KR20130016961A - Lighting system and fault recovery method thereof - Google Patents

Abstract

PURPOSE: A lighting system and a recovering method for the lighting system are provided to easily recover from failures by receiving a backup data in a recovery process through doubly backing up installing and controlling data of a lighting device and a lighting device controller at a long-distance database backup server and a memory part. CONSTITUTION: At least one lighting device(300) comprises a wireless communication module. A database backup server(200) stores control information to each lighting device. The database backup server transmits controlling data to the lighting device in a recovering process through a communication network. A lighting device controller(100) receives controlling data of the lighting device from the database backup server and transmits to each lighting device. The lighting device controller comprises a main control unit(10), a WiFi(Wireless Fidelity) module(20), a user interface unit(30), a memory unit(40), and a zigbee module(50). [Reference numerals] (100) Lighting device controller; (200) Database backup server; (300) Lighting device 1; (AA) Internet; (BB) Zigbee communication; (CC) Lighting device 2(repeater); (DD) Lighting device 4; (EE) Lighting device 3

Description

LIGHTING SYSTEM AND FAULT RECOVERY METHOD THEREOF}

The present invention relates to a lighting system and a method for repairing a failure of the lighting system, and more particularly, to a lighting system including a plurality of lighting devices that can be remotely controlled. The present invention relates to a lighting system and a method for recovering from a failure of a lighting system capable of easily recovering a failure by dually backing up a server and a removable memory unit and receiving such information during a failure recovery.

A method of managing lighting devices such as landscape lighting devices or a plurality of lighting devices in a building through a controller using wired / wireless communication methods is used. Among these methods, the Zigbee communication method is expected to be widely used due to various advantages such as low system construction cost, low power consumption, fast development speed, and multiple node control.

 Existing lighting control system using Zigbee communication method is composed of Zigbee coordinator and end-devices. Also, when installing the system, address and Zigbee PanID of each node and group ID should be set if necessary. And the brightness status, color status and ON / OFF schedule information of each light should be changed according to user setting and the values should be saved.

In the conventional system configured as described above, when a Zigbee coordinator or an end-device fails and replaces with a new device, the information such as the address, ZigBee PanID, group ID, brightness state, color state, etc. of the above-mentioned nodes is individually displayed. Should be corrected. As such, in the conventional Zigbee communication lighting control system, there is a problem in that the existing information is recorded and reset again when replacing the failed equipment, and this setting value reset process is very difficult for general users to perform. The process is necessary. In addition, if a mistake of the operator during the replacement will cause a problem that can be set to the wrong configuration. In particular, when the lighting controller that manages all Zigbee communications fails and is replaced, there is a problem that it is very difficult to recover the previous state because there is too much information to be processed.

The present invention is to overcome the above-mentioned problems of the prior art, one object of the present invention is to solve the complexity of the repair process that occurs during the troubleshooting of the lighting system, the troubleshooting time and method is very short and simple It is to provide a lighting system that can be improved and to troubleshoot the lighting system.

One aspect of the present invention for achieving the above object is

One or more luminaires having a wireless communication module;

A database backup server located at a remote location with respect to the lighting devices, storing control information for each lighting device, and transmitting the control information to a lighting device that needs to be restored through a communication network when the lighting device is damaged; And

Receiving the control information for a specific lighting device from the database backup server and transmits to each lighting device to include a lighting controller for recovering the setting value of the lighting device,

The lighting controller

WiFi module for receiving control information for a specific lighting device from the database backup server,

Zigbee module for transmitting and receiving control information with each lighting device,

Stores a predetermined program that controls the overall operation of the lighting controller, and backs up and stores the control information for each lighting device, and stores data input and output and various data processed when the overall operation of the lighting controller is performed Removable removable memory,

A user interface unit for receiving various information or commands related to the installation, operation, or repair of a lighting system from a user; And

It relates to a lighting system comprising a main control unit for controlling the overall operation of each component.

