KR101333656B1 - Building automation system using near field communication - Google Patents

Abstract

The present invention relates to a building automation system using near field communication and, more specifically, to the building automation system capable of controlling the operation of a device arranged in an area by transmitting a control command to an area controller through the near field communication by enabling a portable terminal to receive the area information from the area controller. The present invention relates to the building automation system using the near field communication comprising: the area controller for controlling the operation of the device by transmitting the control command to the device and by connecting to the device with a line and the portable terminal for transmitting the control command based on the area information to the area controller using the near field communication after receiving the area information from the area controller by authenticating communication between the area controller and the portable terminal.

Description

Building Automation System Using Near Field Communication

The present invention relates to a building automation system using proximity communication, and in detail, when a mobile terminal receives zone information from a zone controller through proximity communication, a control object disposed in a zone by transmitting a control command to the zone controller through short-range communication. It relates to a building automation system using proximity communication that can control the operation of the device.

Building automation systems are introduced to economically maintain buildings and maintain office environments. The building automation system uses computers to automate various functions in the building to reduce manpower. Building automation systems generally include functions such as electricity, access, water supply and drainage, air conditioning, disaster prevention, sanitation, lighting, and parking facilities, as well as intelligent functions such as communication.

In the conventional building automation system, since the above-described functions are managed in a centralized manner, there is a problem in that proper control cannot be achieved for each area within a building. In other words, the manager or the building user could not optimally control the various control target devices arranged in a specific area of the central building according to the environment.

Moreover, despite the rapid spread of smart phones, building automation systems and smart phones are hardly interlocked, and even if some interworking functions are established, the process of setting access rights of smartphones and the setting of interworking with controlled devices are complicated. There was an inconvenience to be made.

The present invention has been made to solve the above problems, an object of the present invention is to control the control target device in the building with a smart phone by connecting the smart phone and the control target device safely and simply without complex permission setting or interworking setting. It is to provide a building automation system using proximity communication.

To this end, the building automation system using the proximity communication according to the present invention is a zone controller for controlling the operation of the control target device by wired connection with the control target device in the zone and transmitting a control command to the control target device, And a portable terminal that receives the area information from the area controller when the communication is authenticated by the area controller and transmits a control command based on the area information to the area controller.

In addition, the zone controller according to the present invention includes a proximity communication unit in close communication with the portable terminal, a short-range communication unit in close communication with the mobile terminal, a storage unit for storing zone information about the control target device disposed in the zone, and the control. A device communication unit for communicating with a target device, an authentication processing unit for performing authentication processing on the mobile terminal when the mobile terminal is in close communication with the proximity communication unit, and after the authentication processing by the authentication processing unit, through the proximity communication unit. And a controller for transmitting the zone information of the storage unit to the portable terminal, receiving a control command based on the zone information from the portable terminal through the short range communication unit, and transmitting the control command to the corresponding control target device through the device communication unit. do.

In addition, the portable terminal according to the present invention includes a proximity communication unit in close communication with a zone controller connected to a wired control device in a zone, a near field communication unit in close communication with the zone controller, and a zone received from the zone controller through the proximity communication unit. A storage unit for storing information, and a control unit for generating a control command for controlling the operation of the control target device according to the area information and transmits to the area controller through the short-range communication unit.

In addition, the operation method of the zone controller for building automation using the proximity communication according to the present invention comprises the steps of performing an authentication process for the mobile terminal when the mobile terminal and the proximity communication is connected; Transmitting the zone information about the device to the portable terminal; receiving a control command for the control target device in the zone through short-range communication from the portable terminal; and receiving the control command corresponding to the corresponding control target in the zone. Sending a control command to the device.

In addition, a method of operating a mobile terminal for building automation using proximity communication according to the present invention comprises the step of receiving an authentication process from a zone controller in close communication with a zone controller connected to a wired control device in a zone, and the zone controller from the zone controller. Receiving zone information on the controlled device in the zone, generating a control command for controlling the operation of the controlled device according to the zone information, and transmitting the control command to the zone controller through short-range communication. It includes a step.

As described above, when the mobile terminal according to the present invention is connected to the zone controller through proximity communication, the mobile station receives an authentication process by the zone controller, thereby simplifying the authority setting.

In addition, the mobile terminal according to the present invention receives the zone information from the zone controller through proximity communication after the authentication process, and transmits a control command based on the zone information to the zone controller through short-range communication. The effect can be controlled without complicated setting process.

Further, according to the present invention, since the mobile terminal receives the specific area information from the tag of the specific area and generates a control command based on the specific area information by placing the tag in a specific area in the area, more appropriate control is possible for each specific area. It works.

