KR102296092B1 - IoT protocol builder system for IoT device - Google Patents

Abstract

An IoT protocol builder system for an IoT home appliance is provided. The IoT protocol builder provides a protocol UI that shows the status fields for all functions available for each IoT home appliance group, and the IoT home appliance developer terminal displays the protocol UI provided by the IoT protocol builder and provides information on the functions supported by the IoT home appliance to be produced. The corresponding status fields are selected by the IoT home appliance developer through the protocol UI, and the IoT home appliance server automatically creates and registers a protocol for a new IoT home appliance based on the status fields selected in the IoT home appliance developer terminal.

Description

IoT protocol builder system for IoT home appliances {IoT protocol builder system for IoT device}

The present invention relates to an IoT protocol builder system for IoT home appliances, and more particularly, an IoT home appliance that can provide the same protocol UI for each household appliance group and generate a plurality of protocols suitable for the specifications of various home appliances from the same protocol UI It relates to an IoT protocol builder system for

A smart home is a function that enables monitoring and control by connecting home appliances, water, electricity consumption, door locks, and surveillance cameras through a communication network, and one of the core technologies of this function is the Internet of Things (IoT).

The existing smart home builds a gateway server for each IoT device manufacturer and a device control server for each type of IoT device. When a user requests operation control of an IoT device, the gateway server that receives the request transmits an operation control signal to the IoT device control server, which in turn transmits an operation control signal to the corresponding IoT device to control the operation of the IoT device. Control.

However, the existing IoT device developer creates the IoT device protocol by applying the same protocol creation method without considering the standards and specifications of the IoT device. Accordingly, since the protocol generated for the IoT device also includes a protocol for a function not provided by the IoT device, it is not possible to generate a protocol suitable for the specification of the IoT device, and there is a problem in that the protocol capacity increases.

In addition, since the existing IoT server that controls the operation of the IoT device and the protocol used by the IoT device are not shared, a complex operation is required for interworking between the IoT device and the IoT server.

Domestic Registered Patent No. 10-1734398 (Registered on 2017.05.02.)

The technical problem to be achieved by the present invention in order to solve the above problems is an IoT protocol builder for IoT home appliances that can generate a protocol corresponding to a standard when a home appliance company requests generation of a protocol suitable for a standard for each household appliance group in the development stage to present the system.

The problems to be solved of the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

As a means for solving the above-described technical problem, according to an embodiment of the present invention, the IoT protocol builder system for IoT home appliances provides a state of all functions available for each IoT home appliance group to generate a protocol desired by an IoT home appliance developer. IoT protocol builder providing protocol UI showing fields; IoT that displays the protocol UI provided by the IoT protocol builder and receives status fields corresponding to functions supported by the IoT home appliance to be produced (hereinafter referred to as 'new IoT home appliance') from the IoT home appliance developer through the protocol UI consumer electronics developer terminals; and an IoT home appliance server that automatically generates and registers a protocol for the new IoT home appliance (hereinafter referred to as a 'new IoT home appliance status protocol') based on the status fields selected in the IoT home appliance developer terminal.

The new IoT home appliance can be linked by sharing a new IoT home appliance status protocol generated by the IoT home appliance server with the IoT home appliance server.

The new IoT home appliance generates home appliance status information by sensing the status according to the function of the new IoT home appliance, and provides essential information of the new IoT home appliance and the home appliance status information based on the shared new IoT home appliance status protocol, respectively, into essential fields After generating a home appliance telegram by filling in the fields and the selected status fields, the generated home appliance telegram is transmitted to the IoT home appliance server.

The IoT home appliance server checks the home appliance type from the home appliance message received from the new IoT home appliance, and when the checked home appliance type is registered, the home appliance based on the new IoT home appliance status protocol corresponding to the identified home appliance type Parsing the telegram to obtain and store home appliance status information.