Another aspect of the present invention for achieving the above object is one or more luminaires having a wireless communication module and is located remote to the luminaires, and stores control information for each luminaire, A lighting controller for controlling the installation and operation of lighting devices between a lighting device and a database backup server in a lighting system including a database backup server for transmitting the control information to a lighting device that needs to be restored through a communication network during a failure recovery. The controller

WiFi module for receiving control information for a specific lighting device from the database backup server,

Zigbee module for transmitting and receiving control information with each lighting device,

Stores a predetermined program that controls the overall operation of the lighting controller, and backs up and stores the control information for each lighting device, and stores data input and output and various data processed when the overall operation of the lighting controller is performed Removable removable memory,

A user interface unit for receiving various information or commands related to the installation, operation, or repair of a lighting system from a user; And

It relates to a lighting controller comprising a main control unit for controlling the overall operation of the components.

Another aspect of the present invention for achieving the above object is

Storing installation and control information of the lighting controller in a removable memory unit mounted to the lighting controller at the time of installation of the lighting system and at a database backup server located at a remote location;

Structuring the installation and control information of the lighting apparatuses managed by the lighting controller, and storing the information in a database backup server located at a remote location while storing the information in a removable memory unit that can be mounted to the lighting controller;

In the lighting system, when the control value of the lighting device changes, structuring information of the lighting controller and the lighting device and storing the information in a removable database memory server that can be mounted on the lighting controller and at the same time in a database backup server located at a remote location ;

Synchronizing the local database with the remote database when the control information of the lighting device and the lighting controller is dually stored in the removable memory unit and the remote database backup server in the previous steps;

When a failure occurs in the lighting controller and replaces it with another lighting controller, the existing lighting controller is managed by copying the existing lighting controller information by inserting a removable memory unit in which the control information of the existing lighting controller is stored in the newly installed lighting controller. A method for repairing a failure of a lighting system, comprising the step of repairing a failure by restoring communication with all the lighting devices to a new lighting controller.

According to the present invention, when a failure occurs in a Zigbee-based lighting system, the lighting controller can completely recover the previous system through only a few steps of user operation through the user interface, and thus, time and cost according to the failure recovery. Can greatly reduce the In addition, according to the present invention it is possible to avoid the error is set to the wrong configuration due to the operator's mistakes can be obtained an advantage that can be completely restored to the normal state.

Furthermore, since it can be applied to both the repair of the lighting controller and the lighting equipment, it is possible to provide an effect that makes it easier to develop the lighting system using Zigbee.

1 is a schematic block diagram of a lighting system that is easy to troubleshoot in an embodiment of the present invention.
2 is a flow chart of the lighting system installation step in the failure recovery method of the lighting system of an embodiment of the present invention.
3 is a flowchart of a fault recovery step using a removable memory unit in the fault recovery method of the lighting system according to an embodiment of the present invention.
4 is a flowchart illustrating a failure recovery step using a database backup server at a remote location in the failure recovery method of the lighting system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Embodiments of the present invention are shown by way of example, and are not limited to the configuration of the accompanying drawings. It is to be understood that other embodiments may be utilized and structural or logical changes may be made without departing from the scope of the present invention. Descriptions of well-known elements may be omitted or simplified in order not to obscure the present invention.

The lighting system according to an embodiment of the present invention includes a plurality of fixtures that are ZigBee end-devices, a database backup server, and a lighting controller including a ZigBee coordinator, hardware of a removable memory unit, and a failure recovery algorithm. The above fault recovery algorithm has three phases, a system installation step, a system operation step, and a system recovery step, and these steps constitute a failure recovery algorithm.

1 is a schematic block diagram of a lighting system that is easy to troubleshoot in an embodiment of the present invention. Referring to FIG. 1, the lighting system of the present invention includes one or more lighting devices 300 including a wireless communication module; A database backup server 200 located at a remote location with respect to the lighting devices, storing control information for each lighting device, and transmitting the control information to a lighting device that needs to be restored through a communication network when the lighting device breaks down; And a lighting controller 100 which receives control information about a specific lighting device from the database backup server and transmits the control information to each lighting device to restore a setting value of the lighting device. The lighting controller 100 is a WiFi module 20 for receiving control information of a specific lighting device from the database backup server, a Zigbee module 50 for transmitting and receiving control information with each lighting device, the overall operation of the lighting controller Removable memory unit for storing a predetermined program for controlling the control, backing up and storing the control information for each lighting device, and storing the data input and output and the various data processed when the overall operation of the lighting controller is performed ( 40) a user interface unit 30 for receiving input from the user of various information or commands related to the installation, operation or repair of the lighting system; And a main controller 10 for controlling the overall operation of each component.

