KR102288432B1 - System for Providing of Opening Platform Using Service Module - Google Patents

Abstract

The present invention relates to an open platform providing system using a service module, and device agreement information for device agreement to be followed when a device is created by a plurality of manufacturers forming a device market, and a plurality of devices created by complying with the device agreement A device library that stores device installation information for a service module, service module agreement information for service module agreement to be followed when creating service modules in a plurality of development devices forming a service module market, and a plurality of service modules created by complying with the service module agreement A service module library that stores service module installation information for each device, selects an operating device and a service module to be applied to at least one site from among a plurality of devices, performs design, and provides device installation information for the operating device and service module It includes a local platform server that receives service module installation information and a service module operating device that operates the operating device using the service module when the application of the operating device to the field is completed according to the design, and can be applied to other embodiments.

Description

System for Providing of Opening Platform Using Service Module

The present invention relates to an open platform providing system using a service module.

In general, due to the generalization of central control systems, devices such as air conditioners, heaters, boilers, air purifiers, and lighting installed in buildings are centrally controlled. However, since this central control system was composed of an exclusive and closed platform, it was impossible for anyone other than the manufacturer to access the system. For example, in order to control devices installed in a building in the conventional central control system, only devices produced by manufacturers that can be controlled by the central control system must be installed in the building, so that the selection of the device to be installed is not free. In addition, there is a problem in that a separate central control system needs to be established in order to control devices having different manufacturers from those of the existing installed devices with the central control system, and thus there is a problem in that a lot of cost is consumed. Recently, although some manufacturers are trying to solve the above problems by providing protocols, they are based on their own closed platform, so they cannot present a fundamental solution.

Korean Patent No. 10-1081990 (Registration Date 2011.11.03.)

Embodiments of the present invention for solving these conventional problems is a service module capable of operating a device by selectively installing a standardized service module for operating a plurality of devices with different manufacturers and types produced according to a standardized protocol. To provide an open platform providing system using

In addition, embodiments of the present invention enable a plurality of development devices to generate and disclose a standardized service module based on a standardized protocol, and enable a plurality of users to selectively install the service module as needed to activate the service module market. It is to provide an open platform providing system using a service module that can be used.

The system for providing an open platform using a service module according to an embodiment of the present invention includes device agreement information on device agreements to be followed when a device is created by a plurality of manufacturers forming a device market, and a plurality of devices generated by complying with the device agreements. Device library that stores device installation information for each device, service module agreement information for service module agreement to be followed when service module is created in a plurality of development apparatuses forming a service module market, and service module agreement information generated by complying with the service module agreement A service module library for storing service module installation information for each of a plurality of service modules, an operation device and a service module to be applied to at least one field from among the plurality of devices are selected to perform design, and device installation for the operation device A local platform server for receiving information and service module installation information for the service module, and a service module operating device for operating the operating device using the service module when the application of the operating device to the site is completed according to the design. characterized by including.

In addition, the service module, characterized in that it comprises a service module for controlling the operation of the operation device and a service module for monitoring the operation of the operation device.

In addition, the service module library, characterized in that it further includes device installation information for at least one device that can be controlled by the service module for controlling the operation of the operating device.

In addition, the device library is characterized in that the authentication of the device is performed based on whether the device generated by the plurality of manufacturers complies with the device protocol.

In addition, the service module library is characterized in that the authentication of the service module is performed based on whether the service module generated by the plurality of development devices complies with the service module rule.

In addition, it further includes a DB server, wherein the DB server is characterized in that it receives design information including device installation information for the operating device and service module installation information for the service module from the local platform server.

In addition, the service module operating device is characterized in that it receives the design information from the DB server to support the installation and operation of the service module.

In addition, it further includes a data collection device, the data collection device, it characterized in that the check information on the operation of the operating device to transmit to the DB server.

In addition, the service module operating apparatus, by executing the installed service module, and analyzing the information on the operation of the operating device is characterized in that to generate the control signal or the result of the monitoring.

In addition, the data collection apparatus, the control signal generated by the service module operation apparatus is characterized in that it receives from the DB server and transmits to the operation device.

In addition, in the service module for controlling the operation of the operating device, it is characterized in that the priority is set between the firmware embedded in each of the plurality of devices and the service module for controlling the operation of the operating device.

