KR102380822B1 - Method for operating internet-of-things system - Google Patents

Abstract

A method of operating an Internet of Things system according to an embodiment of the present invention includes: acquiring identification information of an Internet of Things (IoT) module; acquiring identification information of a device in which the IoT module is mounted; and registering identification information of the IoT module and identification information of the device in a database accessible by the IoT network.

Description

The operation method of the IoT system {METHOD FOR OPERATING INTERNET-OF-THINGS SYSTEM}

The present invention relates to a method of operating an IoT system.

The Internet of Things (IoT) is a technology that can provide various functions by controlling devices equipped with IoT modules through the Internet of Things network and sharing the data collected by the devices. In the IoT system, high security performance is required because a plurality of devices can exchange or share data with each other through a network and can control a plurality of devices through the network. A certain authentication procedure may be required when connecting. If the manufacturer of the IoT module and the manufacturers of the devices equipped with the IoT module are different, the authentication process may not be performed smoothly due to compatibility issues, and as a result, the end-user There may be a problem that it cannot be used.

One of the problems to be achieved by the technical idea of the present invention is to provide an IoT module that can be linked to a network for providing an IoT system or a tool for registering devices, thereby producing and selling IoT modules produced and sold by various manufacturers. The goal is to provide a method of operating an IoT system that can improve the convenience of consumers who have purchased these devices.

A method of operating an Internet of Things system according to an embodiment of the present invention includes: obtaining identification information of an Internet of Things (IoT) module; obtaining unique information of a device in which the Internet of Things module is mounted; and registering identification information of the IoT module and unique information of the device in a database accessible by a service provider providing an IoT service.

A method of operating an IoT system according to an embodiment of the present invention includes: receiving a registration request for a device equipped with an IoT module; storing identification information of the IoT module and unique information of the device in a database; Step, upon receiving an authentication request from a new device to be connected to the IoT service, searching the database for unique information of the new device and identification information of an IoT module mounted in the new device, and based on the search result and establishing communication with the new device.

The method of operating an IoT system according to an embodiment of the present invention includes: receiving, by a first database, a registration request for a device equipped with an IoT module; wherein the first database includes identification information of the IoT module and the Storing device identification information; when a second database different from the first database receives an authentication request from a new device to be connected to an IoT network, the second database stores identification information of the new device and the new device transmitting the identification information of the IoT module mounted in the first database to the first database, wherein the first database searches the identification information of the new device and the identification information of the IoT module mounted in the new device to display the search result transmitting to a second database; and establishing, by the second database, communication with the new device based on the search result.

In an embodiment of the present invention, when a new IoT module or a new device including the IoT module requests authentication to an IoT service, the authentication request is made with reference to a database storing information of the IoT modules or devices capable of being authenticated. The authentication procedure for the transmitted IoT module or new device can be performed. Therefore, regardless of the manufacturer, the authentication procedure of the IoT module or the device equipped with the IoT module can be easily performed, thereby improving the scalability of the IoT system without compromising security performance and increasing the convenience of users and device manufacturers. can

Various and advantageous advantages and effects of the present invention are not limited to the above, and will be more easily understood in the course of describing specific embodiments of the present invention.

1 to 3 are diagrams provided to explain an IoT system according to an embodiment of the present invention.
4 is a block diagram simply illustrating an IoT module according to an embodiment of the present invention.
5 is a view provided to explain a manufacturing process of a device according to an embodiment of the present invention.
6 to 8 are diagrams provided to explain a device registration procedure in the IoT system according to an embodiment of the present invention.
9 and 10 are diagrams provided to explain a device registration procedure in the IoT system according to an embodiment of the present invention.
11 and 12 are diagrams provided to explain a device authentication procedure in an IoT system according to an embodiment of the present invention.
13 to 16 are diagrams provided to explain a device authentication procedure in the IoT system according to an embodiment of the present invention.

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

1 to 3 are diagrams provided to explain an IoT system according to an embodiment of the present invention.

First, referring to FIG. 1 , the IoT system 1 includes a plurality of devices 21-23 , 31-32 , and 41-42 and a plurality of devices 21-23 , 31-32 , and 41-42 . It may include an Internet of Things (IoT) network 10 for mediating communication between them. The IoT network 10 may provide a cloud service and the like while arranging communication between the plurality of devices 21-23, 31-32, and 41-42.

