KR20160102709A - Illumination system - Google Patents

Abstract

An embodiment of the present invention provides a lighting system capable of simultaneously controlling at least two lighting device registered in one lighting group comprising: a lighting device to output an optical signal containing device ID when receiving an ID request packet; and a terminal device to extract the device ID contained in the optical signal inputted after transmitting the ID request packet, transmit an identification control signal to the lighting device based on the device ID, register the device ID to a lighting group where a plurality of device IDs are registered if the lighting device operates in response to the identification control signal, and control operation of a plurality of lighting devices registered on the lighting group.

Description

[0001] Illumination system [0002]

An embodiment relates to an illumination system.

Recently, mobile communication technology has been growing rapidly. With the growth of mobile communication technology, the proportion of individuals possessing portable devices capable of communicating is increasing day by day.

Typically, portable terminal devices carried by individuals can operate various mobile communication technologies or short-range wireless communication technologies. Zigbee, Z-wave, Bluethooth, and the like are examples of the short-distance wireless communication methods used by the portable terminal devices.

In the case of using the short-range wireless communication method, the portable terminal device can adjust the frequency band and the signal transmission period, and by using a relatively small memory, power consumption is low and long life can be guaranteed. In addition, there is an advantage in that it can be manufactured at low cost by adopting a simple hardware configuration.

As the short-range wireless communication technology advances, the indoor lighting devices can be easily controlled by the portable terminal device. Conventionally, lighting devices have been used only for basic purpose of controlling the illuminance of a room. With the development of technology, it is necessary to study the direction of improving the convenience of living of individual or group by controlling lighting devices.

In recent years, studies are underway for changing and registering a unique address and a device id set and registered by an external device, for example, a portable terminal device.

An object of an embodiment is to provide an illumination system capable of simultaneously registering at least two or more lighting devices located in a group area in which a terminal device is set among a plurality of lighting devices as a lighting group, It is in providing the frame.

The illumination system according to the embodiment may include an illumination device that outputs an optical signal including a device id when receiving an id request packet and the device id included in the optical signal input after transmitting the id request packet, id, and when the lighting device operates according to the identification control command, registers the device id in a lighting group in which a plurality of device ids are registered, and registers the device ID in the lighting group And a terminal device for controlling operation of the plurality of illuminated devices.

The lighting system according to the embodiment is capable of performing optical communication and wireless communication between the terminal device and the lighting device, wherein the terminal device senses the optical signal output from the lighting device, and based on the drive id set in the lighting device, The operation of the plurality of lighting devices registered in the lighting group can be controlled simultaneously by registering the device id in the set lighting group when the lighting device operates in correspondence with the identification control signal.

1 is a system block diagram schematically illustrating an illumination system according to an embodiment.
2 is a control block diagram showing a control configuration of the illumination system shown in Fig.
3 is a flow chart illustrating a method of operating an illumination device included in an illumination system according to an embodiment.
4 is a flowchart illustrating a group registration method of a terminal device included in the illumination system according to the embodiment.
5 is a flowchart illustrating a group control method of terminal devices included in the illumination system according to the embodiment.

Hereinafter, embodiments will be described in detail with reference to the drawings.

1 is a system block diagram schematically illustrating an illumination system according to an embodiment.

Referring to FIG. 1, the illumination system may include first to third illumination devices 110 to 130 and a terminal device 150.

In the embodiment, the first to third illuminating devices 110 to 130 are described as three illuminating devices, but the number of the illuminating devices is not limited.

Each of the first to third lighting devices 110 to 130 may be a fluorescent light device and a BLU type light device, and may be any other lighting device capable of performing near field wireless communication and optical communication, .

In addition, the first to third lighting devices 110 to 130 are spaced apart from each other in an indoor space, and may be installed on a wall surface and a ceiling forming an indoor space, but are not limited thereto.

Each of the first to third illuminating devices 110 to 130 has a device id set therein and when the id request packet idqs is transmitted from the terminal device 150, Can be output.