As described above, the system for providing an open platform using a service module according to the present invention is installed by selectively installing a standardized service module for operating a plurality of devices with different manufacturers and types produced according to a standardized protocol and operating the device. You can expand the selection of devices you want, and anyone can easily control a plurality of devices of different manufacturers and types by using the service module without specialized knowledge on the service module. Since it is not necessary to build a control system for each device, there is an effect of reducing costs.

In addition, the system for providing an open platform using a service module according to the present invention creates and publishes a standardized service module based on a standardized protocol, and allows a plurality of users to selectively install the service module as needed, thereby expanding the service module market. It can be activated, and there is an effect that can provide a more open environment in the conventional closed environment for the operation of a plurality of devices.

1 is a view showing a platform providing system according to an embodiment of the present invention.
2 is a diagram showing the configuration of a local platform server according to an embodiment of the present invention.
3 is a diagram illustrating a configuration for explaining a method of operating an operating device using a service module in a service module operating apparatus according to an embodiment of the present invention.
4 is a flowchart illustrating a method of operating a device using a service module in a platform providing system according to an embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION The detailed description set forth below in conjunction with the appended drawings is intended to describe exemplary embodiments of the present invention and is not intended to represent the only embodiments in which the present invention may be practiced. In order to clearly explain the present invention in the drawings, parts irrelevant to the description may be omitted, and the same reference numerals may be used for the same or similar components throughout the specification.

In an embodiment of the present invention, expressions such as “or” and “at least one” may indicate one of the words listed together, or a combination of two or more. For example, “A or B” or “at least one of A and B” may include only one of A or B, or both A and B.

1 is a view showing a platform providing system according to an embodiment of the present invention.

Referring to FIG. 1 , a platform providing system 10 for device operation according to the present invention includes a plurality of development devices 110 , a service module library 120 , SM_LIB , a plurality of manufacturers 130 , a device library 140 , DEV_LIB), the local platform server 200, the service module operating device 400, the DB server 300, the data collection device 500 and the HMI 600, and the service module operating device 400 includes the first service It includes a module 451 and a second service module 452 , and the data collection apparatus 500 may be connected to the first device 511 , the second device 512 , and the third device 513 .

The plurality of development devices 110 is a device used by a developer who develops a service module, which is a program that can be applied to the field, that is, a program capable of operating an installed device, and may be a device such as a computer or a tablet PC (personal computer). In principle, the plurality of development devices 110 develop service modules by observing the rules for service modules when developing service modules. In addition, the plurality of development apparatus 100 can develop a service module that controls the operation of the device with the operating authority for the device produced by the plurality of manufacturers 130 as long as the agreement for the service module is complied with. A service module that can provide monitoring functions such as noise monitoring between floors and power demand management can be developed based on the operation information obtained from the devices installed in the The plurality of development devices 110 transmits service module information for a service module that has been developed to the service module library 120 . In this way, since the service module market SM_market can be formed by the plurality of development devices 110, it is possible to provide an open environment in which more various types of service modules can be developed by breaking away from the conventional closed environment. It works.

The service module library 120 stores the service module agreement information 121 and the service module information 122 . The service module agreement information 121 means information on service module agreements that must be observed when a service module is created in the plurality of development devices 110 forming the service module market. The service module information 122 includes service module installation information 122a for each of the service modules developed in the plurality of development devices 110 . The service module installation information 122a is information including an installation file of the service module and the specification of the service module required when the service module is installed in the service module operating device 400 . The service module information 122 may additionally include device installation information 142 . In this case, when the service module is a service module capable of controlling the operation of the device, the device installation information 142 may be installation information related to a device controllable by the service module. Conversely, when the service module is a service module providing a monitoring function, the service module information 122 preferably does not include the device installation information 142 .

In addition, when the service module information 122 is received from the development device 110 , the service module library 120 checks whether the service module complies with the protocol for the service module. The service module library 120 may store the service module information 122 on the service module in the service module library 120 by completing the authentication of the service module when the service module complies with the protocol.