In the lighting system of the present invention, the information on the installation and control of the lighting equipment is dually backed up to the database backup server 200 and the removable memory unit 40. Such control information is about the lighting equipment and the lighting controller. The information of the lighting controller may include a lighting controller name, installation location information, a Zigbee address, a Zigbee PAN ID, a Zigbee channel ID information, a user ID, and a password. Such control information can be optionally stored or modified in the installation, operation and recovery phases.

On the other hand, the information on the luminaire includes information such as luminaire name, luminaire Zigbee address, luminaire type, luminaire color information, luminaire brightness information, luminaire on / off scheduling information, luminaire group name, luminaire group ID, etc. It may include. In the lighting system of the present invention, one lighting device may operate as a repeater. The lighting device control information may include information about whether the lighting device is operated as a repeater and information about the lighting device managed as a repeater.

The user interface unit 30 may be a liquid crystal display device or a touch input device for providing a GUI environment when installing / operating / recovering a lighting device. The user interface unit displays the state or various information of the lighting system and receives various information or commands necessary for controlling the lighting system from the user. The removable memory unit 40 may be a removable SD card or a USB memory that may be inserted into or removed from the lighting controller, but is not necessarily limited thereto.

The lighting devices 300 may be lighting devices such as a plurality of incandescent lamps, fluorescent lamps, etc. installed in a building, or street lamps installed on the roadside for safety of the scenery or scenery lighting of streets such as mercury lamp, sodium lamp, halogen lamp, or the like. have. Preferably the lighting device may be an environmentally friendly LED lighting device having the advantages of low power, high brightness, high durability. The LED luminaire is a white light LED for illumination, and has a configuration in which at least one or more LEDs are arranged in an array form to ensure a predetermined brightness. In addition, the lighting apparatus may include a Zigbee communication unit for wirelessly communicating with the lighting controller in a Zigbee manner, or may communicate in a different wireless communication manner with the lighting controller.

The main controller 10 may be any type of processor capable of executing software, such as a microprocessor, a digital signal processor (DSP), a microcontroller, or the like.

Another aspect of the invention is located at a remote location with respect to the one or more luminaires having a wireless communication module having a wireless communication module, storing control information for each luminaire, failure of the luminaire A lighting controller for controlling installation and operation of lighting devices between a lighting device and a database backup server in a lighting system including a database backup server for transmitting the control information to a lighting device that needs to be restored through a communication network during recovery. Is

WiFi module for receiving control information for a specific lighting device from the database backup server,

Zigbee module for transmitting and receiving control information with each lighting device,

Stores a predetermined program that controls the overall operation of the lighting controller, and backs up and stores the control information for each lighting device, and stores data input and output and various data processed when the overall operation of the lighting controller is performed Removable removable memory,

A user interface unit for receiving various information or commands related to the installation, operation, or repair of a lighting system from a user; And

It relates to a lighting controller comprising a main control unit for controlling the overall operation of each of the components.

The Zigbee module of the lighting controller may be implemented in other ways when the wireless communication module of the lighting fixture uses a wireless communication method other than the Zigbee communication unit.

According to another aspect of the present invention, a lighting system for remotely controlling a plurality of lighting devices using a wireless communication method, and a method for quickly and accurately recovering from a failure or failure, mainly using a Zigbee communication method. Although it can be usefully used for the failure recovery of the lighting system, it can be advantageously applied to the failure recovery of the lighting system using a communication method other than the Zigbee communication method. In addition, a connection to a remote database backup server 200 may be accessed through a wired or wireless Internet. Connections can be made using WiFi or TCP / IP protocols, as well as communication networks such as GSM and GPRS, WCDMA, EDGE, and various wireless local area network (WLAN) technologies such as 802.11 and Bluetooth.