The plurality of devices 21-23 , 31-32 , and 41-42 may be equipped with an IoT module having a data storage and processing function as well as a communication function with the IoT network 10 . The IoT module may include a processor in charge of arithmetic processing and data processing functions, a memory for data storage, a sensor for collecting surrounding information, and a communication unit. For example, the IoT module included in the wearable device 22 may include a sensor that detects the body temperature, heart rate, skin humidity, etc. of a user wearing the wearable device 22 . The refrigerator 42 may include a sensor capable of measuring internal temperature and humidity.

In an embodiment, the module manufacturer that produces and sells the IoT module may be different from the device manufacturer 20-40 that produces and sells the plurality of devices 21-23, 31-32, and 41-42. . That is, after the device manufacturers 20-40 purchase the IoT module from the module manufacturer, various devices 21-23, 31-32, and 41-42 can be manufactured using the purchased IoT module. there is. As an example, in the IoT system 1 shown in FIG. 1 , the first device manufacturer 20 produces IT devices such as a biometric information measuring device 21 , a wearable device 22 , and a smart phone 23 . It may be a company, and the second device manufacturer 30 may be a company that produces the scale 31 and the body information measuring machine 32 . Meanwhile, the third device manufacturer 40 may be a company that produces home appliances such as the television 41 or the refrigerator 42 .

As such, there are various device manufacturers 20-40 that produce and sell the devices 21-23, 31-32, and 41-42 equipped with the IoT module, and the devices 21 they produce and sell -23, 31-32, and 41-42) are also diverse, so a problem in scalability of the IoT system 1 may occur. For example, when the first device manufacturer 20 is a module manufacturer making an IoT module and a company managing the IoT network 10 at the same time, the devices 31 produced and sold by the second device manufacturer 30 are -32) and the devices 41-42 produced and sold by the third device manufacturer 40 may not be registered in the IoT system 1 despite the IoT module being mounted thereon. Therefore, whenever a user purchases a device in order to expand the scalability of the IoT system 1 , it may be necessary to individually search for devices compatible with his/her own system or perform an authentication procedure for the device directly, which is an Internet of Things system. It can be a serious problem that lowers the scalability of (1).

According to an embodiment of the present invention, the above problem can be solved by providing a device registration tool that allows the module manufacturer to proceed with the device registration procedure to the device manufacturers 20-40 who purchase the IoT module. Hereinafter, it will be described with reference to FIGS. 2 and 3 .

Referring first to FIG. 2 , the IoT system 2 according to an embodiment of the present invention may include an IoT network 10 and a plurality of devices 21-23, 31-32, and 41-42. In addition, the IoT network 10 may include a database 11 . The database 11 stores data necessary for the overall operation of the IoT system 2 , while identification necessary for performing authentication procedures for the plurality of devices 21-23 , 31-32 , and 41-42 . information can be stored.

The device manufacturers 20-40 may purchase an IoT module and produce and sell a plurality of devices 21-23, 31-32, and 41-42 equipped with the IoT module. Before the device manufacturers 20-40 sell the plurality of devices 21-23, 31-32, and 41-42, the plurality of devices 21-23, 31-32, and 41-42 are A registration procedure of storing identification information in the database 11 together with identification information of the IoT module may be performed. The registration procedure may be performed by a device registration tool provided by a module manufacturer that produces and sells IoT modules. In one embodiment, the device enrollment tool may be a software program operable on a computer.

For example, the first device manufacturer 20 may be provided with a device registration tool at the same time as purchasing an IoT module from the module manufacturer. Before the first device manufacturer 20 sells the devices 21-23 equipped with the IoT module, identification information of the devices 21-23 and identification of the IoT module using a device registration tool Information may be stored in the database 11 . When the devices 21-23 purchased by users transmit an authentication request to the IoT network 10 , the IoT network 10 includes identification information of the devices 21-23 stored in advance in the database 11 and An authentication request for the devices 21 - 23 purchased by users may be permitted using the identification information of the IoT module. Accordingly, users can purchase various devices 21-23, 31-32, and 41-42 from the device manufacturers 20-40 and easily connect to the IoT network 10, and the IoT system 2 scalability can be greatly improved.

Next, referring to FIG. 3 , the IoT system 3 according to an embodiment of the present invention may include an IoT network 10 and a plurality of devices 21-23, 31-32, and 41-42. can 3 , the first device manufacturer 20 may be a module manufacturer that produces and sells IoT modules, and may operate the database 24 . The database 24 may store identification information required to perform an authentication procedure for the plurality of devices 21-23 , 31-32 , and 41-42 . In the step of producing the devices 21-23 equipped with the IoT module, the first device manufacturer 20 records identification information of the devices 21-23 together with identification information of the IoT module in the database 24 You can perform the registration procedure to save to .