Each of the first to third illuminating devices 110 to 130 can operate on and off repeatedly in a predetermined pattern when the identification control signal idps is transmitted from the terminal device 150. [

The first to third illuminating devices 110 to 130 may be connected to the terminal device 150 via Bluetooth, Radio Frequency Identification (RFID), infrared data association (IrDA), Ultra Wideband (UWB), ZigBee ), And receive the ip request packet idqs and the identification control signal idps.

The terminal device 150 may be, for example, a portable mobile communication terminal, a wearable device, a notebook computer device, or the like, and may be any electronic device capable of wireless communication with the first to third lighting devices 110 to 130, It is not limited to this.

At this time, the terminal device 150 transmits an id request packet idqs to the first to third illuminating devices 110 to 130, (idrs) sequentially and extracts a drive id included in the optical signals idrs.

Then, the terminal device 150 transmits the identification control signals idps to the first to third illuminating devices 110 to 130 based on the drive id.

When the terminal device 150 receives the operation result signal idcs corresponding to the identification control signal idps to each of the first to third illumination devices 110 to 130, the first to third illumination devices 110 to 130 ) Is set in the set group area, the device id is registered as the lighting group, and the operation for the plurality of lighting devices registered in the lighting group is integrally controlled.

2 is a control block diagram showing a control configuration of the illumination system shown in Fig.

Referring to FIG. 2, the illumination system may include first to third illumination devices 110 to 130 and a terminal device 150.

The first lighting device 110 may include a first light emitting module 112, a first communication module 114, and a first driving module 116.

The first light emitting module 112 may include a plurality of light emitting diodes (LEDs) that emit light into an indoor space, and the plurality of LEDs may be SMD type light emitting device packages, and the red, green, And may emit at least one of white light, but is not limited thereto.

In addition, the plurality of LEDs may be other elements capable of emitting light, but are not limited thereto.

At this time, the first light emitting module 112 can output the first optical signal idrs1 under the control of the first driving module 116. [

Here, the first optical signal idrs1 is a signal including the set first device id by rapidly supplying and blocking the driving power supplied to the plurality of LEDs so that the user can not visually confirm the driving power.

The first communication module 114 may receive the id request packet idqs and the identification control signal idps transmitted from the terminal device 150. [

That is, the first communication module 114 receives the id request packet idqs and the identification control signal idps by performing near field wireless communication as described above with reference to FIG. 1, and controls the first driving module 116 And transmits the first operation result signal idcs1 to the terminal device 150 according to the first operation result signal idcs1.

The first driving module 116 may supply the driving power to the plurality of LEDs included in the first light emitting module 112 so that the plurality of LEDs are turned on and off.

At this time, when the id request packet idqs is transmitted from the terminal device 150, the first driving module 116 outputs the first optical signal idrs including the set first device id to the first light emitting module 112 Can be controlled.

When the identification control signal idps is transmitted from the terminal device 150 to the first driving module 116, at least one of the plurality of LEDs included in the first light emitting module 112 is turned on and off And the first operation result signal idcs1 may be controlled to be transmitted to the terminal device 150. In this case,

Each of the second and third lighting devices 120 and 130 includes the second and third light emitting modules 122 and 132, the second and third communication modules 124 and 134, , And three driving modules 126 and 136. [

That is, the second light emitting module 122 has the same characteristics as the first light emitting module 112, so that it can output the second optical signal idrs2 including the second device id set to the terminal device 150 .

The third light emitting module 132 has the same characteristics as the first light emitting module 112 and can output the third optical signal idrs3 including the third device id set in the terminal device 150 .

Each of the second and third communication modules 124 and 134 may receive the id request packet idqs and the identification control signal idps transmitted from the terminal device 150, The second and third operation result signals idcs2 and idcs3 may be transmitted to the terminal device 150 under the control of the control unit 136. [

When the id request packet idqs is transmitted from the terminal device 150, the second and third drive modules 126 and 136 transmit the second and third optical signals idrs2, idrs2, the driving power supplied to the second and third light emitting modules 122 and 132 can be controlled so that the first and third light emitting modules 122 and 132 are output.

When the identification control signal idps is transmitted from the terminal device 150 to each of the second and third drive modules 126 and 136, At least one of the first and second operation result signals idcs2 and idcs3 may be controlled so as to be repeatedly operated by a predetermined number of times, and the second and third operation result signals idcs2 and idcs3 may be transmitted to the terminal device 150. [

The terminal device 150 may include an input module 152, a terminal communication module 154, a sensor module 156, and a control module 158.