The plurality of manufacturers 130 means a producer who produces a device to be applied to the field, and is a device such as a computer, a tablet PC (personal computer), etc. that the producer can input the device installation information 142 for the produced device. can In principle, the plurality of manufacturers 130 produce devices by observing the rules for devices during device production. To this end, the device library 140 stores the device agreement information 141 for the device agreement. In this way, as long as the device manufacturer complies with the rules during device production, the service module operating apparatus 400 may control the operation of the operating device installed in the field using the service module installed in the field. Accordingly, the present invention has the effect of forming and providing a more open device market (DEV_market) capable of producing various types of devices.

The device library 140 stores device installation information 142 for each device produced by a plurality of manufacturers 130 . The device installation information 142 means information including the type, name, unique number, and specification of the device. In addition, when receiving the device installation information 142 from the manufacturer 130 , the device library 140 checks whether a device produced based on the device agreement information 141 complies with the device agreement according to the type of device.

The device library 140 may store device installation information 142 for the device in the device library 140 by completing device authentication when the device complies with the protocol. In addition, the device library 140 may transmit the device installation information 142 to the service module library 120 at the request of the service module library 120 .

The local platform server 200 is a device used by a designer to design an operating device and a service module to be installed in at least one field, and may be a device such as a computer or a tablet PC (personal computer). When the design of the operating device and the service module to be installed in at least one site is completed, the local platform server 200 stores device installation information for the operating device and service module installation information for the service module according to the design completion, respectively, to the device library. It can be obtained from 140 and the service module library 120 .

The local platform server 200 may additionally acquire service module information including device installation information for the operating device in addition to the service module installation information for the service module according to the design completion. In this case, the additionally acquired service module information may include service module installation information. The local platform server 200 transmits the design information including the device installation information and the service module installation information for the obtained operating device to the DB server 300 . In this regard, a detailed description of the local platform server 200 will be described with reference to FIG. 2 below.

The DB server 300 receives and stores design information on devices and service modules for at least one site from the local platform server 200 . At this time, the design information includes device installation information for a device designed to be installed in the field, service module installation information for a service module designed to be installed in the field, and service module installation information related to device installation information for a device designed to be installed in the field. can do.

The DB server 300 communicates with the data collection device 500 to perform communication with the first device 511 to the third device 513, which is an operating device connected to the data collection device 500 from the data collection device 500. Receive and store device installation information. The DB server 300 transmits service module installation information to the service module operating device 400 by communicating with the service module operating device 400 . In this case, the DB server 300 may transmit the service module installation information for the service module included in the stored design information to the service module operating device 400 .

The DB server 300 receives information about the operation status, that is, the operation of the first device 511 to the third device 513 connected to the data collection apparatus 500 through communication with the data collection apparatus 500, This is transmitted to the service module operating device (400). Also, the DB server 300 receives a control signal for controlling the operation of the device from the service module operating device 400 and transmits it to the data collection device 500 .

The service module operating device 400 is a device for receiving, installing and executing service module installation information for the service module from the DB server 300, and may be a device such as a computer, a tablet PC (personal computer), or a smart phone. . The service module operating device 400 generates a control signal for operation and management of the operating device based on the information on the operation of the operating device received from the DB server 300 and transmits it to the DB server 300, or By monitoring the information about the operation, the monitoring result can be displayed.

To this end, the service module operating apparatus 400 receives design information from the DB server 300 when the installation of the first device 511 to the third device 513 is completed at a specific site according to the design of the local platform server 200 . You can receive service module installation information for the service module included in the . The service module operating device 400 installs the service module based on the service module installation information received from the DB server 300 and executes the installed service module.

The service module operating device 400 receives, through the DB server 300 , information on the operation of the operating device obtained from the data collection device 500 after the service module is executed. The service module operating device 400 generates a control signal for controlling the operating device using the service module, and transmits the generated control signal to the operating device connected to the data collection device 500 through the DB server 300 for operation You can control the operation of the device. In addition, the service module operating device 400 receives, through the DB server 300 , information on the operation of the operating device obtained from the data collection device 500 after the service module is executed. The service module operating apparatus 400 may display a monitoring result generated by monitoring information on the operation of the operating device using the service module.