1 is a schematic diagram of a building automation system using proximity communication in accordance with the present invention.
2 is an internal configuration diagram of a zone controller according to the present invention.
3 is an internal configuration diagram of a mobile terminal according to the present invention.
4 is an internal configuration diagram of a tag according to the present invention.
5 is a signal flow diagram between components in a building automation system using proximity communication in accordance with the present invention.
6 is a signal flow diagram between components in a building automation system using proximity communication in accordance with another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and the operation and effect thereof will be clearly understood through the following detailed description. Before describing the present invention in detail, the same components are denoted by the same reference symbols as possible even if they are displayed on different drawings. In the case where it is judged that the gist of the present invention may be blurred to a known configuration, do.

1 illustrates a schematic configuration of a building automation system using proximity communication according to the present invention.

As shown in FIG. 1, the building automation system includes a zone controller 100 for controlling the operation of the controlled device 500 in the zone 10, and a mobile terminal 200 for near field communication and near field communication with the zone controller 100. ), A tag 300 for transmitting specific area 20 information in a zone to the mobile terminal 200, and a plurality of control target devices 500 connected to the zone controller 100 via a communication line 400. do.

The zone controller 100 is wired connected to the control target device 500 disposed in the zone 10 through the communication line 400, and transmits a control command received from the mobile terminal 200 to the control target device 500. To control the operation of the control target device 500.

Zone controller 100 is shown as located outside zone 10 in FIG. 1, but may be located inside zone. The zone controller 100 and the control target device 500 may be connected through a communication line 400 such as Ethernet or RS-485. Protocols used in the communication line 400 include BACnet, an international standard for building automation networks, and KNX, LonWork, and the like. In addition, the home network can be used when applied to the home, industrial fieldbus or industrial Ethernet may be used in the factory environment.

When the mobile terminal 200 is connected to the zone controller 100 through proximity communication and is authenticated by the zone controller 100, the mobile terminal 200 receives zone information from the zone controller 100, and then performs short-range communication with the zone controller 100. The zone controller 100 transmits a control command based on the zone information. The zone information includes location information in the zone and information on the device to be controlled.

The mobile terminal 200 is a portable terminal device such as a smart phone or a tablet PC, but is not limited thereto. If there is a function capable of downloading and installing software (control command software) for generating a control command, any type of terminal A device may be possible.

The tag 300 is installed for each specific area 20 in the zone 10 and is connected to the mobile terminal 200 in close communication to transmit specific area information to the mobile terminal 200. The specific area information includes location information of the specific area and information about a control target device existing in the specific area.

The control target device 500 is connected to the zone controller 100 so that its operation is controlled by the zone controller 100. The control target device 500 includes a lighting device, an air conditioning device, a door, an air conditioner, etc., which exist in a zone to control an environment of a building or an office.

Figure 2 shows the internal configuration of the zone controller according to the present invention.

As shown in FIG. 2, the zone controller 100 may operate the proximity communication unit 102, the near field communication unit 104, the storage unit 106, the device communication unit 108, the authentication processing unit 110, and the control unit 112. Include.

The proximity communication unit 102 is a part for performing proximity communication with the mobile terminal 200. Near Field Communication (NFC) is a typical example of proximity communication, and RFID (Radio Frequency Identification) is also classified as a proximity communication.

The short range communication unit 104 is a part for short range communication with the mobile terminal 200. Wi-Fi and Bluetooth are typical examples of near-field communication, and Zigbee or UWB (Ultra Wide Band) communication can be used.

The storage unit 106 stores the zone information together with the software for controlling the operation of the zone controller 100. In addition, the storage unit 106 stores URL information for downloading the control instruction software installed in the mobile terminal 200. In addition, the storage unit 106 stores IDs and passwords of registered users required for authentication processing.

The device communication unit 108 is a part for communicating with the control target device 500. The device communication unit 108 transmits a control command of the mobile terminal 200 to the control target device. The zone controller 100 and the controlled device 500 are connected through a communication line 300 such as Ethernet or RS-485, and the device communication unit 108 may be an Ethernet communication interface module or an RS-485 communication interface module. Can be.

The authentication processor 110 is a part for authenticating the mobile terminal 200 connected through proximity communication. The authentication processing unit 110 compares the ID and password received through the proximity communication from the mobile terminal 200 with the previously stored information and grants control authority to the mobile terminal 200 when they match. The authentication processing unit 110 distinguishes whether the mobile terminal 200 is an administrator or a general user according to the pre-stored information and informs the control unit 112 of this.

The control unit 112 transmits URL information to download the control command software to the mobile terminal when proximity communication is first performed between the mobile terminal 200 and the proximity communication unit 102. If it is not the first proximity communication between the mobile terminal 200 and the proximity communication unit 102, the authentication process for the mobile terminal 200 is performed through the authentication processing unit 110.

