KR20170142290A - Facility Management System using short-range wireless communication - Google Patents

Abstract

The present invention relates to a facility management system using short-range wireless communication, such as near field communication (NFC), Bluetooth low energy (BLE), etc. The facility management system recognizes a facility tag attached to a facility used for a public office and civil purposes through a user terminal to transmit a unique number and failure information of the corresponding facility to a manager terminal, so as to allow a manager to easily understand a location and failure details of the corresponding facility; and recognizes a facility tag attached to a main facility, such as a personal computer (PC), etc., and an auxiliary facility, such as a multifunctional printer (MFP), etc., from the user terminal to allow a management server to remotely install a corresponding driver program required for the auxiliary facility in the main facility. According to the present invention, the system comprises the facility tag, the user terminal, the manger terminal, and the management server.

Description

[0001] Facility management system using short-range wireless communication [

The present invention recognizes a facility tag attached to a facility used in a government office or a private enterprise through a user terminal and transmits a unique number and failure information for the facility to the administrator terminal so that the manager can easily locate the location and the fault details of the facility Further, the management server recognizes a facility tag attached to a main facility such as a PC (personal computer) or an auxiliary facility such as a multifunction device from the user terminal, and installs a corresponding driver program necessary for the auxiliary facility remotely on the main facility The present invention relates to a facility management system using short-range wireless communication such as NFC and BLE.

Generally, facilities used in public offices and private places in the vicinity of the living area should be managed regularly to prevent the occurrence of faults. If faults occur, they should be promptly repaired to minimize the inconvenience of citizens, .

However, in general facility management, the system was a system in which the manager patrols himself or herself to determine whether a malfunction has occurred, or to receive information such as complaints from ordinary citizens, and to visit managers to take measures.

In this connection, Patent Document 1 proposes a facility management system using ENF to improve the efficiency of management of facilities, and Patent Document 2 proposes a public facility management system and method using near field wireless communication.

However, according to the patent document 1, since the deformation state of the facility should be determined based on the strain information of the facility, the management cost is increased due to additional imaging equipment, and the strain on the appearance of the facility, The discoloration rate and the positional strain can be grasped and the details of the breakdown can not be accurately grasped.

In the above-described Patent Documents 1 and 2, the management server recognizes a facility tag attached to a main facility such as a PC (personal computer) or an auxiliary facility such as a multifunctional apparatus from a user terminal, It is inconvenient for the user to search for the driver program one by one and install the driver program directly on the main facility.

Patent Publication No. 10-2014-0065695 Published Japanese Patent Application No. 10-2015-0119700

In order to solve such problems, the present invention recognizes a facility tag attached to a facility used in a government office or a private enterprise through a user terminal, and transmits a unique number and failure information for the facility to the administrator terminal, The management server can recognize a facility tag attached to a main facility such as a PC (personal computer) or an auxiliary facility such as a multifunctional apparatus from the user terminal and obtain a corresponding driver program necessary for the auxiliary facility And it is an object of the present invention to provide a facility management system using short range wireless communication that can be installed remotely on the main facility.

According to an aspect of the present invention,

A facility tag disposed around the facility, the facility tag including a unique number and failure information for the facility;

A communication unit that transmits a unique number and failure information of the facility recognized by the tag recognition unit to the management server and receives a repair result of the facility from the management server; A user terminal having a display unit for outputting a repair result of the facility received through the user terminal;

A communication unit that receives the unique number and the failure information of the facility from the management server and transmits the repair result of the facility to the management server; a display unit that outputs the unique number and the failure information of the facility received from the communication unit; An administrator terminal;

A database unit including a unique number DB and a failure information DB for the facility; a database unit for receiving the unique number and the failure information for the facility, transmitting the unique number and the failure information for the facility to the administrator terminal, And a communication unit for transmitting the received repair result to the user terminal; And a facility management system using the short-range wireless communication.

Here, it is preferable that the facility tag includes an NFC tag, and the tag recognition unit of the user terminal comprises an NFC recognition unit.

Further, it is preferable that the unique number included in the facility tag includes installation information, manager information, and location information of the facility.

The failure information included in the facility tag preferably includes a list of failure items and failure contents of the facility.