In addition, the administrator of the service module operating apparatus 400 may change the manufacturer of the device designed and installed by the local platform server 200 or add a separate device. In this way, when a variable device occurs, the data collection apparatus 500 checks the installation information for the variable device and transmits it to the DB server 300, and the DB server 300 changes based on the installation information for the variable device. Service module installation information related to the device may be transmitted to the service module operating apparatus 400 . In this case, when the service module operating apparatus 400 can control the variable device using the already installed service module, the service module operating apparatus 400 may operate and manage the variable device using the installed service module.

Conversely, when it is impossible to control a variable device using an already installed service module, the service module operating apparatus 400 receives service module installation information for a service module capable of controlling the variable device from the DB server 300 . The service module operating apparatus 400 may install and execute a service module capable of controlling a variable device using the received service module installation information. In this regard, a detailed description of the service module operating device 400 will be described with reference to FIG. 3 below. In addition, in the exemplary embodiment of the present invention, one service module operating device 400 is described as an example, but the present invention is not limited thereto, and the service module operating device 400 includes a plurality of services managed by the local platform server 200 . Available at each site.

The data collection device 500 is connected to the operating device installed in the field according to the design of the local platform server 200 and checks the operating state of the operating device. It may be a device. In addition, the operating device may refer to devices such as sensors, measuring equipment, electronic products, and home appliances.

The first device 511 to the third device 513 installed in the field and connected to the data collection device 500 are operating devices produced by a plurality of manufacturers 130 in compliance with the regulations, and are operated in the device library 140 . Device installation information related to the device may be stored. When the connection of the operating device is confirmed, the data collection apparatus 500 confirms that the installation of the device on the site is completed according to the design of the local platform server 200, and confirms the device installation information stored in the operating device to the DB server 300 send to The data collection apparatus 500 transmits information about the operation to the DB server 300 by checking the operation state of the operation device, that is, the operation in real time or periodically. In addition, the data collection apparatus 500 may control to change the operation state of the operation device based on the control signal generated by the service module operation apparatus 400 through the DB server 300 .

The HMI 600 is a device for monitoring the state of an operating device installed in the field, and may be a device such as a computer, a tablet PC (personal computer), or a smart phone. The HMI 600 is a device that the administrator of the service module operating device 400 can check simultaneously with the service module operating device 400, and is a device for monitoring simple states such as whether an operating device installed in the field is operating or malfunctioning. am.

2 is a diagram showing the configuration of a local platform server according to an embodiment of the present invention.

Referring to FIG. 2 , the local platform server 200 which is a platform providing server for device operation according to the present invention includes a server communication unit 210 , a server input unit 220 , a server display unit 230 , a server memory 240 and a platform. It includes an operation unit 250 , and the platform operation unit 250 includes a design management unit 251 and an information management unit 252 .

The server communication unit 210 communicates with the service module library 120 , the device library 140 , and the DB server 300 . To this end, the server communication unit 210 may perform wireless communication such as 5G (5 ^th generation), LTE (long term evolution), LTE-A (long term evolution-advanced), Wi-Fi (wireless fidelity) .

The server input unit 220 generates input data in response to an input of a user, eg, a designer, of the local platform server 200 . To this end, the server input unit 220 may include input devices such as a keyboard, a mouse, a keypad, a dome switch, a touch panel, a touch key, and a button.

The server display unit 230 outputs output data according to the operation of the local platform server 200 . To this end, the server display unit 230 includes a liquid crystal display (LCD), a light emitting diode (LED) display, an organic light emitting diode (OLED) display, and a micro electromechanical system (MEMS). mechanical systems) displays and electronic paper displays. The server display unit 230 may be implemented as a touch screen in combination with the server input unit 220 .

The server memory 240 stores operating programs of the local platform server 200 . The server memory 240 may store design results for devices and service modules. In this case, the design result may mean a result of which device and which service module will be installed at which site.

The design management unit 251 included in the platform operation unit 250 designs the operating device and service module to be installed in at least one site. For example, the design management unit 251 designs to install the first device 511 , the second device 512 , and the third device 513 at the site A, and the first service module 451 and the second service It can be designed to install the module 452 .

