KR20210044007A - Apparatus control management system and control method thereof - Google Patents

Abstract

The present invention relates to a control method for a terminal control management system. According to the present invention, the control method for a terminal control management system includes: a step wherein a gateway counts the number of internal terminals existing on an internal communication network, and transmits the count value to a control server; a step wherein the control server generates and stores an index-based management object (MO) based on the count value received from the gateway; a step wherein if there is a request from a manager terminal, the control server transmits a control request signal including an index number to the gateway by referring to the index-based MO; and a step wherein the gateway delivers the control request signal to at least one of the internal terminals by referring to the index number included in the control request signal received from the control server. Therefore, the present invention is capable of enabling a user to immediately use an internal terminal without modifying its firmware.

Description

Terminal control management system and its control method {APPARATUS CONTROL MANAGEMENT SYSTEM AND CONTROL METHOD THEREOF}

The present invention relates to a control method of a terminal control management system, and more particularly, to a control method of a terminal control management system that controls and manages terminals existing in a predetermined internal network such as a home.

Recently, IoT devices, that is, Internet of Things (IoT) devices, are widely released and used, and these IoT devices transmit their status information to a predetermined external server or perform a specific function according to the control of the external server.

For example, an IoT device performing a thermometer function may transmit the currently measured temperature to an external server, or an IoT device performing a switch function may perform a switch on or off function according to the control of the external server.

In particular, since the IoT device has a low power structure that minimizes power consumption, it cannot directly communicate with an external server, but is configured to communicate with a kind of gateway provided in a home or the like.

That is, the control signal of the external server is transmitted by converting a signal for communication with the IoT device at the gateway, and the information generated by the IoT device is transmitted to the external server after a conversion process at the gateway.

However, the types and functions of these IoT devices are not predetermined, but new devices or functions may be developed or improved along with technological advances.In this case, in this case, they are included in the above-described external servers and gateways for controlling new IoT devices. The old firmware had to be modified.

That is, in the past, the effective communication method between the external server and the gateway has not been reviewed due to the reason that various IoT devices have not been released, and individual control commands for each IoT device must be registered in the external server and gateway. Because control is made, there is a problem in efficient response to the rapid increase in IoT devices.

For example, there may be a problem that a user who has purchased an IoT device cannot use the IoT device until the time of upgrading the firmware included in the external server and the gateway.

Publication Patent No. 10-2019-0059419

The present invention has been conceived to solve the above-described conventional problem, and its purpose is a terminal that allows a user who has purchased the IoT device to use it immediately when a new IoT device is developed/released or a function of the IoT device is newly added. It is to provide a control management system and a control method thereof.

In order to achieve the above object, the terminal control management system according to the present invention counts the number of internal terminals existing on the internal communication network, transmits the count value to the control server, and receives a control request from the control server. A gateway for transmitting a control request signal to at least one internal terminal by referring to an index number included in the signal; Creates and stores an index-based MO (Management Object) based on the count value received from the gateway, and transmits a control request signal including an index number to the gateway with reference to the index-based MO when there is a request from the manager terminal. It is configured to include a control server.

In addition, in order to achieve the above object, the control method of the terminal control management system according to the present invention includes the steps of a gateway counting the number of internal terminals existing on an internal communication network and transmitting the count value to a control server; ; Generating and storing, by the control server, an index-based management object (MO) based on a count value received from the gateway; Transmitting, by the control server, a control request signal including an index number to the gateway with reference to the index-based MO when there is a request from the manager terminal; And transmitting, by the gateway, a control request signal to at least one internal terminal by referring to an index number included in a control request signal received from the control server.

As described above, according to the present invention, the control server and the gateway perform mutual communication based on the index-based MO, so that, for example, a new Non-IP device, that is, an internal terminal, is newly released, or the function of an existing internal terminal is Even if it is added, since it is not necessary to modify the firmware of the control server and the gateway, there is an effect that the user who purchased the device can use it immediately.