The failure recovery method of the lighting system described above may be performed as follows in the above-described lighting system installation step, system operation step, and system recovery step. The method of backing up all installation and operating information of lighting controllers and lighting equipment is applied for recovery in case of failure.

2 is a flow chart of a lighting system installation step in the failure recovery method of the lighting system of an embodiment of the present invention, Figure 3 is a flow chart of a failure recovery step using a removable memory unit in the failure recovery method of the lighting system of an embodiment of the present invention. 4 is a flowchart of a failure recovery step using a database backup server at a remote location in the failure recovery method of the lighting system according to an embodiment of the present invention.

When the lighting system is installed under the method of the present invention, the installation and control information of the lighting controller is stored in a removable database memory unit mounted on the lighting controller and stored in a database backup server located at a remote location. Structures the installation and control information of the lighting equipment, and stores this information in a removable removable memory that can be mounted to the lighting controller, and at the same time in a database backup server located in a remote location. The lighting controller information structure consists of the following information: lighting controller name, installation location information, Zigbee address, Zigbee PAN ID, Zigbee channel ID information, user ID and password, and the list of lighting equipment controlled by the lighting controller (luminaire name, Fixture Zigbee address, fixture type).

When the control value of the lighting device is changed in the lighting system, the information of the lighting controller and the lighting devices is structured, and the information is stored in a removable memory unit that can be mounted on the lighting controller and stored in a database backup server located at a remote location. The fixture information structure consists of the following information: fixture name, fixture Zigbee address, fixture type, fixture color information, fixture brightness information, fixture on / off scheduling information, fixture fixture group name, Luminaire group ID, whether the luminaire operates as a repeater, and luminaire information managed as a repeater (luminaire name, fixture zigbee address, luminaire type).

When the control information of the lighting device and the lighting controller is stored in the removable memory unit and the remote database backup server in duplicate, the local database and the remote database are synchronized. When a failure occurs in the lighting controller and replaces it with another lighting controller, the existing lighting controller is managed by copying the existing lighting controller information by inserting a removable memory unit in which the control information of the existing lighting controller is stored in the newly installed lighting controller. Repair all faults by restoring communication with all luminaires to the new light controller.

Each step of the method of the present invention is described in more detail as follows.

In the system installation step, the information of the lighting controller is first backed up. To this end, as shown in Figure 2, using the user interface of the lighting controller inputs the name and installation location of the lighting controller (S10). Each name and installation location of the input lighting controller may be duplicated with other lighting controller terminals, but both the name and the installation position information of the lighting controller should not overlap with other terminals at the same time. To this end, the communication with the database backup server checks whether there is a duplicate name and installation location information of the same registered lighting controller (S20). After the name and installation location information is input, the password is input (S30). If the database backup server does not exist, no duplicate check is performed. When it is confirmed that the input lighting controller name and installation location are not duplicated as a result of the duplication check, the lighting controller information is first transmitted to a database backup server at a remote location through the Internet, and is then primarily backed up and stored (S40). The control information of the lighting controller stored at this time is transmitted to the database backup server along with the Zigbee channel number, the Zigbee address and the Zigbee PanID. After the backup of the lighting controller control information, the secondary backup and storage at the same time in the removable removable memory unit installed in the lighting controller.

Since the information of the lighting device is backed up (S50). To do this, the individual luminaires are registered in the lighting controller using the user interface of the lighting controller, and the registered information, that is, the name of the fixture, the fixture zigbee address, the fixture type, the fixture LED type, the fixture color information, and the brightness of the fixture Information, lighting device ON / OFF schedule information, lighting device group ID and group name, and whether the lighting device operates as a repeater are transmitted to the server and stored, and simultaneously stored in the removable memory unit. When the luminaire operates as a Zigbee repeater, the names and zigbee addresses of the lower level luminaires managed as repeaters are also transmitted to the database backup server for storage, and at the same time, they are also stored in the removable memory unit.