Meanwhile, according to another embodiment of the present invention, a protocol UI showing fields (hereinafter, referred to as 'control function fields') for all control functions supportable for each IoT home appliance group is provided so that an IoT home appliance developer can create a desired protocol. IoT protocol builder; The protocol UI provided by the IoT protocol builder is displayed, and control function fields corresponding to control functions supported by the IoT home appliance to be produced (hereinafter referred to as 'new IoT home appliance') are selected from the IoT home appliance developer through the protocol UI. receiving IoT home appliance developer terminals; and an IoT home appliance server that automatically creates and registers a protocol for the new IoT home appliance (hereinafter referred to as a 'new IoT home appliance control protocol') based on the control function fields selected in the IoT home appliance developer terminal. A new IoT home appliance control protocol generated by the IoT home appliance server is shared with the IoT home appliance server.

Further comprising; a control terminal for controlling the operation of one or more IoT home appliances through wired/wireless communication, wherein the IoT home appliance server receives a command to control the operation of the new IoT home appliance from the control terminal, the control terminal controls Check the type of new IoT home appliance to be desired, and when the identified type of home appliance is registered, generate a home appliance control message including a command for controlling the new IoT home appliance based on the new IoT home appliance control protocol It is transmitted to new IoT appliances.

The new IoT home appliance verifies the command by parsing the received home appliance control message based on the new IoT home appliance control protocol, and performs an operation corresponding to the confirmed command.

According to the present invention, by providing a home appliance company with the same protocol UI for each household appliance group, a home appliance developer can more simply request a protocol conforming to the home appliance standard, and generate and disseminate a protocol corresponding to the home appliance standard according to the request.

Effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a view showing an IoT protocol builder system for an IoT home appliance according to an embodiment of the present invention;
2 is a block diagram showing a new IoT home appliance;
Figure 3 is a block diagram showing the IoT home appliance server shown in Figure 1;
4 is a flowchart illustrating an operation using a new IoT home appliance state protocol of an IoT protocol builder system for an IoT home appliance according to an embodiment of the present invention;
5 is a flowchart for explaining an operation using a new IoT home appliance control protocol of an IoT protocol builder system for an IoT home appliance according to another embodiment of the present invention;
6 is a flowchart illustrating an operation of creating a new IoT home appliance protocol of an IoT protocol builder system for an IoT home appliance according to another embodiment of the present invention.

Before describing the specific content for carrying out the present invention, the terms or words used in the specification and claims may properly define the concept of the term in order for the inventor to best describe his or her invention. Based on the principle that there is, it should be interpreted as meaning and concept consistent with the technical matters of the present invention.

In addition, when it is determined that the detailed description of the well-known functions related to the present invention and its configuration may unnecessarily obscure the gist of the present invention, it should be noted that the detailed description is omitted.

Hereinafter, specific technical contents to be practiced in the present invention will be described in detail with reference to the accompanying drawings.

Each configuration of the devices 100 and 400 shown in FIGS. 2 and 3 indicates that they can be functionally and logically separated, and that each configuration is necessarily divided into a separate physical device or generated with a separate code. An average expert in the technical field of the present invention can easily infer that this does not mean that

Also, in the present specification, a module may mean a functional and structural combination of hardware for carrying out the technical idea of the present invention and software for driving the hardware. For example, the module may mean a logical unit of a predetermined code and a hardware resource for executing the predetermined code, and the present invention does not necessarily mean physically connected code or one type of hardware. It can be easily inferred to an average expert in the technical field of

1 is a diagram illustrating an IoT protocol builder system for an IoT home appliance according to an embodiment of the present invention.

Referring to FIG. 1 , an IoT protocol builder system for an IoT home appliance according to an embodiment of the present invention includes a new IoT home appliance 100 , an IoT protocol builder 200 , an IoT home appliance developer terminal 300 and an IoT home appliance server 400 . includes

The new IoT home appliance 100 may transmit sensing data according to the functional state of the home appliance to the IoT home appliance server 400 based on IoT technology.

The IoT protocol builder 200 may provide protocol UIs for selecting available status fields for each IoT home appliance group so that an IoT home appliance developer can create a desired protocol. To this end, the IoT protocol builder 200 may provide the IoT home appliance developer terminal 300 with a protocol UI showing status fields for all functions available for each IoT home appliance group.

For example, when the types of functions that the air purifier can provide are 100 including dust sensor, gas sensor, air volume, special mode, etc., the IoT protocol builder 200 displays status fields for 100 functions. A protocol UI to show can be provided. Accordingly, the IoT protocol builder 200 may provide a UI for generating the same air purifier protocol to all manufacturers or all IoT home appliance developer terminals that manufacture the air purifier. The same is true for other IoT appliances.