After the authentication processing by the authentication processing unit 110 is completed, the control unit 112 transmits the zone information to the mobile terminal 200. At this time, if the authenticated portable terminal 200 is a manager terminal, the manager mode setting information is transmitted together with the zone information. If the authenticated mobile terminal 200 is a general user terminal, the general user mode setting information is transmitted. After the zone information is transmitted, when the control command based on the zone information is received from the mobile terminal 200 through the short range communication unit 104, the control command is transmitted to the corresponding control target device through the device communication unit 108.

3 shows an internal configuration of a mobile terminal according to the present invention.

As shown in FIG. 3, the mobile terminal 200 includes a proximity communication unit 202, a near field communication unit 204, a display unit 206, an input unit 208, a mobile communication unit 210, a storage unit 212, and the like. do.

The near field communication unit 202 is a portion for near field communication with the zone controller 100, and the near field communication unit 204 is a portion for near field communication with the zone controller 100.

The mobile terminal 200 receives an authentication process from the zone controller 100 through proximity communication, and receives URL information for downloading control commands and zone information in a building. In addition, the mobile terminal 200 transmits a control command based on the zone information to the zone controller 100 through the near field communication.

The display unit 206 may be configured as a display panel such as an LCD or an LED, and the input unit 208 may be configured as a keypad or a button. However, when the display unit 206 is a touch screen such as a smart phone, the display unit 206 may be used. The input unit 208 may be integrally formed. When the control command software installed in the mobile terminal 206 is executed, the control screen is displayed on the display unit 206, and the user can control the operation of the corresponding control target device by touching the control screen.

The mobile communication unit 210 is a part for voice call or data communication. When the mobile terminal 200 receives the URL information for downloading the control command software, the mobile terminal 200 may download the software by accessing the URL through the mobile communication unit 210.

The storage unit 212 is a part for storing various application software and data. The storage unit 212 according to the present invention stores the control command software and zone information.

The control unit 214 configures a control screen for executing the control command software and processing the zone information received from the zone controller 100 to generate a control command. The controller 214 generates a control command for controlling the operation of the controlling device according to the zone information and transmits the control command to the zone controller 100 through the short range communication unit 204.

4 shows an internal configuration of a tag according to the present invention.

As illustrated in FIG. 4, the tag 300 may include a proximity communication unit 302 for proximity communication with the mobile terminal 200, a storage unit 304 for storing specific area information in a zone, and the like.

When the mobile terminal 200 enters a specific area in a zone and tags the tag 300, the mobile terminal 200 receives information about the specific area from the tag 300 through proximity communication. The mobile terminal 200 receives specific region information from the tag 300, thereby enabling more accurate and precise operation control of the control target device disposed in the specific region.

5 illustrates a signal flow between components in a building automation system using proximity communication according to the present invention.

As shown in FIG. 5, first, when a user brings the portable terminal 200 to the zone controller 100, proximity communication is connected between the portable terminal 200 and the zone controller 100. When the mobile terminal 200 first communicates in close proximity with the zone controller 100, the zone controller 100 transmits URL information to download the control instruction software (application) to the mobile terminal 200 (S10). . If the mobile terminal 200 has a history of close communication with the area controller 100 before, the authentication processing procedure S20 may be immediately performed.

When the mobile terminal 200 receives the URL information, the mobile terminal 200 accesses the URL, downloads the application, and installs the application. When the application is installed, the application is automatically executed, and the authentication processing procedure S20 is performed between the mobile terminal 200 and the zone controller 100. That is, when the user inputs a pre-registered ID and password on the application execution screen of the mobile terminal 200, the input ID and password are transmitted to the zone controller 100. The zone controller 100 compares the ID and password with previously stored information and authenticates the mobile terminal 200, and rejects the authentication if it does not match. When the authentication for the mobile terminal 200 is made, the zone controller 100 transmits zone information to the mobile terminal 200 (S30).

This zone information transmission procedure is performed when proximity communication is first connected between the mobile terminal 200 and the zone controller 100. Then, when the proximity communication is connected between the mobile terminal 200 and the zone controller 100, the zone information is the same. Then, the zone information transmission procedure may be omitted or only updated zone information may be transmitted.

Next, short-range communication is connected between the mobile terminal 200 and the zone controller 100, and the mobile terminal 200 generates a control command based on the zone information and transmits the control command to the zone controller 100 (S40). For example, when receiving the zone information, the mobile terminal 200 may display the zone map on the application execution screen by processing the zone information. The user may control an operation of the control target device by touching an icon corresponding to the control target device displayed on each location of the area map.

When the zone controller 100 receives the control command from the mobile terminal 200, the zone controller 100 transmits the received control command to the control target device 500 through the communication line (S50) to control the operation of the control target device 500. . Accordingly, the mobile terminal 200 may control the operation of the air conditioner, the lighting fixture, the door, and the like according to the type of the control target device 500 through the zone controller 100.