In addition, the facility tag is disposed in the PC,

An install program extracting unit for searching and extracting a specific driver program from the install program DB; and a driver program extracting unit for extracting a driver program extracted from the install program extracting unit from the install program DB, A remote installation unit for remote installation is provided,

Preferably, the management server recognizes the facility tag disposed in the PC from the user terminal, and remotely installs a corresponding driver program suitable for the PC extracted from the installation program extraction unit.

In addition, the facility tag is disposed in an auxiliary facility including a main facility, which can be a PC, and a multifunction apparatus, a printer, a facsimile, and a scanner,

The management server recognizes a facility tag disposed in the main facility and a facility tag disposed in the auxiliary facility from the user terminal and receives a corresponding driver program suitable for the main facility and the auxiliary facilities extracted from the installed program extraction unit It is preferable to remotely install the main facility.

The present invention recognizes a facility tag attached to a facility used in a government office or a private enterprise through a user terminal and transmits a unique number and failure information for the facility to the administrator terminal so that the manager can easily locate the location and the fault details of the facility There is an effect that can be grasped.

In addition, since the management server recognizes a facility tag attached to a main facility such as a PC (personal computer) or an auxiliary facility such as a multifunction device from a user terminal and installs a corresponding driver program necessary for the auxiliary facility remotely on the main facility .

1 is a block diagram schematically showing a facility management system using short-range wireless communication, which is an embodiment of the present invention,
FIG. 2 is a flowchart schematically showing a facility management system using short-range wireless communication, which is an embodiment of the present invention,
3 is a diagram schematically showing a state in which a corresponding driver program suitable for a PC is remotely installed in a PC when a facility tag is disposed in a PC,
FIG. 4 is a diagram schematically showing a state in which a corresponding driver program suitable for an auxiliary facility is remotely installed in a main facility when the facility tag is disposed in the main facility and auxiliary facilities,
5 is a flow chart of Fig.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a block diagram schematically showing a facility management system using short-range wireless communication, which is an embodiment of the present invention.

As shown in FIG. 1, the facility management system using short range wireless communication, which is one embodiment of the present invention, includes a facility tag 10, a user terminal 30, an administrator terminal 50, and a management server 70.

First, the facility tag 10 is installed in the vicinity of facilities used in public and private sectors, for example, a bus stop, a subway, a road, a building, a bridge, a PC (personal computer) , Or a home appliance such as a TV, and the like.

The facility tag 10 includes a unique number for the facility 3 and failure information.

The unique number included in the facility tag 10 may include installation information of the facility 3, manager information, and location information, and the failure information included in the facility tag 10 may include the facilities 3 ) And a list of the contents of the failure.

The facility tag 10 includes a print mark, a radio frequency identification (RFID) chip or a near field communication (NFC) tag printed with a Quick Response Code including a unique number and failure information of the facility 3 But it is best to use an NFC (Near Field Communication) tag in the present invention.

In the present invention, short-range wireless communication such as NFC or BLE is used.

Near Field Communication (NFC) is a non-contact type short-range wireless communication module using a frequency band of 13.56 MHz as one of RFID tags, and is a technology for transmitting data between terminals in a short distance. NFC is a next-generation local area communication technology that is attracting attention because of its relatively short distance and its relatively low security. Since both data reading and writing functions are available, there is an advantage that a dongle (reader), which was previously required for the use of RFID, is not needed.

The Bluetooth Low Energy (BLE) is a short-range wireless communication technology based on a BLE (Bluetooth Low Energy) 4.0 technology. Recently, Bluetooth 4.0, which has increased transmission speed, transmission data amount per second, recognition range, And is used in various industries and product groups.

The user terminal 30 may be a smart phone, a smart pad, a PDA, or a notebook computer having a communication function to be connected to a communication network such as the Internet by wire or wireless.

A facility management application may be installed in the user terminal 30 by a user.

When the management server 70 receives the facility tag 10 disposed around the facility 3 from the user terminal 30, the facility management application of the user terminal 30 is automatically executed, The management server 70 transmits the unique number and the failure information of the server 3 to the manager terminal 50.

More specifically, the user terminal 30 may include a tag recognition unit 310, a communication unit 330, and a display unit 350.

The tag recognition unit 310 of the user terminal 30 recognizes the facility tag 10.

When the facility tag 10 is a QR code (Quick Response Code), the tag recognition unit 310 may be a camera. When the facility tag 10 is an RFID (Radio Frequency Identification) 310 may be an RFID recognition unit. When the facility tag 10 is an NFC (Near Field Communication) tag, the tag recognition unit 310 may be an NFC recognition unit.