When the design management unit 251 completes the design of the operating device and service module for at least one site, the information management unit 252 included in the platform operation unit 250 includes device installation information and service module related to the operation device for which the design has been completed. The related service module installation information may be requested from the device library 140 and the service module library 120 , respectively.

For example, the information management unit 252 provides information on the first device 511 , the second device 512 and the third device 513 to be installed at the site A based on the design result designed by the design management unit 251 . Device installation information may be requested from the device library 140 . To this end, the information management unit 252 may transmit a unique number for each of the first device 511 , the second device 512 , and the third device 513 to the device library 140 .

The information management unit 252 stores service module installation information for the first service module 451 and the second service module 452 to be installed at site A based on the design result designed by the design management unit 251 into the service module library ( 120) can be requested. For example, the first service module 451 is a service module capable of controlling the operation of the operation device through interworking with the operation device. In the embodiment of the present invention, the first device 511 and the second device 512 are A service module that provides an operation function will be described as an example. In this case, the first service module 451 has the operating authority for the device including the first device 511 and the second device 512 during development in the development apparatus 110 to control the operation of the device. it has been developed

In addition, the second service module 452 is a service module capable of monitoring the operation of the operation device through interworking with the operation device. In the embodiment of the present invention, the first device 511 and the third device 513 are A service module that performs monitoring will be described as an example. In this case, the second service module 452 is developed in the development apparatus 110 to monitor the operation of the device by interworking with any device during development.

In addition, the information management unit 252 includes at least one of the first device 511 to the third device 513 in addition to the service module installation information for the first service module 451 and the second service module 452 according to the design completion. You can additionally request service module information including device installation information for the device. In this case, the additionally requested service module information may include device installation information for at least one device among the first device 511 to the third device 513 and service module installation information for the third service module (not shown). there is. The local platform server 200 transmits the design information including the device installation information and the service module installation information for the obtained operating device to the DB server 300 .

3 is a diagram illustrating a configuration for explaining a method of operating an operating device using a service module in the service module operating apparatus according to an embodiment of the present invention. In the embodiment of the present invention, the first device 511, the second device 512, and the third device 513 installed at the site in which the service module operating apparatus 400 is installed are combined with the first service module 451 and the second service module. Operation according to the function using 452 is described as an example, but is not necessarily limited thereto. In particular, the number of devices installed in the field and the number of service modules stored in the service module operating apparatus 400 can be changed and applied.

3, the service module operating device 400 according to the present invention includes a device communication unit 410, a device input unit 420, a device display unit 430, a device memory 440 and a control unit 450, The control unit 450 controls the operations of the first device 511 and the second device 512 using the first service module 451 , and the first device 511 using the second service module 452 . and monitoring the operation of the third device 513 . At this time, in FIG. 3 , the first service module 451 is connected to the first device 511 and the second device 512 for convenience of the invention, and the second service module 452 is the first device 511 . and a third device 513 is shown as being connected, but this does not mean a physical connection. It is clear that it is a connection line of

The device communication unit 410 communicates with the service module library 120 and the DB server 300 . To this end, the device communication unit 410 may perform wireless communication such as 5G (5 ^th generation), LTE (long term evolution), LTE-A (long term evolution-advanced), Wi-Fi (wireless fidelity) .

The device input unit 420 generates input data in response to a user input of the service module operating device 400 . To this end, the device input unit 420 may include input devices such as a keyboard, a mouse, a keypad, a dome switch, a touch panel, a touch key, and a button.

The device display unit 430 outputs output data according to the operation of the service module operating device 400 . To this end, the device display unit 430 may include a liquid crystal display (LCD), a light emitting diode (LED) display, an organic light emitting diode (OLED) display, and a micro electromechanical system (MEMS). mechanical systems) displays and electronic paper displays. The device display unit 430 may be combined with the device input unit 420 to be implemented as a touch screen.

The device memory 440 stores operation programs of the service module operating device 400 . The device memory 440 may store design information from the DB server 300 . In addition, the device memory 440 may store a service module installed through execution of service module installation information among the design information.