Since the IoT protocol builder 200 may provide a protocol UI in the form of a web UI in the IoT home appliance server 400 or a separate server, the IoT home appliance developer terminal 300 connects to the IoT home appliance server 400 or a separate server Therefore, when requesting to create a protocol, the protocol UI can be provided. In this case, the IoT protocol builder 200 may be implemented to interwork with the IoT home appliance server 400 or a separate server, or the function of the IoT protocol builder 200 may be mounted in the IoT home appliance server 400 or a separate server. It can also be implemented as a module.

In addition, the protocol provided by the IoT protocol builder 200 can be generated in one of binary, XML, and JSON formats. Alternatively, the protocol provided by the IoT protocol builder 200 may be generated as a protocol conforming to at least one of the OCF standard and the oneM2M standard.

The IoT home appliance developer terminal 300 displays the protocol UI provided by the IoT protocol builder 200, and displays the status fields corresponding to the functions supported by the IoT home appliance 100 to be produced (hereinafter referred to as 'new IoT home appliance'). It can be selected by IoT home appliance developers through the protocol UI. For example, if 10 functions are provided according to the standard of the new IoT home appliance 100 among 100 status fields displayed in the protocol UI, the home appliance developer selects status fields corresponding to 10 functions in the protocol UI.

In addition, the protocol UI includes essential fields for receiving essential information required when creating a protocol of the new IoT home appliance 100 . Accordingly, the home appliance developer inputs essential information of the new IoT home appliance 100 in the required fields. The essential information may include basic information such as ID, model name, home appliance manufacturer, home appliance group, standard, home appliance specialized ID, protocol creation time or protocol update time of the new IoT home appliance 100 .

The IoT home appliance developer terminal 300 transmits essential information input in the protocol UI and the selected status fields to the IoT protocol builder 200 .

The IoT protocol builder 200 transmits the received essential information and the selected status fields to the IoT home appliance server 400 . When the IoT home appliance server 400 creates a protocol in a binary format, the IoT protocol builder 200 transmits the status fields in the order in which the home appliance developer selects the status fields, or together with the priority given to each status field by the home appliance developer Status fields can be transmitted. This is because, in the case of the binary type, the order in which the status fields are selected is important when creating a protocol.

The IoT home appliance server 400 automatically creates and registers a protocol for the new IoT home appliance 100 (hereinafter referred to as a 'new IoT home appliance status protocol') based on the status fields selected in the IoT home appliance developer terminal 300 . can do.

On the other hand, the above-described IoT protocol builder 200 is a protocol showing fields (hereinafter, referred to as 'control function fields') for all control functions supportable for each IoT home appliance group so that an IoT home appliance developer can create a desired protocol. More UIs may be provided. That is, the IoT protocol builder 200 may further provide a protocol UI enabling the user terminal or the IoT home appliance server 400 to generate a protocol for controlling the new IoT home appliance 100 for each standard of the home appliance.

The IoT home appliance developer terminal 300 displays the protocol UI in which the control function fields are displayed, selects the control function fields corresponding to the control function supported by the new IoT home appliance 100, receives the required information, and then returns the IoT protocol builder ( 200) is sent. For example, when the new IoT home appliance 100 is an air purifier, control functions capable of externally controlling the air purifier include air volume control, sleep mode, timer, automatic mode, LED on-off, and the like.

The IoT protocol builder 200 transmits the selected control function fields and the input essential information to the IoT home appliance server 400 .

The IoT home appliance server 400 automatically generates a protocol (hereinafter referred to as a 'new IoT home appliance control protocol') for the new IoT home appliance 100 based on the control function fields selected in the IoT home appliance developer terminal 300, can register.

Then, the IoT home appliance server 400 distributes a new IoT home appliance state protocol or a new IoT home appliance control protocol generated according to the needs of the home appliance developer to the home appliance developer or home appliance manufacturer.

The home appliance developer manufactures a new IoT home appliance 100 that can be linked with a new IoT home appliance status protocol or a new IoT home appliance control protocol created in consideration of the selected status fields and the selected order.