6 is a signal flow diagram between components in a building automation system using proximity communication according to another embodiment of the present invention.

As shown in FIG. 6, when a user enters a specific area within a zone and brings the mobile terminal 200 to a tag 300 located in a specific area, proximity communication is connected between the mobile terminal 200 and the tag 300. . Since the mobile terminal 200 has undergone an authentication procedure through proximity communication with the zone controller 100 before the proximity communication with the tag 300, the authentication procedure by the tag 300 is omitted.

When proximity communication is connected between the mobile terminal 200 and the tag 300, the mobile terminal 200 receives specific area information from the tag 300 (S100). Upon receiving the specific area information, the mobile terminal 200 connects the short range communication with the area controller 100 and generates a control command based on the specific area information and transmits the control command to the area controller 100 (S120).

When receiving the control command from the mobile terminal 200, the zone controller 100 transmits the received control command to the control target device 500 through the communication line (S140). The controlling device 500 controls its operation according to the control command of the zone controller 100.

For example, when a user enters a conference room and places the mobile terminal 200 on a tag installed on a conference table, the user can control devices such as a projector, a screen, lighting, and heating / heating through the control screen of the mobile terminal 200. do.

The foregoing description is merely illustrative of the present invention, and various modifications may be made by those skilled in the art without departing from the spirit of the present invention.

For example, in the embodiment of the present invention, the control command application installed in the mobile terminal is downloaded through the URL-connected site, but the application is stored in the zone controller so that the application can be downloaded directly from the zone controller.

Accordingly, the embodiments disclosed in the specification of the present invention are not intended to limit the present invention. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of equivalents should be construed as being included in the scope of the present invention.

10: Zone 20: Specific Area
100: zone controller 200 mobile terminal
300: tag 400: communication line
500: control target device

Claims (10)

A zone controller which is wired to the control device in the zone and transmits a control command to the control device to control the operation of the control device;
When the terminal is in close communication with the zone controller and authenticated by the zone controller, the mobile station receives zone information from the zone controller, and then communicates with the zone controller in a short range to transmit a control command based on the zone information to the zone controller. Building automation system using proximity communication, including. The method of claim 1,
And a tag for communicating with the portable terminal in close proximity and transmitting the specific area information in the area to the portable terminal. Proximity communication unit for close communication with the mobile terminal,
A short range communication unit for short range communication with the mobile terminal;
A storage unit for storing zone information on the controlled device disposed in the zone;
A device communication unit for communicating with the control target device;
An authentication processor configured to perform authentication processing on the mobile terminal when the portable terminal is connected in proximity communication through the proximity communication unit;
After the authentication processing by the authentication processing unit, the zone information of the storage unit is transmitted to the portable terminal through the proximity communication unit, and a control command based on the zone information from the portable terminal is received through the local area communication unit and the control command is transmitted to the device. Zone controller including a control unit for transmitting to the control target device through the communication unit. The method of claim 3,
When the proximity communication is first performed between the portable terminal and the proximity communication unit, the controller transmits URL information to download the software for generating a control command based on the zone information to the portable terminal. . A proximity communication unit in close communication with a zone controller connected to the controlled device in the zone by wire;
A short range communication unit performing short range communication with the area controller;
A storage unit for storing zone information received from the zone controller through the proximity communication unit;
And a control unit for generating a control command for controlling an operation of a control target device according to the zone information and transmitting the control command to the zone controller through the short range communication unit. The method of claim 5,
In the first proximity communication with the zone controller, the controller receives URL information through which the zone communication unit can download software for generating a control command from the zone controller. In the operation method of the zone controller for building automation using proximity communication,
Performing authentication processing on the mobile terminal when the mobile terminal and the proximity communication are connected;
Transmitting the zone information on the control target device in the zone to the mobile terminal when the authentication process is completed;
Receiving a control command for a control target device in a zone through short-range communication from the portable terminal;
Transmitting a control command to a corresponding control target device in a zone when receiving the control command. The method of claim 7, wherein
When the proximity communication is first connected between the mobile terminal and the zone controller, the zone controller further comprises transmitting URL information to download the software for generating a control command to the portable terminal. How it works. In the operation method of a mobile terminal for building automation using proximity communication,
Receiving an authentication process from the zone controller by being in close communication with the zone controller connected to the controlled device in the zone by wire;
Receiving zone information on the controlled device in the zone from the zone controller;
Generating a control command for controlling an operation of a control target device according to the zone information;
Transmitting the control command to the area controller through short-range communication. 10. The method of claim 9,
And when the proximity communication is first connected between the mobile terminal and the zone controller, receiving the URL information from which the mobile terminal can download software for generating a control command from the zone controller. How it works.

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