The control unit 450 installs and executes the first service module 451 and the second service module 452 using the service module installation information included in the design information received from the DB server 300 . In this case, the first service module 451 may be a service module for operating the first device 511 and the second device 512 with function A, and the second service module 452 is the first device 511 . and the third device 513 may be a service module for operating the B function. For example, the function A may be a function of controlling the operation of the first device 511 and the second device 512 based on the electricity bill, and the function B is the first device 511 and the third device 513 . It may be a monitoring function for monitoring power demand management based on the operation information obtained from

The control unit 450 is a device operating state for at least one of the first device 511, the second device 512, and the third device 513 connected to the data collection apparatus 500 from the DB server 300, that is, , receive information about the operation. The control unit 450 generates a control signal for managing the operation of at least one of the first device 511, the second device 512, and the third device 513 based on the received operation information to create a DB server It is transmitted to the data collection device 500 through 300 .

More specifically, when the first service module 451 is executed by the control unit 450 , the control unit 450 controls the first device 511 from among the operation information obtained from the data collection apparatus 500 through the DB server 300 . and operation information of the second device 512 , for example, an electricity rate for electricity used by the first device 511 and the second device 512 may be received. Then, the control unit 450 is a control signal for operating and managing each device based on the operation information on the first device 511 and the second device 512, for example, when the electricity rate exceeds the threshold cost, the first A control signal for terminating the power of the device 511 and the second device 512 may be generated and transmitted to the DB server 300 .

In addition, when the second service module 452 is executed by the control unit 450 , the control unit 450 controls the first device 511 and the 3 It is possible to receive operation information related to the power demand of the device 513 . The control unit 450 may generate a form such as a table or graph for power demand management based on the received operation information and display it on the device display unit 430 .

In addition, in an embodiment of the present invention, the second service module 452 performs the first device 511 and the third device 513 based on the operation information obtained from the first device 511 and the third device 513 . Monitoring is described as an example, but the present invention is not limited thereto, and a device for monitoring may be added or changed by the manager of the service module operating apparatus 400 . For example, when the second device 512 is added from the device input unit 420 so that the second service module 452 monitors the power demand management for the second device 512 , the controller 450 controls the first to third By monitoring the power demand management for the devices 511-513, the monitoring result can be generated and displayed in the form of a table, a graph, or the like.

4 is a flowchart illustrating a method of operating a device using a service module in a platform providing system according to an embodiment of the present invention.

Referring to FIG. 4 , in step 401 , the device library 140 stores device agreement information 141 and device installation information 142 for each of a plurality of devices. The device agreement information 141 means information about device agreements that a plurality of manufacturers 130 forming the device market (DEV_market) must comply with when producing devices, and the device installation information 142 includes device types and device names. , means information including device unique numbers and specifications. The device library 140 receives the device installation information 142 for the device produced by the manufacturer 130 through the company terminal (not shown) used by each of the plurality of manufacturers 130, and the received device installation information ( 142), it is checked whether the manufactured device complies with the device protocol. The device library 140 may complete device authentication and store device installation information 142 .

In step 403, the service module library 120 stores the service module agreement information 121 that must be observed when developing service modules in the plurality of development devices 110 and the service module information 122 for each of the plurality of service modules. . The service module agreement information 121 means information on the service module agreement to be observed when generating a service module in the plurality of development devices 110 forming the service module market SM_market. The service module information 122 may include service module installation information 122a and additionally include device installation information 142 . The service module installation information 122a means information including the installation file of the service module and the specification of the service module, and the device installation information 142 is about a device operable in the service module related to the service module installation information 122a. It means device installation information 142 .

The service module library 120 receives the service module information 122 for the service module developed through the development device 110, and checks whether the service module complies with the service module agreement based on the received service module information 122 Check it. The service module library 120 may store the service module information 122 after authentication for the service module is completed.

In step 405 , the local platform server 200 receives a design signal related to a device to be applied to at least one site (hereinafter referred to as an operating device) received from the designer. In step 407 , the local platform server 200 requests device installation information for the operating device corresponding to the design signal from the device library 140 according to the design signal. For example, the local platform server 200 receives a design signal to install the first device 511, the second device 512, and the third device 513 at the site A, the first device 511, which is an operating device. , a unique number for each of the second device 512 and the third device 513 may be identified. The local platform server 200 may transmit the identified unique number of the operating device to the device library 140 . In step 409 , the device library 140 transmits the extracted device installation information to the local platform server 200 .