 In the system operation stage: 1) If the group ID and group name of the lighting equipment are changed, the changed information is transmitted and stored in the database backup server and stored in the removable memory unit. 2) Changed information when the brightness of the luminaire changes, changed information when the color of the luminaire changes, and changed information when the ON / OFF schedule information of the luminaire changes, is transferred and stored to the database backup server, and removable and removable memory It is also stored in wealth. 3) When the repeater function of the lighting equipment is changed, the changed information is transmitted and stored in the database backup server and also in the removable memory unit.

 In the system recovery step, there is a method for recovering a lighting controller and a method for recovering a lighting device. There is a recovery method through a server and a recovery method through a removable memory unit for each method.

Referring to FIG. 3, a method of recovering a lighting controller through a removable memory unit may include inserting a removable memory unit storing information backed up to the lighting controller, and selecting a recovery function from a user interface of the lighting controller. In order to install all the information backed up from the existing lighting controller to the new lighting controller, all the lighting equipment information managed by the existing lighting controller is read from the removable memory unit and installed in the new lighting controller (S31). In addition, the existing lighting equipment information is read from the removable memory unit and installed in a new lighting controller (S32). By doing so, it is possible to recover the information on the installation and control of the luminaires of the previous light controller and the control information of the light controller in the newly replaced light controller.

 Referring to FIG. 4, in a method of recovering a lighting controller through a database backup server, a name or an installation location of an existing lighting controller is input and searched using a user interface of a new lighting controller (S41). If there is an existing lighting controller item among the searched items, select it, enter a password, and select a recovery function (S43). Information about the existing lighting controller is downloaded from the database backup server to the Internet and stored in the new lighting controller (S44). All lighting equipment information managed by the existing lighting controller is downloaded from the server and installed in a new lighting controller (S45).

Even when a failure or failure occurs in a lighting device to recover, there are a method of using a database backup server and a method of using a removable memory unit. First, a method of restoring a luminaire through a database backup server at a remote location selects a luminaire restoration function through a user interface of the lighting controller. Allocate the newly added luminaire with backup information of the failed luminaire from the server.

 The method of recovering a lighting device through the removable memory unit selects a lighting device recovery function from the lighting controller and allocates backup information of the failed lighting device received from the removable memory unit to the newly added lighting device.

While the invention has been shown and described in connection with preferred embodiments thereof, it will be appreciated that the invention can be variously modified and modified without departing from the spirit or scope of the invention as defined by the following claims. Those skilled in the art will readily understand. Therefore, the protection scope of the present invention will be defined by the claims and the equivalent range to be described later.

100: light controller 200: database backup server
300: illuminator 10: main control unit
20: WiFi module 30: user interface unit
40: removable removable memory 50: Zigbee module

Claims (15)

