KR20240007009A - Method for connecting home appliance to access point and apparatus for the same - Google Patents

Abstract

A method of connecting to an access point according to an embodiment includes: searching for the access point using a first communication method; If the result of the search does not meet preset connection conditions, searching for a relay node to connect to the access point using a second communication method; and connecting to the access point using the discovered relay node.

Description

Method for connecting a home appliance device to an access point and a home appliance device performing the method {METHOD FOR CONNECTING HOME APPLIANCE TO ACCESS POINT AND APPARATUS FOR THE SAME}

The present invention relates to short-range wireless communication technology, and more specifically, to a method and device for connecting a home appliance device to a short-range wireless communication access point.

As the digital age begins in earnest, home appliances in homes or buildings (e.g., water purifiers, air purifiers, cookers, washing machines, refrigerators, air conditioners, etc.) are replaced with high-speed digital devices that transmit high-speed and large amounts of data. A system that builds a network between home appliance devices and uses this (network) is being developed.

In general, such a network system includes home appliances equipped with short-range wireless communication modules such as Wi-Fi (wireless fidelity), and an access point (AP) that connects home appliances to an external Internet network. It is configured to include the same wireless access device.

As a prior document, according to the present applicant's Korean Patent Publication No. 10-2018-0086929, “Filter management system of water purifier and management server included therein,” the filter management system of the water purifier includes a water purifier and a management server, The water purifier and management server may be connected through a wireless AP based on wireless communication technology such as Wi-Fi. In this environment, the water purifier provides water quality information to the management server, and the management server provides a service that manages information about the life of the filter based on the water quality information.

In an environment where the above-mentioned prior literature is implemented, when a water purifier is installed in a shadow area of the wireless AP signal, the signal of the short-range wireless communication module provided in the water purifier is not transmitted to the access point, resulting in a problem in which the system does not operate smoothly. It can happen.

Korea Patent Publication, No. 10-2018-0086929 (published on August 1, 2018)

Since home appliances may be located in various locations within a home or building, if the location of the access point is moved, problems may occur in the wireless connection between other home appliances and the access point.

In addition, there are restrictions on movement depending on the characteristics of home appliances, so there is a problem in that a wireless communication environment cannot be forcibly established through movement of home appliances.

Additionally, when it is difficult to move the home appliance, there is a problem of having to install an additional communication device that amplifies the signal of the access point.

The problem to be solved by the present invention is to provide a technology for building a wireless communication environment that can be connected to a management server using a communication device provided in a home appliance device without moving the home appliance device or an access point.

In addition, it provides technology to build a wireless communication environment that can be connected to a management server by minimizing the movement of home appliances or access points.

In addition, it provides technology for building a wireless communication environment that can be connected to a management server using a communication device provided in a home appliance without installing an additional communication device that amplifies the signal of the access point.

However, the problems to be solved by the present invention are not limited to those mentioned above, and other problems to be solved that are not mentioned can be clearly understood by those skilled in the art to which the present invention pertains from the description below. will be.

A method of connecting to an access point according to an embodiment includes: searching for the access point using a first communication method; If the result of the search does not meet preset connection conditions, searching for a relay node to connect to the access point using a second communication method; and connecting to the access point using the discovered relay node.

The first communication method may correspond to a communication method for accessing the Internet through the access point, and the second communication method may correspond to a communication method for short-distance communication between the home appliance device and the relay node.

The method of connecting to an access point according to an embodiment may further include generating information related to the movement of the searched relay node when the signal strength connected to the relay node is less than a predetermined threshold.

A method of connecting to an access point according to one embodiment includes measuring the strength of a first signal connected to the relay node; When the relay node is moved, measuring a second signal strength after the relay node moves; And based on a comparison result of the first signal strength and the second signal strength, it may further include outputting information for guiding the movement of the relay node.

A method of connecting to an access point according to an embodiment includes: estimating the location of the relay node having the highest signal strength; And it may further include transmitting information for movement of the relay node to the estimated location to the user terminal.

A method of connecting to an access point according to an embodiment may further include generating data to be transmitted to another device through the access point using a protocol according to the second communication method. At this time, the data may be data converted into a protocol according to the first communication method by the relay node and delivered to the access point.