1 is a schematic configuration diagram of an entire system including a terminal control management system according to an embodiment of the present invention,
2 and 3 are diagrams showing an example of structures of an index-based MO generated and managed by a control server,
4 is a control flowchart of a terminal control management system according to an embodiment of the present invention.

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

Hereinafter, each embodiment according to the present invention is merely an example for aiding understanding of the present invention, and the present invention is not limited to this embodiment. In particular, the present invention may be configured with a combination of at least one or more of individual configurations, individual functions, or individual steps included in each embodiment.

Particularly, for convenience, some claims in the claims include alphabets such as'(a)', but these alphabets do not prescribe the order of each step.

In addition, each signal referred to in each embodiment according to the present invention may mean one signal transmitted by one connection or the like, but may also mean a series of signal groups transmitted for the purpose of performing a specific function to be described later. . That is, in each embodiment, a plurality of signals transmitted at a predetermined time interval or transmitted after receiving a response signal from a counterpart device may be expressed as one signal name for convenience.

A schematic configuration of an entire system including a terminal control management system according to an embodiment of the present invention is as shown in FIG. 1.

As shown in the figure, the entire system may include a control server 100, a gateway 200, at least one internal terminal 300, and a manager terminal.

Here, the control server 100 and the gateway 200 correspond to core components constituting the terminal control management system according to the present invention.

First, the internal terminal 300 is configured in a predetermined network and performs a specific function according to external control or transmits its own state information to the outside. In this embodiment, the Internet of Things (IoT) provided in the home Take as an example.

In FIG. 1, an IoT thermometer 301 and an IoT switch outlet 302 are illustrated as the internal terminal 300, but the type of the internal terminal 300 is not limited thereto.

The gateway 200 communicates with each of the above-described internal terminals 300 to collect necessary information and transmits it to the control server 100, and transmits a control signal received from the control server 100 to the corresponding internal terminal 300. It also performs the function of delivering.

When the internal terminal 300 is a non-IP device 300 that cannot directly communicate with the outside (ie, the control server 100), the control signal of the control server 100 can be received by the function of the gateway 200. In addition, it is possible to transmit its own state information to the control server 100.

As shown in FIG. 1, the gateway 200 and the internal terminal 300 can communicate with each other through short-range wireless communication such as Bluetooth and ZigBee. However, the communication method between the gateway 200 and the internal terminal 300 is limited. No, in particular, communication via wired communication network is also possible.

In particular, the gateway 200 counts the number of internal terminals 300 existing on the internal communication network and transmits the count value to the control server 100.

For example, the gateway 200 accumulates and counts the number of internal terminals 300 each time a new internal terminal 300 (i.e., IoT device) is installed and interlocked in the premises, and the count value is calculated by the control server 100 It can be transferred to.

The count of the number of such internal terminals 300 may be performed according to the request of the control server 100 or may be performed periodically.

In addition, the gateway 200 may collect device information and/or serial numbers of the internal terminals 300 and transmit them to the control server 100. It is a known technique for the gateway 200 to provide device information and/or serial numbers of the internal terminals 300 according to the request of the control server 100, and thus a more detailed description thereof will be omitted.

In addition, the gateway 200 transmits a control request signal to at least one internal terminal 300 by referring to an index number included in the control request signal received from the control server 100.

To this end, the gateway 200 may generate mapping data according to a preset algorithm. Here, the mapping data may be data obtained by mapping index numbers assigned in a predetermined order and each of the internal terminals 300 to each other.

For example, the gateway 200 checks the serial numbers of the internal terminals 300 provided in the home, assigns index numbers in the order of the serial numbers, and matches the assigned index number with the node number of the internal terminal 300. One can create mapping data.

As another example, when the order of the internal terminal 300 is determined according to the order defined in the communication protocol for communication with the internal terminal 300, the gateway 200 assigns and maps an index number according to the communication protocol. You can also create data.

In addition, when the control request signal received from the control server 100 is received, the gateway 200 transmits the generated mapping data to at least one internal terminal 300 corresponding to the index number included in the control request signal. After selecting with reference, a control request signal may be transmitted to the selected internal terminal 300.