Similar to the embodiment shown in FIG. 2 , the device manufacturers 20-40 purchase an IoT module and produce and sell a plurality of devices 21-23, 31-32, and 41-42 equipped with the IoT module. can do. Before the device manufacturers 20-40 sell the plurality of devices 21-23, 31-32, and 41-42, the plurality of devices 21-23, 31-32, and 41-42 are A registration procedure of storing identification information in the database 24 together with identification information of the IoT module may be performed. The registration procedure may be performed by a device registration tool provided by the first device manufacturer 20 that is a module manufacturer. In one embodiment, the device enrollment tool may be a software program operable on a computer.

For example, the second device manufacturer 30 may be provided with a device registration tool while purchasing the IoT module from the first device manufacturer 20 . Before the second device manufacturer 30 sells the devices 31-32 equipped with the IoT module, identification information of the devices 31-32 and identification of the IoT module using a device registration tool Information may be stored in database 24 .

When the devices 31-32 purchased by users transmit an authentication request to the IoT network 10 , the IoT network 10 stores the authentication request and By transmitting the identification information of the devices 31 - 32 received together, it may be determined whether to permit an authentication request for the devices 31 - 32 purchased by users. Accordingly, users can easily connect to the IoT network 10 by purchasing the devices 31-32 and 41-42 purchased through various routes, and the scalability of the IoT system 2 can be improved. .

4 is a block diagram simply illustrating an IoT module according to an embodiment of the present invention.

Referring to FIG. 4 , the IoT module 50 according to an embodiment of the present invention may include a processor 51 , a memory 52 , a port 53 , a communication unit 54 , and a sensor unit 55 . can The processor 51 may be an arithmetic processing device that processes overall operations of the IoT module 50 .

The memory 52 may store data necessary for the operation of the IoT module 50 , data collected by the sensor unit 55 , identification information of the IoT module 50 , and the like, and may include non-volatile memory and dynamic memory. It may include elements. In an embodiment, the identification information may include identification information of a certificate stored in the memory 52 , a serial number assigned to the IoT module, and identification information provided to a module manufacturer by an IoT network operator. The port 53 is an interface device that mediates communication between an external device and the IoT module 50 , and may provide communication with an external device according to various communication interfaces such as UART, USB, and I2C.

The communication unit 54 may provide a communication function necessary for the IoT module 50 to operate in conjunction with the IoT network after the IoT module 50 is mounted on the device. The communication unit 54 may send and receive data according to various wired/wireless communication interfaces. The sensor unit 55 may include various types of sensors, such as an acceleration sensor, a GPS sensor, a humidity sensor, a temperature sensor, a gas sensor, and a heart rate sensor. The number and types of sensors included in the sensor unit 55 may vary according to the type of device on which the IoT module 50 is mounted.

When device manufacturers purchase the IoT module 50 from the module manufacturer, a device registration tool may be provided together. The device registration tool may be a kind of software program executable on the computer device. The computer device executing the device registration tool may be communicatively connected to the IoT module 50 through the port 53 , and the device registration tool may be connected to the IoT module ( 50) of identification information can be obtained.

The device manufacturer may input identification information of the device into the device registration tool before selling the device equipped with the IoT module 50 . In an embodiment, the device identification information may include a serial number assigned to the device, a product name of the device, and manufacturer identification information given to a device manufacturer by a module manufacturer or an IoT service provider. The device registration tool may encode the identification information of the device and the identification information of the IoT module 50 in a predetermined format and then store the encoded information in a database.

The database storing the device identification information and the IoT module 50 identification information may be a database accessible to a server operating an IoT network. In an embodiment, the database may be a database managed by the server and included in the IoT network, or a database managed by a module manufacturer that produces and sells the IoT module 50 .

5 is a diagram provided to explain a manufacturing process of a device equipped with an IoT module according to an embodiment of the present invention.

Referring to FIG. 5 , the module manufacturer 60 may sell IoT modules to various device manufacturers 71 to 73 . The IoT module sold by the module manufacturer 40 to each device manufacturer 71-73 may be the same or different from each other, and the IoT module may be processed in the process of the device manufacturers 71-73 producing devices. may be

In order for a consumer to purchase and use a device without worrying about compatibility with the IoT system, the devices produced by the device manufacturers 71 to 73 may be sold while being registered in a database accessible by the IoT network. In this case, the consumer can use the device by linking the device to the IoT system without any other authentication and/or registration procedures, simply by purchasing a device and connecting to the IoT network.