Next, in step 411 , the local platform server 200 requests the service module installation information for the service module corresponding to the design signal from the service module library 120 according to the design signal. For example, when the local platform server 200 receives a design signal to install the first service module 451 and the second service module 452 at site A, the first service module 451 and the second service module 452 are ) transmits a request signal to the service module library 120 . In step 413 , the service module library 120 extracts service module installation information for the first service module 451 and the second service module 452 and transmits it to the local platform server 200 .

In step 415, the local platform server 200 performs step 417 when the design is completed. In step 417, the local platform server 200 transmits the design information on which the design has been completed to the DB server 300, and in step 419, the DB server 300 stores the received design information. In this case, the design information may include service module installation information and device installation information received by the local platform server 200 from the service module library 120 and the device library 140 .

In step 421, when the device included in the design information is installed at a specific site, the data collection apparatus 500 includes, for example, the first device 511, the second device 512, and the third device 513 at the site A. When the installation of the operating device is completed, step 423 is performed. In step 423, the data collection apparatus 500 checks the installation information of the operating device that has been installed, and performs step 425. In step 423 , the data collection apparatus 500 transmits the confirmed installation information of the operating device to the DB server 300 .

In step 427, the DB server 300 stores the device installation information for the operating device that has been installed, and performs step 429. In step 429, the DB server 300 checks the service module related to the device installation information and performs step 431. In step 431, the DB server 300 checks the service module capable of operating the installed operating device from among the design information stored in step 419. In step 431 , the DB server 300 transmits service module installation information for the checked service module to the service module operating device 400 . For example, the service module installation information transmitted to the service module operating device 400 includes the first service module 451 for operating the operating device installed at the A site as the A function, and the B function, which is different from the A function, of the operating device. It may be service module installation information related to the second service module 452 for operating as .

In step 433 , the service module operating device 400 installs the service module using the service module installation information received from the DB server 300 and then executes it. In step 435, the data collection apparatus 500 checks the operating state, that is, the operation of the operating device installed in the field, in real time or periodically. In step 437 , the data collection apparatus 500 transmits information about the operation of the checked operation device to the DB server 300 .

In step 439, the DB server 300 transmits the received operation information to the service module operating device 400, and in step 441, the service module operating device 400 sends a control signal for controlling the operating device based on the operation information. create In step 443, the service module operating device 400 transmits the generated control signal to the DB server 300, and in step 445, the DB server 300 transmits the control signal received from the service module operating device 400 to the data collection device. (500). In step 447 , the data collection apparatus 500 may provide a control signal to the operation device connected to the data collection apparatus 500 to change the operation state of the operation device. Also, although not shown, in step 441 , the service module operating apparatus 400 may generate and display a monitoring result of monitoring the operation of the operating device based on the operation information received from the DB server 300 .

For example, the service module operating device 400 installs the first service module 451 through the service module installation information for the first service module 451 , and receives the service module installation information for the second service module 452 . Through the second service module 452 is installed. The service module operating apparatus 400 executes the first service module 451 to operate the first device 511 and the second device 512 based on the A function, and executes the second service module 452 to An operation device to be operated based on the B function may be selected as the first device 511 and the third device 513 .

More specifically, when the first service module 451 is set to have a higher priority than the firmware basically installed in the first device 511 and the second device 512 , the first device 511 and the second device 512 . ) operation can be controlled by the first service module 451 , and when the priority of the firmware is set to be high, the first device 511 and the second device 512 are each higher than the first service module 451 . It can be controlled based on the firmware installed in the operating device.

When the first device 511 is an air conditioner and the second device 512 is a fan, the first service module 451 has an electricity rate of 10,000 won according to the use of the first device 511 and the second device 512 . If it exceeds, it may be a service module that performs a function of turning off the power of the first device 511 and the second device 512 . In addition, the first device 511 is set in the firmware to turn off the power of the first device 511 when the indoor temperature is less than 24 degrees, and the second device 512 has a continuous operation time of more than 7 hours. In this case, it may be set in the firmware to turn off the power of the second device 512 . At this time, when the priority of the first service module 451 is set higher than that of the firmware, the indoor temperature confirmed by the first device 511 is 22 degrees, and the second device 512 is continuously operated for 8 hours. Even if the electricity bill according to the use of the first device 511 and the second device 512 is 10,000 won or less, the operation of the first device 511 and the second device 512 may be continued.