The communication unit 330 of the user terminal 30 transmits the unique number and failure information of the facility 3 recognized by the tag recognition unit 310 to the management server 70, From the management server (70).

The display unit 350 of the user terminal 30 outputs the repair result of the facility 3 received through the communication unit 330 to the screen.

Next, the administrator terminal 50 is a smart phone, a smart pad, a PDA or a notebook computer equipped with the facility management application and equipped with a communication function to be connected to a communication network such as the Internet, And the like.

The management server 70 transmits the unique number and failure information of the facility 3 received from the user terminal 30 to the administrator terminal 50.

More specifically, the administrator terminal 50 may include a communication unit 510 and a display unit 530.

The communication unit 510 of the manager terminal 50 receives the unique number and the failure information for the facility 3 from the management server 70 and transmits the repair result to the management server 70 To the user terminal 30 via the network.

The display unit 530 of the manager terminal 50 displays the unique number and the failure information of the facility 3 received from the communication unit 510 on the screen.

The manager terminal 50 is provided with a list of corresponding facilities managed by the manager by himself / herself, so that information on the corresponding facilities managed by the manager himself / herself can be browsed. Thus, maintenance items and schedule management for each manager are useful You can help.

Next, the management server 70 transmits the unique number and failure information of the facility 3 received from the user terminal 30 to the administrator terminal 50, And may include a database unit 710 and a communication unit 730. The database unit 710 and the communication unit 730 may be the same as those shown in FIG.

The database unit 710 of the management server 70 stores a unique number DB and a failure information DB for the facility 3.

The communication unit 730 of the management server 70 receives the unique number and the failure information for the facility 3 from the user terminal 30 and transmits the unique number and the failure information to the administrator terminal 50 from the user terminal 30 Transmits the repair number received from the manager terminal (50) to the user terminal (30), and transmits the repair number received from the manager terminal (50) to the user terminal (30).

2 is a flowchart schematically showing a facility management system using short-range wireless communication, which is an embodiment of the present invention.

A flow of a facility management system using short-range wireless communication, which is an embodiment of the present invention, will be described with reference to FIG.

The facility tag 10 disposed around the facility 3 is recognized by using the smart phone which is the user terminal 30 in operation S600 and a facility management application installed in the user terminal 30 is executed in operation S610 , And transmits the unique number and the failure information of the facility 3 to the management server 70 (S620).

The management server 70 having received the unique number and the failure information of the facility 3 outputs the unique number and the failure information of the facility 3 to the display unit 530 of the administrator terminal 50 in operation S630 (S640)

The manager terminal 50 having received the repair result by the manager transmits the repair result to the management server 70 in step S650 and the management server 70 having received the repair result in step S660, To the display unit 350 of the user terminal 30 (S670).

FIG. 3 is a block diagram schematically illustrating a state in which a corresponding driver program suitable for a PC is remotely installed in a PC when the facility tag is disposed in the PC.

3, when the facility tag 10 is disposed in a PC (personal computer), the management server 70 transmits the facility tag 10 to the PC The facility tag 10 installed in the PC is received from the user terminal 30 and the driver program for each device necessary for the PC extracted from the installation program extraction unit is transmitted to the PC Personal computer).

To this end, the management server 70 may further include an install program DB 750, an install program extractor 770, and a remote installer 790.

The installation program DB 750 of the management server 70 may store a driver program for each device.

The installation program extraction unit 770 of the management server 70 can search for and extract the specific driver program recognized by the management server 70 through the user terminal 30 from the installation program DB 750 .

The remote installer 790 of the management server 70 remotely installs the driver program extracted from the install program extractor 770 to the PC (personal computer).

More specifically, the management server 70 recognizes the facility tag 10 disposed in the PC (personal computer) from the user terminal 10, and the CPU 70, the main board, A graphics card, a multimedia (sound, etc.), an adapter, and the like.

The installation program extraction unit 770 of the management server 70 searches and extracts the specific driver program received from the user terminal 30 from the installation program DB 750 by the management server 70, And transmits the corresponding driver program to the remote installation unit 790.

The remote installation unit 790 remotely installs the driver program extracted from the installation program extraction unit 770 to the PC (personal computer).