In various embodiments of the present invention, the identification information of the IoT module 61 and the identification information of devices equipped with the IoT module 61 are provided by the device registration tool 62 provided by the module manufacturer before the device is sold. It can be registered in advance in the database. According to embodiments of the present invention, at least some of the identification information may be registered in the database in a step in which a module manufacturer produces an IoT module or a step in which device manufacturers produce a device equipped with an IoT module. .

The database may manage the identification information received through the device registration tool 62 as a kind of whitelist. For example, if the identification information of the new device connected to the IoT network by the consumer and the identification information of the IoT module 61 mounted in the new device exist in the white list, authentication of the new device can be permitted. there is. Accordingly, the consumer can easily link the new device to the IoT system without a separate complicated authentication and/or registration procedure.

6 to 8 are diagrams provided to explain a device registration procedure according to an embodiment of the present invention.

Referring to FIG. 6 , the computer device 111 and the IoT module 120 may be connected to communicate with each other, and the device registration tool 110 may be executed in the computer device 111 . The device registration tool 110 is a kind of software program, and the module manufacturer who produced the IoT module 120 may purchase the IoT module 120 and provide it to the device manufacturer who produces the device.

The device manufacturer may extract identification information of the IoT module by using the device registration tool 110 . Also, the device manufacturer may use the device registration tool 110 to input identification information of a device on which the IoT module 120 will be mounted and/or identification information of the device manufacturer. The device registration tool 110 may encode at least some of the received identification information into a predetermined format and transmit it to the database 130 . The database 130 is a database included in the IoT network 131 , and may be operated and managed by a server operating the IoT network 131 .

Hereinafter, a device registration procedure according to the embodiment shown in FIG. 6 will be described in more detail with reference to FIGS. 7 and 8 .

First, referring to FIG. 7 , the device registration procedure according to an embodiment of the present invention may start with the device authentication tool 110 requesting identification information of the IoT module 120 from the IoT module 120 . There is (S101). The identification information requested by the device registration tool 110 in step S101 may include certificate identification information stored in the IoT module 120 and/or a serial number assigned to the IoT module 120 . The device registration tool 110 may request identification information of the IoT module 120 through various wired/wireless communication methods. ) can communicate through USB, UART, I2C, etc.

The IoT module 120 may transmit identification information of the IoT module 120 to the device registration tool 110 in response to a request from the device registration tool 110 ( S102 ). Meanwhile, the device manufacturer may use the device registration tool 110 to input device identification information and/or device manufacturer identification information (S103). The device identification information may include a product name, a serial number assigned to the device, and the like.

The device registration tool 110 encodes at least some of the identification information of the IoT module 120 received in step S102, the identification information of the IoT device inputted in step S103, and identification information of the device manufacturer into a predetermined format. It can be done (S104). In an embodiment, the format may be a format suitable for data transmission, and may further include information for verifying whether data is normally transmitted in addition to identification information.

The device registration tool 110 may transmit the identification information encoded in step S104 to the database 130 (S105). The database 130 may be a database that stores data necessary for operating an IoT network. The database 130 may store the identification information received in step S105 ( S106 ) and inform the device registration tool 110 that the registration of the device equipped with the IoT module 120 is completed ( S107 ).

In one embodiment, the process described with reference to FIG. 4 may be executed by the device registration tool 110 running in the computer apparatus. As described above, the device registration tool 110 may be a type of software program executable in a computer device, or may be a program provided by the module manufacturer who produced the IoT module 120 to the device manufacturer. That is, the device manufacturer purchases the IoT module 120, receives the device registration tool 110, and proceeds with the process described with reference to FIG. 130) can be stored.

That is, according to an embodiment of the present invention, before selling a device equipped with the IoT module 120 to an end-user, the device manufacturer may store identification information of the device in the database 130 . . Accordingly, when a consumer purchases a device and connects to the IoT network provided by the database 130 , an authentication procedure for the device may be automatically performed using the identification information stored in the database 130 . As a result, the consumer can freely connect a pre-registered device to the IoT network without a separate authentication and/or registration procedure, and improve the scalability and convenience of the IoT system.

Next, referring to FIG. 8 , in an embodiment of the present invention, identification information of the IoT module 120 may be stored in a two-dimensional code (QR code or barcode, etc.) printed on the IoT module 120 . (S111). In one embodiment, when the module manufacturer produces the IoT module 120 , the certificate identification information of the IoT module 120 and the serial number assigned to the IoT module 120 are reflected in the two-dimensional code, and the corresponding The two-dimensional code may be printed on the IoT module 120 .

