (or the IoT app server) of the individual provider at the IoT base station, individual businesses, that is, The effect of providing the environment in which the service provider can share the pre-established IoT base station can be obtained.

Hereinafter, with reference to FIG. 3, a case will be described in which a message of an IoT terminal is branched from an IoT base station to a network device of an individual carrier according to a preferred embodiment of the present invention.

Hereinafter, for convenience of explanation, it is assumed that the terminal 1 is an IoT terminal operated and managed by a business Internet (IoT) service provider B, and the base station apparatus 100 of the present invention includes the IoT base station 1, 2, ..., L of the base station.

When an application (App) operation for the Internet service (IoT) is started in the terminal 1 (S10), the terminal 1 generates and transmits an uplink message (Join Request) (S20).

Meanwhile, App EUI and Nwk ID are assigned differently for each service provider, ie, Internet service provider (IoT) service provider, and App EUI and Nwk ID assigned to the provider are used for network devices operated and managed by each provider.

For example, in Fig. 3, AppUcI (e.g. App EUI = 0 ... 1) and Nwk ID (e.g., Nwk ID = 0) are applied to the network devices A and B constructed by the respective providers A and B, 13) is allocated (S1), and in the network device B, an App EUI (e.g., App EUI = 0 ... 2) and an Nwk ID (e.g. Nwk ID = 14) are allocated (S2).

At this time, if it is assumed that the terminal 1 is the IoT terminal managed by the business entity B, an App EUI (e.g. App EUI = 0) assigned to the object Internet service provider B is added to the uplink message ... 2).

The base station apparatus 100 that receives an uplink message (Join Request) from the terminal 1 receives an App EUI (e.g. App EUI = 0 ... 2) as identification information in the uplink message (Join Request) (S30).

Thus, the base station apparatus 100 transmits (transmits) the uplink message (Join Request) of the terminal 1 to the specific network apparatus B according to the identification information, that is, App EUI (e.g. App EUI = 0 ... 2) So that the uplink message of the terminal 1 is routed to the specific network apparatus B of the Internet service provider IoT managing the terminal 1 (S35).

The network device B performs a pre-defined join process between the terminal 1 and the network device B based on the uplink message (Join Request) of the terminal 1, and in this process, when the terminal 1 is a legitimate terminal, (Join Accept) for allowing the connection to the link message (Join Request) to the terminal 1 (S40).

At this time, the network device B includes the Nwk ID (e.g., Nwk ID = 14) assigned to the network device B itself in a downlink message (Join Accept) returned to the terminal 1.

The terminal 1 identifies the reporting network device B to be used at the time of reporting the collected data in the downlink message (Join Accept) transmitted (returned) from the specific network device B during the connection process with the specific network device B, that is, Nwk ID (e.g., Nwk ID = 14).

In FIG. 3, for convenience of explanation, among the base stations that have transmitted (transmitted) the uplink message (Join Request) of the terminal 1 to the network device B, the network device B determines / And it is assumed that one selected downlink base station is the base station apparatus 100. [

Assuming this case, the downlink message (Join Accept) returned from the network apparatus B to the terminal 1 will be received by the terminal 1 through the base station apparatus 100 as a downlink base station (S40).

Meanwhile, the terminal 1 generates and transmits an uplink message reporting periodically the collected data according to the execution of the application (S50).

Here, the uplink message includes the Nwk ID (e.g., Nwk ID = 14) of the Internet service provider B acquired by the terminal 1 during the connection process with the specific network device B .

The base station apparatus 100 that receives the uplink message from the terminal 1 can confirm the Nwk ID (e.g., Nwk ID = 14) as the identification information in the uplink message of the received terminal 1 (S60).

Accordingly, the base station apparatus 100 transmits (transmits) the uplink message of the terminal 1 to the specific network apparatus B according to the identification information, that is, the Nwk ID (e.g., Nwk ID = 14) The link message is routed to the specific network device B of the Internet service provider (IoT) service provider B that manages the terminal 1 (S65).

The downlink message (Ack) returned from the network apparatus B to the terminal 1 will be received by the terminal 1 through the base station apparatus 100 as a downlink base station (S70).

Hereinafter, an operation method of the base station apparatus according to the preferred embodiment of the present invention will be described with reference to FIG.