The method of connecting to an access point according to an embodiment may further include transmitting an indicator indicating that the home appliance device is connected to the access point through the relay node, along with the data, to the relay node. .

A method of connecting to an access point according to an embodiment includes monitoring signal strength with the access point using the first communication method; When the signal strength is greater than a preset reference strength, requesting information for accessing the access point from the relay node; And based on the response to the request, it may further include connecting to the access point using the first communication method.

The relay node may be another home appliance device located in the same space as the home appliance device.

A home appliance device according to an embodiment includes a communication unit that performs communication based on a first communication method and a second communication method, and a processor that controls the communication unit, wherein the processor controls the communication unit to Search for the access point using a first communication method, and if the results of the search do not meet preset connection conditions, search for a relay node to connect to the access point using the second communication method, Using the discovered relay node, it is possible to connect to the access point.

According to one embodiment, even if a shadow area of a short-range wireless communication method such as Wi-Fi occurs in various locations within a home or building, another home appliance device can be used as an intermediary node to connect to the access point, so a wireless communication environment can be established. there is.

In addition, by establishing a wireless communication environment for home appliances without installing additional communication devices, it is possible to establish a wireless communication environment for home appliances without additional costs.

Additionally, by providing information for the movement of the relay node, the relay node can be moved to a location with an optimal wireless communication environment using the above-described information.

Additionally, by providing information reflecting the wireless communication environment between the relay node and the home appliance in real time, the relay node can be moved to a location with an optimal wireless communication environment.

Figure 1 is a diagram illustrating an IoT system environment of a home appliance device to which a method of connecting to an access point according to an embodiment of the present disclosure is applied.
Figure 2 is a block diagram illustrating the configuration of a home appliance device to which a method of connecting to an access point according to an embodiment of the present disclosure is applied.
Figure 3 is a block diagram conceptually showing the function of an access point connection program according to an embodiment of the present invention.
Figure 4 is a diagram illustrating the structure of a data packet transmitted and received by an access point connection program according to an embodiment of the present invention.
5A and 5B are flowcharts showing an access point connection method according to an embodiment of the present invention.
Figure 6 is a block diagram illustrating the configuration of a relay node to which a method for connecting to an access point according to an embodiment of the present disclosure is applied.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely provided to ensure that the disclosure of the present invention is complete and to be understood by those skilled in the art. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

In describing embodiments of the present invention, if a detailed description of a known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted. The terms described below are defined in consideration of functions in the embodiments of the present invention, and may vary depending on the intent or custom of the subscriber or operator. Therefore, the definition should be made based on the contents throughout this specification.

1 is a diagram illustrating an IoT (internet of things) system environment of a home appliance device to which a method of connecting to an access point according to an embodiment of the present disclosure is applied.

The environment 10 of the home appliance illustrated in FIG. 1 may be an environment composed of an access point 100 and home appliance devices 150 and 200, such as a home or an office. At this time, the home appliance devices 150 and 200 may be connected to the Internet network (internet network) 400 through the access point 100. In addition, the home appliance devices 150 and 200 may be connected to a predetermined server device 500 through the Internet network 400 and receive data necessary for management or control of the devices 150 and 200 from the server device 500. Alternatively, it may be configured to provide data monitored within the devices 150 and 200 to the server device 500.

Although, in one embodiment of the present disclosure, the home appliance devices 150 and 200 are provided and used in a home or office, the present disclosure is not limited thereto. The home appliance devices 150 and 200 may be placed and used in an environment in which the method of connecting to an access point according to an embodiment of the present disclosure can be performed, and may be placed and used in various spaces depending on the above-described environment.

The plurality of home appliances 150 and 200 may include mobile home appliances that can be freely moved or fixed home appliances that are installed in a specific location and are not frequently moved. For example, mobile home appliances may include air purifiers, dehumidifiers, clothing managers, etc. Stationary home appliances may include water purifiers, refrigerators, cookers (eg, electronic cookers), cooking heating devices (eg, induction devices), etc. Although a mobile home appliance or a fixed home appliance is illustrated in one embodiment of the present disclosure, the present disclosure is not limited thereto and may include various home appliances.