The device manufacturer may request identification information of the IoT module 120 by scanning the two-dimensional code printed on the IoT module 120 (S112). The device registration tool 110 receives identification information from the IoT module 120 by scanning the two-dimensional code (S113), and in addition to the received identification information, identification information of the device on which the IoT module 120 is to be mounted and/or Alternatively, identification information of a device manufacturer may be input (S114). That is, among the series of steps shown in FIG. 8 , steps executed by the computer device 810 may be executed by a device manufacturer who operates and manages the computer device 810 . In an embodiment, the steps executed by the computer device 810 may be executed by the device registration tool 110 which is a software program provided by a module manufacturer producing the IoT module 120 .

The device registration tool 110 encodes at least some of the identification information received in step S113 and the identification information received in step S114 into a predetermined format (S115), and transmits the encoded identification information to the database 130. There is (S116). The database 130 may store the received identification information (S117) and inform the device registration tool 110 that the device equipped with the IoT module 120 has been successfully registered (S118).

9 and 10 are diagrams provided to explain a registration procedure of a new device according to an embodiment of the present invention.

First, referring to FIG. 9 , an authentication request procedure for a consumer to purchase a new device 150 and connect to the IoT network 131 may be performed. The new device 150 may be a device on which the IoT module 120 is mounted.

The database 130 may store identification information for determining whether the new device 150 is a device registered in the IoT network 131 . For example, the database 130 may store identification information collected in the registration procedure according to an embodiment described above with reference to FIGS. 6 to 8 .

Referring to FIG. 10 , the new device 150 may transmit an authentication request to the database 130 of the IoT network 131 ( S121 ). The authentication request transmitted to the database 130 in step S121 may include identification information of the new device 150 and the degree of identification of the IoT module 120 embedded in the new device 150 .

The database 130 may search whether the identification information received with the authentication request exists among the stored identification information (S122), and may send an authentication confirmation message to the new device 150 (S123). When the authentication verification procedure is completed, the database 130 creates a communication channel between the IoT network 131 and the new device 150 (S124), and can exchange data necessary for providing the IoT service with each other. There is (S125).

11 and 12 are diagrams provided to explain a device registration procedure according to an embodiment of the present invention.

Referring to FIG. 11 , the IoT module 220 capable of communicating with the computer device 211 is provided, and the device registration tool 210 may be executed in the computer device 211 . The device registration tool 210 may be a kind of software program, and the computer device 211 may be a device operated by a module manufacturer producing the IoT module 220 . The computer device 211 may be connected to communicate with the database 230 owned by the module manufacturer.

11 , identification information of the IoT module 220 produced by the module manufacturer may be stored in the database 230 by the device registration tool 210 . A device manufacturer who purchases the IoT module 220 and manufactures a device may access the database 230 operated by the module manufacturer to receive identification information of the IoT module 220, and use the received identification information. Thus, the registration procedure of the device equipped with the IoT module 220 may be performed. That is, in the embodiment shown in FIG. 11 , identification information of the IoT module 220 may not be directly stored in the memory of the IoT module 220 purchased by the device manufacturer. Hereinafter, it will be described in more detail with reference to FIG. 10 .

Referring to FIG. 12 , the device registration tool 210 may request information of the IoT module 220 from the IoT module 220 ( S201 ). The information requested by the device registration tool 210 in step S201 includes certificate identification information stored in the IoT module 220, and/or a serial number assigned to the IoT module 220, and the IoT module 420 is It may include code information and the like. The code information may be two-dimensional code information such as QR code information and barcode information.

The device registration tool 210 may receive identification information and code information of the IoT module 220 from the IoT module 220 in response to the request in step S201 ( S202 ). The device registration tool 210 may encode the identification information and code information received in step S202 into a predetermined format (S203), and transmit the encoded information to the database 230 operated by the module manufacturer (S204) . As described above, the database 230 may be a database directly operated and managed by a module manufacturer producing the IoT module 420 . Therefore, in the embodiment described with reference to FIG. 10 , the device registration tool 210 that collects identification information and code information of the IoT module 220 and transmits it to the database 230 is also directly operated and managed by the module manufacturer. It can be executed on a computer device that

The database 230 may store the information received in step S204 (S205), and inform the device registration tool 210 that the code information and identification information of the IoT module 220 are stored (S206). An operator who operates and manages the device registration tool 210 may check that the code information and identification information of the IoT module 220 have been successfully stored in the database 230 through the notification of step S206 . The code information and identification information of the IoT module 220 stored in the database 230 may then be transmitted to the device manufacturer at the request of a device manufacturer that manufactures a device equipped with the IoT module 220 . That is, identification information may not be stored locally in the IoT module 220 that a device manufacturer purchases for device manufacturing.