The gateway 200 also performs a function of transmitting the response result received from the internal terminal 300 to the control server 100, where the gateway 200 includes the response result in a response signal including a predetermined index number. And transmits it to the control server 100.

Meanwhile, the manager terminal communicates with the control server 100 to check information registered in the control server 100, and transmits a predetermined command to the control server 100 according to an operation of the manager.

That is, after accessing the control server 100 using the manager terminal, the user of the manager terminal can check the information on the internal terminal 300 provided in the premises as well as control the operation of the specific internal terminal 300. It can be done.

To this end, the manager terminal may perform a function of mapping and displaying the index-based MO corresponding to each internal terminal 300 generated by the control server 100 with previously stored information. Will be described later.

The control server 100 performs a function of generating and storing an index-based management object (MO) based on the count value received from the gateway 200.

For example, the control server 100 transmits a request signal corresponding to the count value received from the gateway 200 to the gateway 200 to receive the device information and/or serial number of each internal terminal 300 to be index-based. MO can be created.

Here, the index-based MO refers to a management object corresponding to each internal terminal 300 configured in a form including a predetermined index number, and may be configured as shown in FIG. 3, for example.

For reference, FIG. 2 is an MO defined to determine the number of internal terminals 300, and the control server 100 communicates with the gateway 200 to prepare for interworking, and then uses the MO of FIG. A count value for 300 may be requested and received.

In particular, the control server 100 also performs a function of transmitting a control request signal including an index number to the gateway 200 by referring to the index-based MO when there is a request from the manager terminal.

That is, the gateway 200 does not manage data including a special individual name of each internal terminal 300 for management of the internal terminal 300 provided in the premises, but creates an MO based on a standardized index number. Even when the control signal is transmitted to the specific internal terminal 300, the control request signal including the specific index number is transmitted with reference to the index-based MO.

Of course, the control request signal of the control server 100 is not transmitted directly to the internal terminal 300 but is transmitted through the gateway 200 as described above.

In addition, when the index-based management object (MO) is generated, the control server 100 may generate and store an index-based control command flag together. The generation of the index-based control command flag of the control server 100 is performed according to a preset algorithm. Can be done.

In particular, the index-based control command flag may be generated based on the communication protocol between the gateway 200 and the internal terminal 300, for example, communication between the gateway 200 and the internal terminal 300 as described above. When the gateway 200 obtains information on commands provided in the internal terminal 300 in a specific order according to the protocol, the control server 100 also sends the information to each internal terminal 300 according to the order defined in the corresponding communication protocol. Index numbers can be assigned to included control commands.

As described above, when a predetermined control request signal is transmitted to the gateway 200, the index-based control command flag may be included in the control request signal and transmitted.

That is, the control server 100 does not manage only the internal terminals 300 provided in the premises based on the index, but also manages each command that can be used in each internal terminal 300 based on the index, and when necessary The control request signal including the index number is transmitted to the internal terminal 300.

Therefore, the control server 100 does not need to manage information on what function is actually implemented in the internal terminal 300, and transmits a control request signal including an index number according to the request of the manager terminal to the gateway 200. All you have to do is send it to.

Meanwhile, the control request signal transmitted from the control server 100 to the gateway 200 may include raw data for controlling the internal terminal 300, where the raw data is data that can be directly recognized by the internal terminal 300. Means.

That is, the gateway 200 may extract raw data for controlling the internal terminal 300 from the control request signal received from the control server 100 and include it in the control request signal transmitted to the internal terminal 300 as it is. In this case, the internal terminal 300 may recognize the raw data and perform a necessary function.

Conventionally, not only the index-based MO was not managed as in the present invention, but also the control command corresponding to the function included in each internal terminal 300 is transmitted to the internal terminal 300 through a conversion process to the gateway 200. However, as in the present embodiment, as the control server 100 transmits a control command for raw data that can be directly interpreted/recognized by the internal terminal 300, the gateway 200 extracts the raw data and ), the gateway 200 does not need to have separate information for converting control commands as in the prior art, and thus, faster processing is possible.