Each home appliance device 150 or 200 may be connected to the access point 100 based on a predetermined first wireless communication method (eg, Wi-Fi). However, if the distance between the second home appliance device 200 and the access point 100 is long, and the second home appliance device 200 cannot directly connect to the access point 100, the second home appliance device 200 is 2You can access the access point 100 through the home appliance device 150 based on a wireless communication method (eg, BlueTooth). This will be explained in detail through FIGS. 2 and 3.

In an embodiment of the present disclosure, the home appliance device 150 operates as a relay node that connects the home appliance device 200 to the access point 100, so hereinafter, the home appliance device 150 will be referred to as a relay node. .

Figure 2 is a block diagram illustrating the configuration of a home appliance device that performs a method of connecting to an access point according to an embodiment of the present disclosure.

Referring to Figure 2, the home appliance device 200 may include a communication unit 210, a memory 220, and a processor 230.

The communication unit 210 may support establishment of a wireless communication channel and performance of communication through the established communication channel. Specifically, the communication unit 210 may include a first wireless communication unit 211 and a second wireless communication unit 212. The first wireless communication unit 211 is capable of processing signals and data based on the protocol of the first wireless communication method (e.g., Wi-Fi), establishing a wireless communication channel for connection with the access point 100, and Communication can be performed through established communication channels. In addition, the second wireless communication unit 212 can process signals and data based on the protocol of the second wireless communication method (e.g., BlueTooth), and establishes and establishes a wireless communication channel for connection with other electronic devices. Communication can be performed through an established communication channel.

The memory 220 may store the access point connection program 300 and information necessary for execution of the access point connection program 300.

In one embodiment of the present disclosure, the access point connection program 300 may refer to software including instructions programmed to process connection with an access point.

The processor 230 may generally control the operation of the home appliance device 200.

In order to execute the access point connection program 200, the processor 230 may load the access point connection program 300 and information required for execution of the access point connection program 300 from the memory 220.

The processor 230 may execute the access point connection program 300 to connect the home appliance device 200 to the access point 100.

The detailed operation of the processor 230 executing the access point connection program 300 to connect to the access point 100 will be described in detail with reference to FIG. 3 .

In addition, the memory 220 may further store the home appliance driving program and the information necessary for execution of the home appliance driving program, and the processor 230 may control the driving of the home appliance device 200 by executing the home appliance driving program. there is. Figure 3 is a block diagram conceptually showing the function of an access point connection program according to an embodiment of the present invention.

Referring to Figures 2 and 3, the access point connection program 300 includes an access point management unit (hereinafter referred to as 'AP management unit') 310, a relay node connection management unit (hereinafter referred to as 'RN connection management unit') ( 320), and a relay node movement management unit (hereinafter referred to as 'RN movement management unit') 330.

The AP management unit 310 may attempt to connect to the access point 100 through the first wireless communication unit 211. In addition, the AP management unit 310 may receive information indicating connection success or connection failure from the first wireless communication unit 211.

When connection to the access point 100 is successful through the first wireless communication unit 211, the AP management unit 310 can detect the signal strength with the access point 100.

The AP management unit 310 may check the connection status with the access point 100 based on the signal strength and set the operating mode by considering this.

Here, the connection state may include a stable connection state, an unstable connection state, and a connection unavailable state. The stable connection state is a state in which the strength of the wireless signal with the access point 100 represents a value greater than a predetermined signal strength, and the unstable connection state is a state in which the strength of the wireless signal represents a value less than a predetermined signal strength, and a connection is impossible state. represents a state in which the first wireless communication unit 211 is not connected to the access point 100.

Therefore, when the connection is stable, the AP management unit 310 can manage communication with the access point 100 through the first wireless communication unit 211.

Additionally, the first wireless communication unit 211 can continuously monitor the signal by the first wireless communication method and measure the signal strength (e.g., receiver signal strength indicator, RSSI) of the signal detected by the first wireless communication method. You can check it. And, the AP manager 310 can control the connection of the access point 100 through the first wireless communication unit 211 based on the signal strength. The operation of the AP manager 310 to switch the connection with the access point 100 will be described in detail with reference to FIGS. 5A and 5B below.

On the other hand, when the connection is unstable or connection is not possible, the AP management unit 310 and the RN connection management unit 320 may attempt to connect to the access point 100 using the second wireless communication unit 212. In more detail, the RN connection management unit 320 searches for home appliance devices located nearby using the second wireless communication unit 212, and uses the searched home appliance device 150 as a relay node to access the access point 100. there is.