13 and 14 are diagrams provided to explain a device authentication and registration procedure according to an embodiment of the present invention.

Referring to FIG. 13 , an IoT module 320 capable of communicating with a computer device 311 is provided, and the device registration tool 310 may be executed in the computer device 311 . The device registration tool 310 may be a kind of software program, and a module manufacturer that produces the IoT module 320 may provide it to a device manufacturer who wants to produce a device equipped with the IoT module 320 . That is, in the embodiment shown in FIG. 13 , the computer device 311 may be a computer operated by a device manufacturer. The computer device 311 may be communicatively connected to the first database 330 owned by the module manufacturer. As described above with reference to FIGS. 11 and 12 , the identification information of the IoT module 320 and the two-dimensional code printed on the IoT module 320 (eg, QR code or barcode) information may be stored in the first database 330 .

In the embodiment shown in FIG. 13 , the first database 330 may communicate with the second database 340 linked to the IoT network 341 . The second database 340 is a database managed by a server operating an IoT network, and may communicate with various devices equipped with the IoT module 520 through the IoT network 341 .

13, the device manufacturer purchases the IoT module 320 from the module manufacturer, and then uses the computer device 311 to recognize the two-dimensional code printed on the IoT module 320, Code information can be extracted. The code information is transmitted to the first database 330 by the device registration tool 310 , and the first database 330 may search for identification information corresponding to the received code information and transmit it to the computer device 311 . That is, in the IoT module 320 purchased by the device manufacturer in the embodiment shown in FIG. 13 , identification information of the IoT module 320 may not be stored locally. Instead, the device manufacturer may scan the two-dimensional code included in the IoT module 320 to receive identification information of the IoT module 320 from the first database 330 operated by the module manufacturer. Hereinafter, a more detailed operation will be described with reference to FIG. 14 .

Referring to FIG. 14 , the operation according to an embodiment of the present invention may start with the device registration tool 310 requesting and receiving code information of the IoT module 320 from the IoT module 320 ( S301 ). -S302). In one embodiment, by scanning the two-dimensional code printed on the IoT module 320 with a code recognition device (camera, barcode reader, etc.) connected to a computer device executing the device registration tool 310, the device registration tool 310 ) may read code information of the IoT module 320 .

The device registration tool 310 may transmit code information read from the IoT module 320 to the first database 330 (S303). As described above, the first database 330 may retain identification information of the IoT module 320 and code information of the IoT module 320 by the registration procedure described with reference to FIGS. 11 and 12 . there is. The first database 330 may search for identification information corresponding to the code information received in step S303 ( S304 ) and transmit identification information of the IoT module 320 to the device registration tool 310 ( S305 ).

The device registration tool 310 may receive identification information of a device on which the IoT module 320 is mounted or on which the IoT module 320 is to be mounted, and/or identification information of a device manufacturer ( S306 ). Step S306 may be executed by a device manufacturer. The device registration tool 310 may encode the identification information received in step S305 and the identification information input in step S306 into a predetermined format (S307), and transmit the encoded identification information to the first database 330 (S308). ). The first database 330 may store the identification information received in step S308 (S309), and inform the device registration tool 310 that the device on which the IoT module 320 is mounted has been successfully registered (S310) . In an embodiment, the first database 330 stores the identification information received in step S308 in addition to the previously stored identification information of the IoT module 320 or stores the previously stored IoT module 320 . The identification information of may be updated with the identification information received in step S308.

In the embodiment shown in FIG. 14 , steps S311 to S317 may be steps executed while a consumer purchases and uses a new device 350 equipped with an IoT module. When the consumer drives the new device 350 and connects to the IoT network, the new device 350 may send an authentication request to the second database 340 linked with the IoT network (S311). In step S311 , the new device 350 may transmit identification information of the new device 350 and identification information of the IoT module mounted in the new device 350 together with the authentication request.

Upon receiving the authentication request, the second database 340 may transmit the identification information received from the new device 350 to the first database 330 ( S312 ). The first database 330 may search whether there is information matching the identification information received in step S312 ( S313 ), and determine whether authentication of the new device is permitted. If the identification information of the new device 350 connected by the consumer to the IoT network exists in the first database 330 , the first database 330 may send an authentication confirmation message to the second database 340 ( S314 ). ).