Hereinafter, the overall control flow of the terminal control management system according to an embodiment of the present invention will be described with reference to FIG. 4.

In describing the present embodiment, it is assumed that the internal terminal 300 is a Non-IP device 300 as an example.

First, the gateway 200 counts the number of interlocked Non-IP devices 300 (step S3) when communication is interlocked with the non-IP device 300 provided in the home (step S1), and index The number and the non-IP device 300 (eg, the node ID of the device) are matched and stored (step S5).

Thereafter, when communication is interlocked with the control server 100 (step S7), the gateway 200 extracts a previously stored count value (step S9) and provides it to the control server 100 (step S11).

As described above, such a count value may be provided at the request of the control server 100 using the MO for determining the number of FIG. 2.

The control server 100 generates an index-based MO for each Non-IP device 300 provided in the home based on the count value received from the gateway 200 (step S13).

The shape of the index-based MO is as shown in FIG. 4.

In Figure 4, the first row is the service identification number of the IoT device, the second row is the serial number of the IoT device, the third row is the type of the IoT device (eg, battery type, constant power type, etc.), and the fourth row is the IoT device. The firmware (software) version of, the fifth line is the command flag for performing the function of the IoT device, and the sixth line is the command value for performing the function of the IoT device.

For example, as shown in FIG. 1, when the IoT thermometer 301 and the IoT switch 302 exist in the home, the control server 100 may generate the following MO in relation to the IoT thermometer 301 have.

In this case, it is assumed that the number of control commands is two.

Device_X_LGU_Zwave_Device.1.ManufactureSpecific

Device_X_LGU_Zwave_Device.1.SerialNumber

Device_X_LGU_Zwave_Device.1.RoleType

Device_X_LGU_Zwave_Device.1.Version

Device_X_LGU_Zwave_Device.1.Command.1.Name

Device_X_LGU_Zwave_Device.1.Command.1.Value

Device_X_LGU_Zwave_Device.1.Command.2.Name

Device_X_LGU_Zwave_Device.1.Command.2.Value

In addition, the following MO may be generated in relation to the IoT switch 302. At this time, it is assumed that the number of control commands executed by the IoT switch 302 is one.

Device_X_LGU_Zwave_Device.2.ManufactureSpecific

Device_X_LGU_Zwave_Device.2.SerialNumber

Device_X_LGU_Zwave_Device.2.RoleType

Device_X_LGU_Zwave_Device.2.Version

Device_X_LGU_Zwave_Device.2.Command.1.Name

Device_X_LGU_Zwave_Device.2.Command.1.Value

Subsequently, the control server 100 may transmit an indexed MO-based control request signal to the gateway 200 according to a request from the manager terminal or the like (step S15).

For example, a control signal including the following information for requesting modern temperature from the IoT thermometer 301 may be transmitted to the gateway 200.

Device_X_LGU_Zwave_Device.1.Command.1.get

Accordingly, the gateway 200 checks the Non-IP device 300 corresponding to the indexed MO (that is, index number 1) received from the control server 100 (step S17), and then the confirmed Non-IP device 300 ), a control signal is transmitted (step S19).

Thereafter, when a response signal (i.e., a current temperature, a signal including -for example, 25 degrees-) is received from the Non-IP device 300 (step S21), the gateway 200 transmits the following indexed MO-based response signal. It is transmitted to the control server 100 (step S23).

Device_X_LGU_Zwave_Device.1.Command.1.25

In this way, the control server 100 and the gateway 200 communicate with each other based on the index-based MO, so that, for example, a new Non-IP device 300, that is, an internal terminal 300 is newly released or an existing internal Even if the function of the terminal 300 is added, the firmware of the control server 100 and the gateway 200 does not need to be modified.

That is, it communicates with the control server 100 to display necessary information and also checks the status of the internal terminal 300 or performs control only by adding or changing the function of the manager terminal that transmits the manager's request to the control server 100 You can do it.