The control terminal 500 is a user terminal capable of controlling operations of a plurality of IoT home appliances including the new IoT home appliances 100 through wired/wireless communication. To this end, the control terminal 500 installs and executes an IoT application provided by the IoT home appliance server 400 to control the new IoT home appliance 100 , and communicates with the IoT home appliance server 400 .

According to the above-described embodiment, the IoT protocol builder 200 provides the same protocol UI to the same household appliance group, and the IoT appliance server 400 selects a status field or A different protocol may be generated for each household appliance group according to a control function field selected based on the standard of the household appliance.

2 is a block diagram illustrating a novel IoT home appliance 100 .

Referring to FIG. 2 , the new IoT home appliance 100 includes a home appliance communication unit 110 , a sensing unit 120 , a home appliance memory 130 , and a home appliance processor 140 .

The home appliance communication unit 110 may transmit a home appliance message to the IoT home appliance server 400 and receive a control command from the IoT home appliance server 400 .

The sensing unit 120 includes one or more sensors for sensing a home appliance state related to a function provided by the new IoT home appliance 100 . For example, the sensing unit 120 may include a temperature sensor, an air quality sensor, a humidity sensor, a power sensor, and the like.

The home appliance memory 130 includes volatile memory and/or non-volatile memory, and one or more programs, software, and new IoT home appliance state protocols (programs) for implementing and/or providing functions, etc. provided by the new IoT home appliance 100 ), a new IoT home appliance control protocol (program), and the like may be stored.

In addition, essential information of the new IoT home appliance 100 is stored in the home appliance memory 130 .

The home appliance processor 140 controls the overall operation of the new IoT home appliance 100 by executing one or more programs stored in the new IoT home appliance 100 .

For example, the new IoT home appliance 100 can be linked by sharing the new IoT home appliance status protocol generated by the IoT home appliance server 400 with the IoT home appliance server 400 . Accordingly, the home appliance processor 140 generates home appliance status information by sensing the status according to the function of the home appliance 100 , and essential information and home appliance status information of the new IoT home appliance 100 based on the shared new IoT home appliance status protocol. can be written in each of the required fields and the status fields to generate a home appliance message. The home appliance communication unit 110 transmits the generated home appliance message to the IoT home appliance server 400 .

3 is a block diagram illustrating the IoT home appliance server 400 shown in FIG. 1 .

Referring to FIG. 3 , the IoT home appliance server 400 may include a server communication unit 410 , a DB 420 , a server memory 430 , and a server processor 440 .

The server communication unit 410 communicates with the new IoT home appliance 100 , the IoT protocol builder 200 , and the control terminal 500 .

The DB 420 stores the required degree of essential fields and the selected status fields input by the home appliance developer from the IoT protocol builder 200, and stores a new IoT home appliance status protocol generated for each standard of the home appliance. In addition, the DB 420 stores the required degree of the required fields input by the home appliance developer from the IoT protocol builder 200 and the selected control function fields, and stores a new IoT home appliance control protocol generated for each standard of the home appliance.

The server memory 430 may include volatile memory and/or non-volatile memory. The server memory 430 may store one or more programs, software, operating systems, etc. for implementing and/or providing functions provided by the IoT home appliance server 400 .

In addition, the server memory 430 may further store a program for generating a protocol using essential information input from the IoT home appliance developer terminal 300 and selected status fields or selected control function fields.

The server processor 440 controls the overall operation of the server 400 by executing one or more programs stored in the server memory 430 .

For example, the server processor 440 may create a new IoT home appliance status protocol using the required degree received from the IoT protocol builder 200 and the selected status fields and then register it in the DB 420 .

In addition, the server processor 440 may generate a new IoT home appliance control protocol using the required degree received from the IoT protocol builder 200 and the selected control function fields, and then register it in the DB 420 .

At this time, when the protocol provided by the IoT protocol builder 200 or the protocol supported by the server 400 is in a binary format, the server processor 440 controls the order or control in which the status fields are selected in the IoT home appliance developer terminal 300 . A new IoT home appliance status/control protocol can be created according to the order in which the functional fields are selected.