Upon receiving the authentication confirmation message, the second database 340 transmits the authentication confirmation message to the new device 350 (S315), and creates a communication channel between the new device 350 and the IoT network (S316) to transmit data It can be exchanged (S317). At this time, since personal information such as consumers and their environment can be shared in the IoT system, the communication channel created in step S316 is created by TLS (Transport Layer Security) or DTLS (Datagram Transport Layer Security) protocol can be

In the embodiment described with reference to FIGS. 13 and 14 , identification information transmitted using the device registration tool 310 may be stored in the first database 330 operated by the module manufacturer. Therefore, even if the information stored in the second database 340 of the IoT network is unintentionally damaged or hacked, the authentication of the new device 350 can proceed without any problem using the information stored in the first database 330 . there is. In an embodiment, the identification information stored in the first database 330 may be simultaneously stored in the second database 340 .

15 and 16 are diagrams provided to explain a device authentication and registration procedure according to an embodiment of the present invention.

First, referring to FIG. 15 , the computer device 411 and the IoT module 420 are communicatively connected, and the device registration tool 410 may be executed in the computer device 411 . In the embodiment shown in FIG. 15 , the computer device 411 may be a computer operated by a device manufacturer. The computer device 411 may be communicatively connected to the first database 430 owned by the module manufacturer and the second database 440 included in the IoT network. As in the embodiment described above with reference to FIGS. 11 and 12 , in the embodiment described with reference to FIGS. 15 and 16 , identification information of the IoT module 420 is performed by the authentication procedure performed by the module manufacturer. And information of a two-dimensional code (eg, a QR code or a barcode) printed on the IoT module 420 may be stored in the first database 430 .

15, the device manufacturer purchases the IoT module 420 from the module manufacturer, and then uses the computer device 411 to recognize the two-dimensional code printed on the IoT module 420, Code information can be extracted. The code information is transmitted to the first database 430 by the device registration tool 410 , and the first database 430 may search for identification information corresponding to the received code information and transmit it to the computer device 411 . That is, in the IoT module 420 purchased by the device manufacturer in the embodiment shown in FIG. 15 , identification information of the IoT module 420 may not be stored. Instead, the device manufacturer may scan the two-dimensional code included in the IoT module 420 to receive identification information of the IoT module 420 from the first database 430 operated by the module manufacturer. Hereinafter, a more detailed operation will be described with reference to FIG. 16 .

Referring to FIG. 16 , the operation according to an embodiment of the present invention may start with the device registration tool 410 requesting and receiving code information of the IoT module 420 from the IoT module 420 ( S401 ). -S402). In one embodiment, the device registration tool 410 by scanning the two-dimensional code printed on the IoT module 420 with a code recognition device (camera, barcode reader, etc.) connected to the computer device in which the device registration tool 410 is executed. ) may read code information of the IoT module 420 .

The device registration tool 410 may transmit code information read from the IoT module 420 to the first database 430 ( S403 ). As described above, the first database 430 may retain identification information of the IoT module 420 and code information of the IoT module 420 by the registration procedure described with reference to FIGS. 13 and 15 . there is. The first database 430 may search for identification information corresponding to the code information received in step S403 ( S404 ) and transmit identification information of the IoT module 420 to the device registration tool 410 ( S405 ).

The device registration tool 410 may receive identification information of a device on which the IoT module 420 is mounted or on which the IoT module 420 is to be mounted, and/or identification information of a device manufacturer ( S406 ). Step S406 may be executed by a device manufacturer. The device registration tool 410 may encode the identification information received in step S405 and the identification information input in step S406 into a predetermined format (S407), and transmit the encoded identification information to the second database 440 (S408). ). The second database 440 may store the identification information received in step S408 (S409), and inform the device registration tool 410 that the device on which the IoT module 420 is mounted has been successfully registered (S410) .

In the embodiment shown in FIG. 16 , steps S411 to S415 may be steps executed while a consumer purchases and uses a new device 450 equipped with an IoT module. When the consumer connects the new device 450 to the IoT network, the new device 450 may send an authentication request to the second database 440 linked with the IoT network (S411). In step S411 , the new device 450 may transmit identification information of the new device 450 and identification information of the IoT module mounted in the new device 450 together with the authentication request.