On the other hand, even if the RN connection management unit 320 is connected to another home appliance according to the protocol of the second wireless communication method, if the signal strength with the home appliance does not exceed a predetermined threshold, it uses the home appliance as a relay node You may not.

When the signal strength with other home appliance devices is greater than a predetermined threshold, the RN connection management unit 320 determines the home appliance device 150 as a relay node, and the home appliance device 200 is a relay node by the second wireless communication method. As the connection with 150 is performed, the operating mode can be set to auxiliary connection mode. At this time, the relay node 150 may set the operating mode to relay mode.

In the auxiliary connection mode, the RN connection management unit 320 may transmit data to be transmitted to the access point 100 to the relay node 150 through the second wireless communication unit 212. In response, the relay node 150 may transmit data received from the home appliance device 200 according to the protocol of the second wireless communication method to the access point 100 using the first wireless communication method.

In addition, when transmitting data, the RN connection management unit 320 separates and processes data transmitted by a general second wireless communication protocol and data transmitted to the access point 100 through the relay node 150. Needs to be. Accordingly, the RN connection management unit 320 may configure a data packet including an 'RN data indicator' to identify data transmitted to the access point 100 through the relay node 150. The data packet generated by the RN connection management unit 320 will be described in detail with reference to FIG. 4 below.

Meanwhile, in the auxiliary connection mode, the RN mobility management unit 330 can monitor the signal strength with the relay node 150.

If the signal strength is less than a predetermined threshold, the RN movement management unit 330 may generate and provide information for movement of the relay node 150.

As an example, the RN movement management unit 330 detects the movement of the relay node 150, checks the signal strength at the moved location, generates movement information based on the confirmed signal strength, and sends the movement information as a warning, etc. , can be output through alarm devices, display devices, etc. At this time, a warning light, an alarm device, a display device, etc. may be devices provided in at least one of the relay node 150, the home appliance device 200, and the user terminal (not shown).

For example, the RN movement management unit 330 periodically monitors the signal strength with the relay node 150, and when movement of the relay node 150 is confirmed, the first signal strength before movement and the second signal strength after movement are determined. Movement information generated based on comparisons and comparison results can be output through warning lights, alarm devices, display devices, etc. Here, the movement information may indicate the appropriateness of the movement direction.

For example, as a result of comparing the first signal intensity and the second signal intensity, if the second signal intensity shows a larger value, the RN movement management unit 330 outputs the light intensity of the warning light brighter or displays the warning light intensity, etc. The blinking speed can be controlled to output faster. As another example, when the second signal strength shows a larger value, the RN movement management unit 330 may control the sound output from the alarm device to be louder or the output interval of the sound to be output faster. You can.

As another example, when the second signal strength is below the first threshold, the RN movement management unit 330 sets the color of the warning light to red and outputs it, and when the second signal strength exceeds the first threshold, the second signal strength is set to red. If it is below the threshold, the color of the warning light can be set to yellow and output, and if the second signal strength exceeds the second threshold value, the color of the warning light can be set to green and output.

In this way, the RN movement management unit 330 provides information for the movement of the relay node 150, so that the user can use the above-described information to move the relay node 150 to a location with an optimal wireless communication environment. there is. In addition, the RN movement management unit 330 provides information reflecting the wireless communication environment between the relay node 150 and the home appliance 200 in real time, so that the relay node 150 is moved to a location with an optimal wireless communication environment. can be moved

Although, in the embodiment of the present disclosure, the RN movement management unit 330 controls the output of warning lights, alarm devices, etc. by reflecting the result of comparing the first signal strength before movement and the second signal strength after movement, or Although the example shows controlling the output of warning lights, alarm devices, etc. in consideration of the second signal strength, etc., the present disclosure is not limited to this and may be changed in various ways.

As another example, the RN movement management unit 330 may estimate the optimal location to which the relay node 150 will be moved. For example, the relay node 150 can communicate wirelessly with various devices, so it can collect the strength of wireless signals during wireless communication with other devices or check the device type or location of other devices. Accordingly, the relay node 150 can estimate the optimal location by considering the device type, location, wireless signal strength, etc. of other devices. Here, the optimal location includes a point where the signal strength between the access point 100 and the relay node 150 is maximum, a point where the signal strength between the relay node 150 and the home appliance 200 is maximum, etc. can do.