The input module 152 may input at least one of a group creation command, a group control command, and a deregistration command.

That is, the input module 152 may input the group generation command so that at least one of the first to third lighting devices 110 to 130 is registered as a set lighting group.

Also, the input module 152 can input the group control command, and can integrally control the lighting group in which at least one of the first to third lighting devices 110 to 130 is registered according to the group generating command.

The input module 152 may input the group control command and may cause at least one of the first to third lighting devices 110 to 130 to be unregistered in the lighting group according to the group generation command.

The terminal communication module 154 may transmit an id request packet idqs and an identification control signal idps to at least one of the first to third illuminating devices 110 to 130. The first to third illuminating devices 110, 130 and outputting the first to third operation result signals idcs1 to idcs3.

The sensor module 156 sequentially receives the first to third optical signals idrs1 to idrs3 output from the first to third lighting devices 110 to 130 and sequentially outputs the first to third optical signals idrs1 to idrs3 The first to third sensing signals s1 to s3 corresponding to the first to third sensing signals s1 to s3.

At this time, the sensor module 156 may output the first to third sensing signals s1 to s3 whose power levels are varied according to the first to third optical signals idrs1 to idrs3, respectively.

When the group generation command is input from the input module 152, the control module 158 generates an id request packet idqs (idqs) for requesting the first to third drive IDs set to the first to third lighting devices 110 to 130, The terminal communication module 154 may control the terminal communication module 154 to transmit the data.

When the first to third sensing signals s1 to s3 corresponding to the first to third optical signals idrs1 to idrs3 are transmitted from the sensor module 156 to the control module 158, The first to third device id can be extracted from each of the sensing signals s1 to s3.

The control module 158 can control the identification control signal idps to be transmitted to the first to third illuminating devices 110 to 130 in order to sequentially register as a lighting group based on the first to third device ids have.

At this time, when the first to third operation result signals idcs1 to idcs3 are input from the first to third lighting devices 110 to 130, the control module 158 controls the first to third lighting devices 110 to 130 ) Is set in the set group region, and if the registration cancel command is not inputted from the input module 152, the first to third device id can be registered in the lighting group.

The control module 158 receives the first to third operation result signals idcs1 to idcs3 from the first to third lighting devices 110 to 130 and receives the registration cancel command from the input module 152 If so, at least one of the first to third lighting devices 110 to 130 corresponding to the deregistration command can be unregistered in the lighting group.

The control module 158 also receives a group control command from the input module 152. When the group control command is input from the input module 152, the control module 158 controls the plurality of lighting devices 110 to 130, which include at least one of the first to third lighting devices 110 to 130 registered in the lighting group Can be controlled to be turned on and off.

That is, when the group control command is inputted and an arbitrary optical signal including an arbitrary drive id among the plurality of drive ids registered in the illumination group is input, An on-control signal (not shown) for controlling the plurality of lighting devices having a plurality of drive ids to be turned on can be transmitted to the plurality of lighting devices.

When the group control command is input and a plurality of optical signals including each of the plurality of drive ids registered in the illumination group are not inputted, the control module 158 controls the plurality of drives (not shown) for controlling the plurality of devices having the id to be turned off can be transmitted to the plurality of lighting devices.

The lighting system according to the embodiment registers the lighting group by using the terminal device 150 through at least two or more lighting devices installed in an arbitrary group area in an indoor space provided with a plurality of lighting devices through optical communication and wireless communication, There is an advantage in that the operation for at least two or more lighting devices registered in the lighting group can be controlled.

3 is a flow chart illustrating a method of operating an illumination device included in an illumination system according to an embodiment.

FIG. 3 illustrates a method of operating the first lighting device 110 among the first through third lighting devices 110 through 130, and the second and third lighting devices 120 and 130 may operate in the same manner.

Referring to FIG. 3, the first lighting device 110 receives the id request packet idqs transmitted from the terminal device 150 (S110).

The first lighting device 110 outputs the first optical signal idrs including the first device id set according to the id request packet idqs to the terminal device 150 (S120).