Thereafter, when a home appliance message is received from the new IoT home appliance 100 manufactured based on the new IoT home appliance status protocol, the server processor 440 checks the type of home appliance from the received home appliance message, and the confirmed home appliance type is stored in the DB 420 ), it is determined that the protocol for the new IoT home appliance 100 has been created in advance, and based on the new IoT home appliance status protocol corresponding to the identified type of home appliance, the home appliance full text is parsed to obtain home appliance status information And it can be stored / accumulated in the DB (420). Thereafter, the server processor 440 may transmit the home appliance state information stored in the DB 420 to the control terminal 500 for controlling the new IoT home appliance 100 .

In addition, when a command for controlling the operation or function of the new IoT home appliance 100 is received from the control terminal 500 , the server processor 440 determines the type of the new IoT home appliance 100 that the control terminal 500 wants to control. , and when the checked type of home appliance is registered in the DB 420, the new IoT home appliance 100 is controlled based on the new IoT home appliance control protocol created for the type (or standard) of the new IoT home appliance 100. A home appliance control message including a command for controlling is generated and transmitted to the new IoT home appliance 100 .

The new IoT home appliance 100 parses the received home appliance control message based on the new IoT home appliance control protocol shared with the IoT home appliance server 400 to confirm a command, and performs an operation corresponding to the confirmed command.

Hereinafter, an operation using a protocol of an IoT protocol builder system for an IoT home appliance according to an embodiment of the present invention will be described with reference to FIGS. 4 to 6 .

The new IoT home appliance 100, the IoT protocol builder 200, the IoT home appliance developer terminal 300, and the IoT home appliance server 400 shown in FIGS. 4 to 6 have been described with reference to FIGS. 1 to 4, so the detailed description is omit

4 is a flowchart illustrating an operation using a new IoT home appliance state protocol of an IoT protocol builder system for an IoT home appliance according to an embodiment of the present invention.

Referring to FIG. 4 , the IoT protocol builder 200 provides protocol UIs for selecting usable status fields for each IoT household appliance group to the IoT home appliance developer terminal 300 ( S405 ).

The IoT home appliance developer terminal 300 displays the received protocol UI, selects status fields that meet the specifications of the new IoT home appliance 100 to be developed, and inputs essential information (S410), The status fields are transmitted to the IoT protocol builder 200 (S415).

The IoT protocol builder 200 transmits essential information and status fields received from the IoT home appliance developer terminal 300 to the IoT home appliance server 400 (S420).

The IoT home appliance server 400 automatically creates and registers a new IoT home appliance status protocol based on the status fields selected in the IoT home appliance developer terminal 300 received from step S420 (S425).

Thereafter, a new IoT home appliance 100 that can be linked with a new IoT home appliance state protocol is manufactured by the home appliance developer ( S430 ).

The new IoT home appliance 100 senses the state of the home appliance 100 according to the function provided by the home appliance 100 (S435), and the sensed home appliance based on the new IoT home appliance status protocol shared with the IoT home appliance server 400 Generates a home appliance message including the state (S440). In step S440, the new IoT home appliance 100 senses the home appliance status corresponding to the status fields included in the new IoT home appliance status protocol, and writes the sensed result in each status field, and writes essential information in the required field, The type of the new IoT home appliance 100 may be further separately written to generate a home appliance full text.

The new IoT home appliance 100 transmits the generated home appliance message to the IoT home appliance server 400 (S445).

The IoT home appliance server 400 stores the received home appliance message (S450), checks the type of home appliance written in the home appliance message, and checks whether the checked home appliance type is registered in the IoT home appliance server 400 (S455).

If registered (S455-Yes), the IoT home appliance server 400 parses the entire home appliance based on the registered new IoT home appliance status protocol mapped to the type of home appliance to obtain the home appliance status information (S460), and the acquired home appliance The state information is stored and utilized (S465).

If not registered (S455-No), the IoT home appliance server 400 checks the home appliance company according to the type of home appliance and notifies the home appliance company that a protocol corresponding to the standard of the type of home appliance is not generated (S470).

5 is a flowchart illustrating an operation using a new IoT home appliance control protocol of an IoT protocol builder system for an IoT home appliance according to another embodiment of the present invention.

Referring to FIG. 5 , the IoT protocol builder 200 provides a protocol UI for selecting control function fields usable for each IoT home appliance group to the IoT home appliance developer terminal 300 ( S505 ).