Upon receiving the authentication request, the second database 440 may search whether there is information matching the identification information received in step S411 ( S412 ), and determine whether authentication of the new device is permitted. If the identification information of the new device 450 that the consumer wants to connect to the IoT network exists in the second database 440 , the second database 440 may send an authentication confirmation message to the new device 350 ( S413 ). ). When the authentication check is completed, a communication channel is created between the IoT network and the new device 450 (S414), and data transmission/reception may be performed (S415). At this time, since personal information such as consumers and the environment in which they live can be shared in the IoT system, the communication channel created in step S414 is created by TLS (Transport Layer Security) or DTLS (Datagram Transport Layer Security) protocol can be

The present invention is not limited by the above-described embodiments and the accompanying drawings, but is intended to be limited by the appended claims. Therefore, various types of substitution, modification and change will be possible by those skilled in the art within the scope not departing from the technical spirit of the present invention described in the claims, and it is also said that it falls within the scope of the present invention. something to do.

1, 2, 3: Internet of Things System
110, 210, 310, 410: device registration tool
120, 220, 320, 420: IoT module
130, 230: database
330, 430: first database
340, 440: second database
150, 350, 450: new device

Claims (20)

obtaining identification information of an Internet of Things (IoT) module;
obtaining identification information of a device on which the IoT module is mounted; and
registering identification information of the IoT module and identification information of the device in a database accessible by an IoT network; An operating method of an IoT system comprising a.
According to claim 1,
The device identification information includes at least one of a serial number assigned to the device, a product name of the device, and identification information given to a manufacturer of the device.
According to claim 1,
The identification information of the IoT module includes at least one of certificate identification information stored in the IoT module and a serial number assigned to the IoT module.
According to claim 1,
The device manufacturer is different from the manufacturer of the IoT module.
According to claim 1,
The registering step may include encoding identification information of the IoT module and identification information of the device into a predetermined format; An operating method of an IoT system comprising a.
According to claim 1,
The database is a database managed by a manufacturer of the IoT module.
7. The method of claim 6,
receiving, by the IoT network, an authentication request from a new device to be connected to the IoT network;
transmitting, by the IoT network, identification information of the new device received together with the authentication request and identification information of an IoT module mounted in the new device to the database;
searching the database for identification information of the new device and identification information of an IoT module mounted in the new device, and transmitting the search result to the IoT network; and
determining, by the IoT network, whether to authenticate the new device based on the search result; Operating method of the IoT system further comprising a.
8. The method of claim 7,
establishing, by the IoT network, communication with the new device, when the identification information of the new device and the identification information of the IoT module mounted in the new device exist in the database; Operating method of the IoT system further comprising a.
According to claim 1,
wherein the database is a database included in the IoT network.
10. The method of claim 9,
transmitting, by the IoT network, an authentication request from a new device to be connected to the IoT network;
searching the database for identification information of the new device received together with the authentication request and identification information of an IoT module mounted in the new device; and
determining, by the IoT network, whether to authenticate the new device based on the search result; Operating method of the IoT system further comprising a.
According to claim 1,
The IoT module includes a two-dimensional code, and the method of operating an Internet of Things system for acquiring identification information of the IoT module by scanning the two-dimensional code.
12. The method of claim 11,
transmitting information of the two-dimensional code to the database; and
receiving identification information of the IoT module corresponding to the information of the two-dimensional code from the database; Operating method of the IoT system further comprising a.
According to claim 1,
An operating method of an IoT system for reading identification information of the IoT module from a memory of the IoT module.
According to claim 1,
The database stores the identification information of the IoT module and the identification information of the device as a whitelist.
Receiving a registration request for a device equipped with an IoT module;
storing identification information of the IoT module and identification information of the device in a database;
searching the database for identification information of the new device and identification information of an IoT module mounted in the new device when receiving an authentication request from a new device to be connected to the IoT network; and
establishing communication with the new device based on a search result; An operating method of an IoT system comprising a.
16. The method of claim 15,
The database is a database of a server operating the Internet of Things network.
16. The method of claim 15,
The database stores the identification information of the IoT module and the identification information of the device as a white list, and when the identification information of the new device and the identification information of the IoT module mounted in the new device exist in the white list, An operating method of an Internet of Things system for establishing communication with the new device.
receiving, by the first database, a registration request for a device equipped with an IoT module;
storing, by the first database, identification information of the IoT module and identification information of the device;
When the second database different from the first database receives an authentication request from a new device to be connected to the IoT network, the second database provides identification information of the new device and identification information of the IoT module mounted in the new device. transmitting to the first database;
transmitting, by the first database, the identification information of the new device and the identification information of the IoT module mounted in the new device to the second database; and
establishing, by the second database, communication with the new device based on the search result; An operating method of an IoT system comprising a.
19. The method of claim 18,
The first database is a database managed by a module manufacturer that manufactures the IoT module.
19. The method of claim 18,
and the second database is a database included in the IoT network.

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