Meanwhile, it goes without saying that the process of performing each of the above-described embodiments may be performed by a program or application stored in a predetermined recording medium (eg, computer-readable). Here, the recording medium includes all of an electronic recording medium such as a random access memory (RAM), a magnetic recording medium such as a hard disk, and an optical recording medium such as a compact disk (CD).

In this case, the program stored in the recording medium may be executed on hardware such as a computer or a smartphone to perform each of the above-described embodiments. In particular, at least one of the functions of the system according to the present invention described above may be implemented by such a program or application.

In addition, the present invention is not limited to the specific embodiments described above, but can be implemented by various modifications and modifications without departing from the gist of the present invention. It will be apparent that such modifications and modifications are included in the present invention if they fall within the appended claims.

100: control server 200: gateway
300: internal terminal

Claims (14)

(a) the gateway counts the number of internal terminals existing on the internal communication network and transmits the count value to the control server;
(b) the control server generating and storing an index-based management object (MO) based on a count value received from the gateway;
(c) when there is a request from an administrator terminal, transmitting, by the control server, a control request signal including an index number to the gateway with reference to the index-based MO;
(d) transmitting, by the gateway, a control request signal to at least one internal terminal by referring to an index number included in a control request signal received from the control server. Way. The method of claim 1,
(e) the gateway including the response result received from the internal terminal in a response signal including an index number and transmitting it to the control server. The method of claim 1,
In the step (b), the control server generates and stores an index-based control command flag together when the index-based management object (MO) is generated,
In the step (c), the control server transmits a control request signal including the index-based control command flag to the gateway. The method of claim 3,
The generation of the index-based control command flag is performed by referring to a communication protocol between the gateway and the internal terminal. The method of claim 1,
In the step (a), the gateway generates and stores mapping data in which an index number and each internal terminal are mapped based on the count value according to a preset algorithm,
In step (d), the gateway selects at least one internal terminal corresponding to the index number included in the control request signal received from the control server by referring to the mapping data generated in step (a), and then requests control. A control method of a terminal control management system, characterized in that transmitting a signal. The method of claim 1,
In the step (c), the control request signal transmitted from the control server to the gateway includes raw data for controlling the internal terminal,
In the step (d), the gateway extracts raw data for controlling the internal terminal from the control request signal received from the control server, and then includes it in the control request signal transmitted to the internal terminal as it is. How to control the management system. A computer-readable recording medium storing a program for executing the method of any one of claims 1 to 6. An application program stored in a computer-readable recording medium to execute the method of any one of claims 1 to 6 in combination with hardware. Counts the number of internal terminals existing on the internal communication network, transmits the count value to the control server, and controls at least one internal terminal by referring to the index number included in the control request signal received from the control server. A gateway for transmitting a request signal;
Creates and stores an index-based MO (Management Object) based on the count value received from the gateway, and transmits a control request signal including an index number to the gateway when there is a request from the manager terminal Terminal control management system comprising a control server. The method of claim 9,
And the gateway includes a response result received from the internal terminal in a response signal including an index number and transmits it to the control server. The method of claim 9,
The control server generates and stores an index-based control command flag when generating the index-based management object (MO), and transmits a control request signal including the index-based control command flag to the gateway. Management system. The method of claim 11,
The generation of the index-based control command flag by the control server is performed based on a communication protocol between the gateway and the internal terminal. The method of claim 9,
The gateway generates and stores mapping data to which an index number and each internal terminal are mapped based on the count value according to a preset algorithm, and includes the generated mapping data in a control request signal received from the control server. A terminal control management system, comprising transmitting a control request signal after selecting at least one internal terminal corresponding to the determined index number. The method of claim 9,
The control request signal transmitted from the control server to the gateway includes raw data for controlling the internal terminal,
And the gateway extracts raw data for controlling the internal terminal from the control request signal received from the control server, and then includes it as it is in a control request signal transmitted to the internal terminal.

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