FIG. 4 is a diagram schematically showing a state in which a corresponding driver program suitable for an auxiliary facility is remotely installed in a main facility when the facility tag is disposed in the main facility and auxiliary facilities, and FIG. 5 4 is a flowchart of Fig.

4 and 5, the facility tag 10 may include a main facility 3a (personal computer), which may be a personal computer (PC) And the auxiliary equipment 3b including the multifunction apparatus, the printer, the facsimile and the scanner, the management server 70 reads out the facility tags 10 arranged in the main facility 3a from the user terminal 30 And the facility tag 10 disposed in the auxiliary facilities 3b and receives a specific driver program suitable for the main facilities 3a and the auxiliary facilities 3b extracted from the installation program extraction unit 770 And can be remotely installed in the main facility 3a.

5, the management server 70, recognizing the facility tag 10 disposed in the auxiliary facility 3b from the user terminal 30, executes the facility management application, And confirms whether the auxiliary facility 3b has its own fault from the terminal 30 (S800 to S820).

When the management server 70 receives an input from the user terminal 30 in the case of the self-failure of the auxiliary facility 3b in operation S820, the management server 70 transmits the unique number and the failure information to the management server 70 to the display unit 530 of the manager terminal 50 (S830).

When the management server 70 receives an input from the user terminal 30 indicating that the auxiliary facility 3b is not a self fault of the auxiliary facility 3b in operation S820, It is determined that the installation program is a driver program installation problem and the facility tag 10 disposed in the main facility 3a is further recognized from the user terminal 30 in operation S900.

The management server 70 transmits the driver program suitable for the auxiliary facility 3b extracted through the installation program extraction unit 770 to the remote installation unit 790 in operation S910.

The remote installation unit 790 remotely installs the corresponding driver program received by the management server 70 in the PC (personal computer) as the main facility 3a (S920).

Therefore, a user who has difficulty in installing a driver program for each device in the main facility 3a such as a PC (personal computer) for using the auxiliary facility 3b including a multifunctional apparatus, a printer, a facsimile, There is an advantage in that a corresponding driver program suitable for the auxiliary facilities 3b can be installed remotely on the main facility 3a without having to visit the facilities 3b.

10; Facility tag, 30; User terminal,
50; Manager terminal, 70; Management server.

Claims (6)

A facility tag disposed around the facility, the facility tag including a unique number and failure information for the facility;
A communication unit that transmits a unique number and failure information of the facility recognized by the tag recognition unit to the management server and receives a repair result of the facility from the management server; A user terminal having a display unit for outputting a repair result of the facility received through the user terminal;
A communication unit that receives the unique number and the failure information of the facility from the management server and transmits the repair result of the facility to the management server; a display unit that outputs the unique number and the failure information of the facility received from the communication unit; An administrator terminal;
A database unit including a unique number DB and a failure information DB for the facility; a database unit for receiving the unique number and the failure information for the facility, transmitting the unique number and the failure information for the facility to the administrator terminal, And a communication unit for transmitting the received repair result to the user terminal; And a facility management system using the short-range wireless communication.
The method according to claim 1,
Wherein the facility tag comprises an NFC tag, and the tag recognition unit of the user terminal comprises an NFC recognition unit.
3. The method of claim 2,
Wherein the unique number included in the facility tag includes installation information of the facility, manager information, and location information.
The method of claim 3,
Wherein the failure information included in the facility tag includes a list of failure items and failure contents of the facility.
5. The method of claim 4,
The facility tag is disposed in the PC,
An install program extracting unit for searching and extracting a specific driver program from the install program DB; and a driver program extracting unit for extracting a driver program extracted from the install program extracting unit from the install program DB, A remote installation unit for remote installation is provided,
Wherein the management server recognizes a facility tag disposed in the PC from the user terminal and remotely installs a corresponding driver program suitable for the PC extracted from the installation program extraction unit. Facility management system.
6. The method of claim 5,
The facility tag is disposed in an auxiliary facility including a main facility, which can be a PC, and a multifunction apparatus, a printer, a facsimile, and a scanner,
The management server recognizes a facility tag disposed in the main facility and a facility tag disposed in the auxiliary facility from the user terminal and receives a corresponding driver program suitable for the main facility and the auxiliary facilities extracted from the installed program extraction unit Wherein the facility management system is installed remotely to the main facility.

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