One or more luminaires having a wireless communication module;
A database backup server located at a remote location with respect to the lighting devices, storing control information for each lighting device, and transmitting the control information to a lighting device that needs to be restored through a communication network when the lighting device is damaged; And
Receiving the control information for a specific lighting device from the database backup server and transmits to each lighting device to include a lighting controller for recovering the setting value of the lighting device,
The lighting controller
WiFi module for receiving control information for a specific lighting device from the database backup server,
Zigbee module for transmitting and receiving control information with each lighting device,
Stores a predetermined program that controls the overall operation of the lighting controller, and backs up and stores the control information for each lighting device, and stores data input and output and various data processed when the overall operation of the lighting controller is performed Removable removable memory,
A user interface unit for receiving various information or commands related to the installation, operation, or repair of a lighting system from a user; And
Lighting system, characterized in that it comprises a main control unit for controlling the overall operation of the components.
The method of claim 1, wherein the control information includes information on a lighting device and information on a lighting controller, wherein the information of the lighting controller includes a lighting controller name, installation location information, a Zigbee address, a Zigbee PAN ID, and a Zigbee channel ID information. Lighting system, characterized in that it comprises a user ID and password and a list of lighting equipment controlled by the lighting controller.
According to claim 2, wherein the information about the lighting device is a fixture name, fixture Zigbee address, fixture type, fixture color information, fixture brightness information, fixture on / off scheduling information, fixture fixture group name, Illumination system comprising a luminaire group ID, whether the luminaire is operated as a repeater, or luminaire information managed as a repeater.
The illumination system of claim 1, wherein the user interface unit is a liquid crystal display device or a touch input device for providing a GUI environment.
The illumination system of claim 1, wherein the removable memory unit is an SD card or a USB memory.
The lighting system of claim 1, wherein the lighting devices are LED lighting devices.
One or more luminaires including a wireless communication module and located remotely with respect to the luminaires, storing control information for each luminaire, and recovering the control information through a communication network in the event of failure of the luminaire A lighting controller for controlling the installation and operation of lighting devices between a lighting device and a database backup server in a lighting system including a database backup server for transmitting to the lighting device, the lighting controller is
WiFi module for receiving control information for a specific lighting device from the database backup server,
Zigbee module for transmitting and receiving control information with each lighting device,
Stores a predetermined program that controls the overall operation of the lighting controller, and backs up and stores the control information for each lighting device, and stores data input and output and various data processed when the overall operation of the lighting controller is performed Removable removable memory,
A user interface unit for receiving various information or commands related to the installation, operation, or repair of a lighting system from a user; And
And a main controller for controlling the overall operation of each of the components.
Storing installation and control information of the lighting controller in a removable memory unit mounted to the lighting controller at the time of installation of the lighting system and at a database backup server located at a remote location;
Structuring the installation and control information of the lighting apparatuses managed by the lighting controller, and storing the information in a database backup server located at a remote location while storing the information in a removable memory unit that can be mounted to the lighting controller;
In the lighting system, when the control value of the lighting device changes, structuring information of the lighting controller and the lighting device and storing the information in a removable database memory server that can be mounted on the lighting controller and at the same time in a database backup server located at a remote location ;
Synchronizing the local database with the remote database when the control information of the lighting device and the lighting controller is dually stored in the removable memory unit and the remote database backup server in the previous steps;
When a failure occurs in the lighting controller and replaces it with another lighting controller, the existing lighting controller is managed by copying the existing lighting controller information by inserting a removable memory unit in which the control information of the existing lighting controller is stored in the newly installed lighting controller. And repairing the fault by restoring communication with all the luminaires to the new light controller.
The apparatus of claim 8, wherein the control information includes information about a lighting apparatus and information about a lighting controller, wherein the information of the lighting controller includes a lighting controller name, installation location information, a Zigbee address, a Zigbee PAN ID, and a Zigbee channel ID information. And a user ID or a password.
The apparatus of claim 8, wherein the information about the lighting device includes: lighting device name, lighting device Zigbee address, lighting device type, lighting device color information, lighting device brightness information, lighting device on / off scheduling information, lighting device lighting device group name, A lighting device failure recovery method comprising a lighting device group ID, whether the lighting device operates as a repeater, or lighting device information managed as a repeater.
The method according to claim 8, wherein the control value change of the lighting device is related to 1) group name and group ID, 2) brightness information of the lighting device, 3) on / off scheduling information of the lighting device, and 4) repeater function of the specific lighting device. A method of troubleshooting a lighting system, characterized in that one of the information.
The method of claim 8, wherein the transmitting of the control information to a database backup server at a remote location comprises transmitting to a database backup server at a remote location using WiFi and TCP / IP protocols.
The method of claim 8, wherein the method comprises: inputting only installation location information, a user ID, and a password of an existing lighting controller to a newly installed lighting controller when a lighting controller fails and is replaced with another lighting controller; And
The lighting system further comprises a step of repairing a failure by connecting to a database backup server at a remote site, downloading a database of the existing lighting controller, and restoring communication with all the lighting equipments managed by the existing lighting controller. To repair faults.
The method of claim 8, wherein when the lighting device has a failure and is replaced with another lighting device, the method copies all the control information of the existing lighting device stored in the removable memory unit from the lighting controller and downloads it to the lighting device to be replaced. And restoring the luminaire to its original state.
The method according to claim 8, wherein when the lighting device malfunctions and is replaced with another lighting device, the method downloads all the control information of the existing lighting device stored in the database backup server from the lighting controller and downloads it to the lighting device to be replaced. Restoring a lighting system further comprising the step of restoring the luminaire.

Images