The operation method of the base station apparatus 100 according to the present invention manages the information mapped by the network device to which the uplink message is to be routed according to the identification information (App EUI / Nwk ID) (SlOO).

The method of operation of the base station 100 according to the present invention is characterized in that when an uplink message is received from the IoT terminal, for example, the terminal 1 (S120), identification information is confirmed in the received uplink message (S130).

More specifically, when the uplink message of the received UE 1 is a Join Request message, the method of operation of the base station 100 according to the present invention is such that App EUI (e.g., App EUI = 0. .2) can be confirmed.

Meanwhile, when the uplink message of the received terminal 1 is an Uplink Report message, the method of operating the base station 100 according to the present invention confirms Nwk ID (e.g., Nwk ID = 13) as identification information in the Uplink Report message .

The method of operation of the base station apparatus 100 according to the present invention is a method in which, in the case of the identification information confirmed in step S130, for example, an APP EUI (e.g., App EUI = 0 ... 2) (IoT) service provider B, in which the uplink message of the terminal 1 manages the terminal 1 by transmitting (transmitting) the uplink message to the specific network device B according to the confirmed Nwk ID (e.g., Nwk ID = 13) To be routed to the specific network device B (S140).

When receiving a downlink message (Join Accept message, Ack message) from the network device to the IoT terminal, for example, the terminal 1 (S150), the operation method of the base station apparatus 100 according to the present invention transmits the downlink message to the terminal 1 (S160).

As described above, according to the present invention, by implementing the function of branching the message of the IoT terminal to the network device (or the IoT app server) of the individual provider at the IoT base station, individual businesses, that is, The effect of providing the environment in which the service provider can share the pre-established IoT base station can be obtained.

The method of operating the base station according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, 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.

According to the base station apparatus and the base station apparatus operation method of the present invention, since the function of branching the message of the IoT terminal to the network device (or IoT app server) of the individual operator at the IoT base station terminal is realized, It is not only the use of the related technology but also the possibility of commercialization or operation of the applied device as well as the possibility of being practically and practically usable.

100: base station device
110: confirmation unit 120: message transmission unit

Claims (8)

A base station apparatus for transmitting and receiving messages between a terminal and a network apparatus,
A confirmation unit for confirming identification information indicating a service provider in an uplink message received from the terminal;
And a message transmission unit transmitting the uplink message to a specific network device according to the identification information so that an uplink message of the terminal is routed to a specific network device of a service provider supported by the terminal;
Wherein,
And the uplink message requesting the connection to the network device and the uplink message reporting the collected data periodically. The method according to claim 1,
If the uplink message is a message requesting connection to a network device (Join Request)
The checking unit,
And an application EUI (End User's Interface) allocated differently for each service provider as the identification information in the uplink message. The method according to claim 1,
If the uplink message is an uplink report periodically reporting the collected data to the network device,
The checking unit,
And identifies, as the identification information, a network ID differently allocated to each service provider in the uplink message. The method of claim 3,
The network ID includes:
Wherein the identification information is acquired by the terminal in a downlink message transmitted from the specific network device to the terminal during a connection process between the terminal and the specific network device. 5. The method of claim 4,
The downlink message includes:
Wherein the specific network device is a message (Join Accept) that includes the network ID for an uplink message (Join Request) received for the connection request from the terminal. A method of operating a base station apparatus for transmitting and receiving messages between a terminal and a network apparatus,
An identification information checking step of checking identification information indicating a service provider in an uplink message received from the terminal; And
And transmitting the uplink message to a specific network device according to the identification information so that the uplink message of the terminal is routed to a specific network device of a service provider supported by the terminal;
Wherein,
And the uplink message requesting the connection to the network device and the uplink message periodically reporting the collected data are included in different forms, respectively. The method according to claim 6,
If the uplink message is a message requesting connection to a network device (Join Request)
Wherein the identification information checking step comprises:
And an application EUI (End User's Interface) allocated differently for each service provider as the identification information in the uplink message. The method according to claim 6,
If the uplink message is an uplink report periodically reporting the collected data to the network device,
Wherein the identification information checking step comprises:
And identifies, as the identification information, a network ID differently allocated to each service provider in the uplink message.

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