The RN movement management unit 330 may output the estimated optimal location through a warning light, an alarm device, a display device, etc. of the relay node 150. As an example, the RN movement management unit 330 may output information for movement to the estimated location through a warning light, an alarm device, a display device, etc. provided in the relay node 150. Specifically, the relay node 150 may include four warning lights each representing at least four orthogonal directions (e.g., up, down, left, right), and the relay node 150 may use the four warning lights. ) can activate (on) a warning light in the recommended direction of movement and output information for movement to the estimated location. As another example, the RN movement management unit 330 may output the estimated optimal location through a warning light, an alarm device, a display device, etc. of the home appliance device 200 operated in an auxiliary connection mode. As another example, the relay node 150 may be configured to generate coordinates for the estimated location, and to construct and provide a map displaying the above-described estimated location within the environment 10 of the home appliance. For example, the relay node 150 provides coordinates for the estimated location to the server device through the Internet network, the server device configures a map providing the environment 10 of the home appliance device, and the relay node 150 within the configured map )'s current location and the above-described estimated location can be provided through the user terminal.

Figure 4 is a diagram illustrating the structure of a data packet transmitted and received by an access point connection program according to an embodiment of the present invention.

In order for the relay node 150 to transmit the received data to the access point 100, it is necessary to indicate that the data is to be transmitted to the access point 100. In consideration of this, the home appliance device 200, when operating in the auxiliary connection mode, can be configured to include an indicator indicating data to be transmitted to the access point 100 through the relay node 150 when configuring a data packet. there is.

As an example, the second home appliance device 200 configures a data packet 400 by inserting an indicator 411 indicating data to be transmitted to the access point 100 through the relay node 150 in the header 410. Can be transmitted.

The RN data indicator 411 indicates whether the data included in the data payload 420 is data generally transmitted by a second wireless communication method (e.g., Bluetooth), or is data transmitted to the access point 100 through a relay node. An identifier indicating whether it is data may be included. For example, if the value contained in the RN data indicator 411 is set to '0', it indicates general transmission data by the second wireless communication method (e.g. BlueTooth), and if set to '1', it indicates relay It may indicate that this is data to be transmitted to the access point 100 through the node.

5A and 5B are flowcharts showing an access point connection method according to an embodiment of the present invention.

The access point connection method according to an embodiment of the present invention can be performed by the home appliance device described above with reference to FIGS. 2 and 3.

Referring to Figure 5a, the home appliance device 200 may search for the access point 100 and connect to the access point 100 (S501).

Afterwards, the home appliance device 200 may check the connection status with the access point 100. For example, the home appliance device 200 may check the strength of the wireless signal (hereinafter referred to as 'first signal strength') while connecting to the access point 100. Based on the first signal strength, the access point 100 ) can be determined (S502).

As an example, the home appliance device 200 may determine the connection to be stable when the strength of the wireless signal with the access point 100 is greater than or equal to a predetermined signal strength, and the strength of the wireless signal is less than the predetermined signal strength. If the state represents a value of , it can be determined as a connection instability state. And, when the home appliance device 200 is not connected to the access point 100, it may be determined to be in a non-connectable state. When it is confirmed that the connection is stable ('Yes' in S502), the home appliance device 200 can transmit and receive data with the access point 100 by the first wireless communication method.

On the other hand, when the connection is unavailable or the connection is unstable ('No' in S502), the home appliance device 200 establishes a wireless connection with the relay node 150 according to the protocol of the second wireless communication method (e.g., BlueTooth). It can be done. At this time, the relay node 150 may be connected to the home appliance device 200 by a second wireless communication method while connecting to the access point 100 by a first wireless communication method.

The home appliance device 200 may search for a home appliance device that can operate as a relay node through the second wireless communication method (S504) and request a connection to the discovered home appliance device 150. In response, the home appliance device 150 may determine whether to connect as a relay node and transmit a home appliance device 200 response (S505). As an example, when the home appliance device 150 operates as a relay node ('Yes' in S505), the home appliance device 150 switches the operating mode to the relay mode and sends information about the switched mode to the home appliance device 200. It can be provided as .