The IoT home appliance developer terminal 300 displays the received protocol UI, selects control function fields conforming to the standard of the new IoT home appliance 100 to be developed, and after inputting essential information (S510), the input essential information and The selected control function fields are transmitted to the IoT protocol builder 200 (S515).

The IoT protocol builder 200 transmits the received essential information and control function fields to the IoT home appliance server 400 (S520).

The IoT home appliance server 400 automatically creates and registers a new IoT home appliance control protocol based on the received control function fields and essential information (S525).

Thereafter, a new IoT home appliance 100 that can be linked with a new IoT home appliance control protocol is manufactured by the home appliance developer (S530).

In addition, when a command for controlling the operation or function of the new IoT home appliance 100 is received from the control terminal 500 ( S535 ), the IoT home appliance server 400 stores the received command ( S540 ).

The IoT home appliance server 400 checks the type of home appliance written in the stored command, and checks whether the checked home appliance type is registered in the IoT home appliance server 400 (S545).

The IoT home appliance server 400 receives the command received in step S540 based on the new IoT home appliance control protocol mapped to the home appliance type and registered when the checked type of home appliance is registered in the DB 420 (S545-Yes). A home appliance control message is generated and transmitted to the new IoT home appliance 100 (S550, S555).

The new IoT home appliance 100 checks the command by parsing the received home appliance control message based on the new IoT home appliance control protocol shared with the IoT home appliance server 400, and performs an operation corresponding to the confirmed command (S560, S565).

On the other hand, the IoT home appliance server 400 notifies the home appliance type registration error to the control terminal 500 when the checked type of home appliance is not registered in the DB 420 (S545-No) (S570).

6 is a flowchart illustrating an operation of creating a new IoT home appliance protocol of an IoT protocol builder system for an IoT home appliance according to another embodiment of the present invention.

Referring to FIG. 6 , the IoT protocol builder 200 provides protocol UIs for selecting available status fields for each IoT household appliance group to the IoT home appliance developer terminal 300 ( S605 ).

The IoT home appliance developer terminal 300 displays the received protocol UI, selects status fields that meet the standard of the new IoT home appliance 100 to be developed, and after inputting essential information (S610), the input essential information and the selected The status fields are transmitted to the IoT protocol builder 200 (S615).

Thereafter, the IoT protocol builder 200 provides the IoT home appliance developer terminal 300 with a protocol UI for selecting control function fields usable for each IoT home appliance group (S615).

The IoT home appliance developer terminal 300 displays the received protocol UI, selects control function fields conforming to the standard of the new IoT home appliance 100 to be developed (S620), and transmits the selected control function fields to the IoT protocol builder 200 do (S625).

The IoT protocol builder 200 transmits essential information, status fields, and control function fields received in steps S615 and S630 to the IoT home appliance server 400 (S630).

The IoT home appliance server 400 automatically creates and registers a new IoT home appliance protocol based on the received essential information, status fields, and control function fields (S635).

Thereafter, a new IoT home appliance 100 that can be linked with a new IoT home appliance protocol is manufactured by the home appliance developer (S640), and steps S440 to S465 or S535 to S565 may be performed.

On the other hand, a person skilled in the art knows that the IoT home appliance registration method of the multiple IoT home appliance registration system according to the present invention may be provided in a recording medium that can be read through a computer as a program of instructions for implementing it is tangibly implemented. Easy to understand.

That is, the IoT home appliance registration method of the multiple IoT home appliance registration system according to the present invention is implemented in the form of a program that can be performed through various computer means, and can be recorded in a computer-readable recording medium, the computer-readable recording medium comprising: It may include program instructions, data files, data structures, and the like, alone or in combination. The computer-readable recording medium includes magnetic media such as a hard disk, optical media such as CD-ROM and DVD, and ROM, RAM, flash memory, USB memory, and the like. Hardware devices specifically configured to store and execute program instructions are included.

Accordingly, the present invention provides a program stored in a computer-readable recording medium that is executed on a computer that controls the electromagnetic wave characteristic measurement system to implement the IoT home appliance registration method of the multiple IoT home appliance registration system.