Conversely, when the priority of the first service module 451 is set lower than that of the firmware, even if the electricity bill according to the use of the first device 511 and the second device 512 exceeds 10,000 won, the first device 511 If the confirmed indoor temperature is 26 degrees and the continuous operation time of the second device 512 is 5 hours, the operations of the first device 511 and the second device 512 may be continued. In this way, by operating the first device 511 and the second device 512 of different manufacturers and types as one first service module 451, the range of device selection that can be installed can be improved, and the service module operating apparatus ( 400), for example, the convenience of consumers can be improved.

In addition, since the operating device to be operated by using the second service module 452 is selected as the first device 511 and the third device 513 , the second service module 452 operates with the first device 511 and Receives and monitors operation information on the third device 513 . The second service module 452 may generate and display a monitoring result, for example, a result of power demand management in the form of a table or graph. In this way, there is an advantage in that the operation device can be operated for purposes such as power demand management and inter-floor noise monitoring by monitoring the information on the operation of the operation device installed in the field in real time or periodically and displaying the monitoring result.

Embodiments of the present invention disclosed in the present specification and drawings are merely provided for specific examples in order to easily explain the technical contents of the present invention and help the understanding of the present invention, and are not intended to limit the scope of the present invention. Therefore, the scope of the present invention should be construed as including all changes or modifications derived based on the technical spirit of the present invention in addition to the embodiments disclosed herein are included in the scope of the present invention.

Claims (11)

a device library for storing device agreement information for a device agreement to be followed when a device is created by a plurality of manufacturers forming a device market, and device installation information for each of a plurality of devices generated by complying with the device agreement;
Stores service module agreement information for service module agreements to be followed when creating service modules in a plurality of development devices forming a service module market, and service module installation information for each of a plurality of service modules created by complying with the service module agreement service module library;
a local platform server for selecting an operating device and a service module to be applied to at least one field from among the plurality of devices, performing a design, and receiving device installation information for the operating device and service module installation information for the service module; and
a service module operating device for operating the operating device by using the service module when the application of the operating device to the at least one site is completed according to the design;
An open platform providing system using a service module, characterized in that it comprises a. According to claim 1,
The service module is
An open platform providing system using a service module, characterized in that it comprises a service module for controlling the operation of the operation device and a service module for monitoring the operation of the operation device. 3. The method of claim 2,
The service module library,
The system for providing an open platform using a service module, characterized in that it further comprises device installation information for at least one device that can be controlled by the service module for controlling the operation of the operating device. 4. The method of claim 3,
The device library is
An open platform providing system using a service module, characterized in that authentication of the device is performed based on whether the device generated by the plurality of manufacturers complies with the device protocol. 4. The method of claim 3,
The service module library,
An open platform providing system using a service module, characterized in that authentication for the service module is performed on the basis of whether the service module generated by the plurality of development devices complies with the service module agreement. 3. The method of claim 2,
DB server;
further comprising,
The DB server,
An open platform providing system using a service module, characterized in that it receives design information including device installation information for the operating device and service module installation information for the service module from the local platform server. 7. The method of claim 6,
The service module operating device,
An open platform providing system using a service module, characterized in that by receiving the design information from the DB server to support the installation and operation of the service module. 8. The method of claim 7,
data collection device;
further comprising,
The data collection device,
An open platform providing system using a service module, characterized in that the information on the operation of the operating device is checked and transmitted to the DB server. 9. The method of claim 8,
The service module operating device,
An open platform providing system using a service module, characterized in that the installed service module is executed, and the control signal or the monitoring result is generated by analyzing the information on the operation of the operating device. 10. The method of claim 9,
The data collection device,
An open platform providing system using a service module, characterized in that receiving the control signal generated by the service module operating device from the DB server and transmitting it to the operating device. 3. The method of claim 2,
The service module for controlling the operation of the operating device,
An open platform providing system using a service module, characterized in that a priority is set between the firmware embedded in each of the plurality of devices and a service module for controlling the operation of the operating device.

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