In response, the home appliance device 200 sets its operating mode to the auxiliary connection mode and can be connected to the access point 100 through the relay node 150 (S506). Thereafter, the home appliance device 200 may perform data transmission and reception through the relay node in auxiliary connection mode (S507).

On the other hand, even if the home appliance device 200 fails to connect to the relay node 150 or is connected to the relay node 150, the strength of the wireless signal by the second wireless communication method (hereinafter referred to as 'second signal strength') If is less than a predetermined threshold (hereinafter referred to as 'second threshold'), it may be determined that the connection with the relay node is not completed ('No' in S505).

If the connection with the relay node is not completed, the home appliance device 200 may generate and provide information for movement of the relay node (S508).

Meanwhile, the home appliance device 200 monitors the signal transmitted by the access point 100 by the first wireless communication method, and is controlled to be connected to the access point 100 by the first wireless communication method based on the monitored signal. can do.

Specifically, referring to Figure 5b, the home appliance device 200 can check whether a signal transmitted by the access point is detected through the first wireless communication unit 211 (S511). When a signal transmitted by the access point is detected ('Yes' in S511), the home appliance device 200 may check whether the strength of the signal exceeds a predetermined threshold.

If the signal transmitted by the access point exceeds the threshold ('Yes' in S512), the home appliance device 200 may perform an operation for connection to the access point. At this time, the access point may be the access point 100 connected to the relay node 150, or may be another access point. If the home appliance device 200 checks the identifier (e.g., SSID) of the access point, it can check whether the access point transmitting the signal is the access point 100 connected to the relay node 150 (S513) .

If the access point is the access point 100 connected to the relay node 150 ('Yes' in S513), the home appliance device 200 needs to connect to the access point 100 with the relay node 150. Security information (eg, password, etc.) may be requested and security information may be received from the relay node 150 (S514). Thereafter, the home appliance device 200 performs a connection with the access point 100 using the received security information (S515), and when the connection with the access point 100 is completed, the connection with the relay node 150 is terminated. (S517).

On the other hand, if the access point is not the access point 100 connected to the relay node 150 ('No' in S513), the home appliance device 200 may perform a connection with a new access point (S516) . When the home appliance device 200 completes the connection with the new access point, the home appliance device 200 may terminate the connection with the relay node 150 by proceeding to step S517.

Figure 6 is a block diagram illustrating the configuration of a relay node to which a method for connecting to an access point according to an embodiment of the present disclosure is applied.

Referring to Figure 6, the home appliance device 150 operating as a relay node includes a communication unit 151, a memory 152, a processor 153, and a home appliance driver ( 155), and may additionally be configured to further perform operations as a relay node. Therefore, the configuration and operation of the communication unit 151, the memory 152, the processor 153, and the home appliance driver 155 refer to the description of FIG. 2 described above, and hereinafter, the processor performing operations as a relay node ( 153)'s configuration and operation are explained.

The processor 153 may perform an operation of setting the operating mode of the home appliance device 150 to relay mode.

As a connection by the second wireless communication method is requested from the home appliance device 200, the processor 153 may check whether the connection is a relay node connection and whether it can operate as a relay node. For example, the processor 153 may check whether connection to the access point 100 is possible using the first wireless communication method. If operation as a relay node is possible, the processor 153 may set the operating mode to relay mode and transmit a response message to the home appliance device 200 including information indicating that the operation mode has been set to relay mode.

Thereafter, the processor 153 may operate as a relay node.

When a data packet is received from the home appliance device 200, the processor 153 can check whether the data packet is data transmitted to the access point by checking the header included in the data packet. For example, the processor 153 may check the RN data indicator 411 (see FIG. 4) included in the data packet to determine whether the data packet is data to be delivered to the access point. If the data packet is data delivered to the access point, the processor 153 may configure the data packet to confirm that it is data delivered by the relay node. As an example, the processor 153 may configure a data packet including an identifier (eg, SSID) of the access point and transmit it to the access point using a first wireless communication method. In addition, when a data packet is received from the access point through the first wireless communication method, the processor 153 may check whether the data is transmitted to the home appliance device 200. If the data is transmitted to the home appliance device 200, the processor 153 may transmit the data to the home appliance device 200 through a second wireless communication method.