On the other hand, although described and illustrated in relation to a preferred embodiment for illustrating the technical idea of the present invention as described above, the present invention is not limited to the configuration and operation as shown and described as such, and deviates from the scope of the technical idea. It will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without such limitation. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as falling within the scope of the present invention. Accordingly, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: New IoT Appliances
200: IoT Protocol Builder
300: IoT home appliance developer terminal
400: IoT home appliance server

Claims (7)

IoT protocol builder that provides a protocol UI showing status fields for all functions available for each IoT home appliance group;
IoT home appliance that displays the protocol UI provided by the IoT protocol builder and selects status fields corresponding to functions supported by the IoT home appliance to be produced (hereinafter referred to as 'new IoT home appliance') from the IoT home appliance developer through the protocol UI developer terminal; and
An IoT home appliance server that automatically generates and registers a protocol for the new IoT home appliance (hereinafter referred to as a 'new IoT home appliance status protocol') based on the status fields selected in the IoT home appliance developer terminal;
The IoT protocol builder provides the same protocol UI to the IoT home appliance developer terminal for the same household appliance group,
The IoT home appliance developer terminal receives the selection of status fields corresponding to functions supported by the new IoT home appliance from the protocol UI provided in the same manner for the same household appliance group,
After the new IoT home appliance status protocol is automatically generated and registered, when the new IoT home appliance that can be linked with the new IoT home appliance status protocol is manufactured, the new IoT home appliance shares the new IoT home appliance status protocol with the IoT home appliance server IoT protocol builder system for IoT home appliances, characterized in that it can be linked. delete According to claim 1,
The new IoT home appliance is
The state according to the function of the new IoT home appliance is sensed to generate home appliance status information, and based on the new IoT home appliance status protocol, essential information and home appliance status information of the new IoT home appliance are added to the essential fields and the selected status fields, respectively. An IoT protocol builder system for IoT home appliances, characterized in that after writing and generating a home appliance telegram, the generated home appliance telegram is transmitted to the IoT home appliance server. 4. The method of claim 3,
The IoT home appliance server,
The home appliance type is checked from the home appliance message received from the new IoT home appliance, and when the confirmed home appliance type is registered, the home appliance status is parsed based on the new IoT home appliance status protocol corresponding to the identified home appliance type An IoT protocol builder system for IoT home appliances, characterized in that it acquires and stores information. an IoT protocol builder that provides a protocol UI showing fields (hereinafter, referred to as 'control function fields') for all control functions supportable for each IoT home appliance group;
The protocol UI provided by the IoT protocol builder is displayed, and the control function fields corresponding to the control functions supported by the IoT home appliance to be produced (hereinafter referred to as 'new IoT home appliance') are selected from the IoT home appliance developer through the protocol UI. IoT home appliance developer terminal; and
and an IoT home appliance server that automatically generates and registers a protocol (hereinafter referred to as a 'new IoT home appliance control protocol') for controlling the new IoT home appliance based on the control function fields selected in the IoT home appliance developer terminal. ,
The IoT protocol builder provides the same protocol UI to the IoT home appliance developer terminal for the same household appliance group,
The IoT home appliance developer terminal receives control function fields corresponding to the control functions supported by the new IoT home appliance from the protocol UI provided in the same way for the same household appliance group,
After the new IoT home appliance control protocol is automatically created and registered in the IoT home appliance server, when the new IoT home appliance interoperable with the new IoT home appliance control protocol is manufactured, the new IoT home appliance is a new IoT home appliance generated in the IoT home appliance server An IoT protocol builder system for an IoT home appliance, characterized in that it shares a control protocol with the IoT home appliance server. 6. The method of claim 5,
Further comprising; a control terminal for controlling the operation of one or more IoT home appliances through wired and wireless communication;
The IoT home appliance server,
When a command for controlling the operation of the new IoT home appliance is received from the control terminal, the control terminal checks the type of the new IoT home appliance to be controlled, and when the checked type of the home appliance is registered, controls the new IoT home appliance An IoT protocol builder system for IoT home appliances, characterized in that based on a protocol, a home appliance control message including a command for controlling the new IoT home appliance is generated and transmitted to the new IoT home appliance. 7. The method of claim 6,
The new IoT home appliance is
An IoT protocol builder system for an IoT home appliance, characterized in that parsing the received home appliance control message based on the new IoT home appliance control protocol, confirming the command, and performing an operation corresponding to the confirmed command.

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