Combinations of each block of the block diagram and each step of the flow diagram attached to the present invention may be performed by computer program instructions. Since these computer program instructions can be mounted on the encoding processor of a general-purpose computer, special-purpose computer, or other programmable data processing equipment, the instructions performed through the encoding processor of the computer or other programmable data processing equipment are included in each block or block of the block diagram. Each step of the flowchart creates a means to perform the functions described. These computer program instructions may also be stored in computer-usable or computer-readable memory that can be directed to a computer or other programmable data processing equipment to implement a function in a particular way, so that the computer-usable or computer-readable memory The instructions stored in can also produce manufactured items containing instruction means that perform the functions described in each block of the block diagram or each step of the flow diagram. Computer program instructions can also be mounted on a computer or other programmable data processing equipment, so that a series of operational steps are performed on the computer or other programmable data processing equipment to create a process that is executed by the computer, thereby generating a process that is executed by the computer or other programmable data processing equipment. Instructions that perform processing equipment may also provide steps for executing functions described in each block of the block diagram and each step of the flow diagram.

Additionally, each block or each step may represent a module, segment, or portion of code that includes one or more executable instructions for executing specified logical function(s). Additionally, it should be noted that in some alternative embodiments it is possible for the functions mentioned in the blocks or steps to occur out of order. For example, two blocks or steps shown in succession may in fact be performed substantially simultaneously, or the blocks or steps may sometimes be performed in reverse order depending on the corresponding function.

The above description is merely an illustrative explanation of the technical idea of the present invention, and those skilled in the art will be able to make various modifications and variations without departing from the essential quality of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention shall be interpreted in accordance with the claims below, and all technical ideas within the scope equivalent thereto shall be construed as being included in the scope of rights of the present invention.

100: Access point
150: relay node
200: Home appliances
300: Home appliance control program

Claims (10)

Searching for an access point using a first communication method;
If the result of the search does not meet preset connection conditions, searching for a relay node to connect to the access point using a second communication method; and
Comprising the step of connecting to the access point using the discovered relay node.
How to connect to the access point of your home appliance device. According to paragraph 1,
The first communication method corresponds to a communication method for accessing the Internet through the access point,
The second communication method corresponds to a communication method for short-distance communication between the home appliance device and the relay node.
How to connect to the access point of your home appliance device. According to paragraph 1,
When the signal strength connected to the relay node is less than a predetermined threshold, generating information related to the movement of the discovered relay node, further comprising:
How to connect to the access point of your home appliance device. According to paragraph 3,
Measuring the strength of a first signal connected to the relay node;
When the relay node is moved, measuring a second signal strength after the relay node moves; and
Based on a result of comparing the first signal strength and the second signal strength, further comprising outputting information for guiding the movement of the relay node,
How to connect to the access point of your home appliance device. According to paragraph 3,
estimating the location of the relay node having the highest signal strength; and
Further comprising transmitting information for movement of the relay node to the estimated location to the user terminal,
How to connect to the access point of your home appliance device. According to paragraph 1,
Further comprising generating data to be transmitted to another device through the access point using a protocol according to the second communication method,
The data is converted into a protocol according to the first communication method by the relay node and delivered to the access point,
How to connect to the access point of your home appliance device. According to clause 6,
Further comprising transmitting an indicator indicating that the home appliance device is connected to the access point through the relay node, along with the data, to the relay node.
How to connect to the access point of your home appliance device. According to paragraph 1,
Monitoring signal strength with the access point using the first communication method;
When the signal strength is greater than a preset reference strength, requesting information for accessing the access point from the relay node; and
Based on the response to the request, connecting to the access point using the first communication method
How to connect to the access point of your home appliance device. According to paragraph 1,
The relay node is another home appliance device located in the same space as the home appliance device,
How to connect to the access point of your home appliance device. A communication unit that performs communication based on a first communication method and a second communication method,
Including a processor that controls the communication unit,
The processor controls the communication unit,
Search for the access point using the first communication method,
If the result of the search does not meet the preset connection conditions, searching for a relay node to connect to the access point using the second communication method,
Connecting to the access point using the discovered relay node,
Home appliance devices.

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