The first lighting device 110 receives the identification control signal idps from the terminal device 150 (S130).

The first illumination device 110 operates on and off according to the pattern set corresponding to the identification control signal idps and outputs the first operation result signal idcs1 to the terminal device 150 in step S140.

4 is a flowchart illustrating a group registration method of a terminal device included in the illumination system according to the embodiment.

FIG. 4 illustrates a group registration method for the first lighting device 110 among the first to third lighting devices 110 to 130, and the second and third lighting devices 120 and 130 may operate in the same manner.

Referring to FIG. 4, when a group creation command is inputted, the terminal device 110 transmits an id request packet idqs to the first to third lighting devices 110 to 130 installed in the indoor space at step S210.

The terminal device 110 determines whether the first optical signal idrs1 including the first device id output from the first lighting device 110 is sensed (S220).

The terminal device 110 outputs the first sensing signal s1 when the first optical signal idrs1 is sensed at step S230.

The terminal device 110 extracts the first device id from the first sensing signal s1 at step S240 and transmits the identification control signal idps to the first lighting device 110 based on the first device id (S250).

At this time, the terminal device 110 determines whether the first operation result signal idcs1 transmitted in response to the identification control signal idps is transmitted from the first illumination device 110 (S260).

The terminal device 110 judges whether a registration cancel command is input when the first operation result signal idcs2 is transmitted (S270). If the registration cancel command is not inputted, the terminal device 110 registers the first device id in the predetermined lighting group (S280).

In step S270, the terminal device 110 determines whether the first optical signal idrs1 is not input in step S220, the first operation result signal idcs1 is not transmitted in step S260, When the registration cancel command is input, group registration for the second and third lighting devices 120 and 130 is sequentially performed.

5 is a flowchart illustrating a group control method of terminal devices included in the illumination system according to the embodiment.

5 illustrates an example in which the first and second lighting devices 110 and 120 of the first to third lighting devices 110 to 130 are registered as lighting groups in the terminal device 150, Do not.

5, when the group control command is input (S310), the terminal device 150 transmits the first and second optical signals idrs1 (i) and i2r2 outputted from the first and second lighting devices 110 and 120 , and idrs2 (S320).

When at least one of the first and second optical signals idrs1 and idrs2 is detected in step S320, the terminal device 150 controls the first and second lighting devices 110 and 120 to be turned on And transmits the signal to the first and second lighting devices 110 and 120 (S330).

If the first and second optical signals idrs1 and idrs2 are not sensed in step S320, the terminal device 150 outputs an off control signal so that the first and second lighting devices 110 and 120 are in a mode-off state. 1, and 2 to the lighting devices 110 and 120 (S340).

The embodiments of the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (11)

an illumination device for outputting an optical signal including a device id when receiving the id request packet; And
Extracts the device id included in the optical signal input after transmitting the id request packet, transmits an identification control signal to the lighting device based on the device id, and when the lighting device operates according to the identification control command And a terminal device for registering the device id in a lighting group in which a plurality of device ids are registered, and controlling an operation for a plurality of lighting devices registered in the lighting group. The method according to claim 1,
The lighting device includes:
A light emitting module including a plurality of LEDs for outputting the optical signal;
A communication module for receiving the id request packet; And
And a driving module for controlling driving power supplied to the light emitting module so that the optical signal corresponding to the device id is output when the id request packet is received. 3. The method of claim 2,
The driving module includes:
And supplies the driving power to the predetermined power supply pattern corresponding to the device id. 3. The method according to claim 2,
The communication module includes:
Receiving the identification control signal,
The driving module includes:
Wherein at least one of the plurality of LEDs controls the ON and OFF operations to be repeatedly operated a predetermined number of times when the identification control signal is received. The method according to claim 1,
The terminal device comprises:
A terminal communication module for transmitting the id request packet and the identification control signal;
A sensor module for outputting a detection signal corresponding to the optical signal when the optical signal output from the illumination device is input;
Controls the terminal communication module to transmit the id request packet requesting the drive id to the lighting device, extracts the drive id from the sensing signal output from the sensor module, And a control module to control the terminal communication module such that the identification control signal is transmitted to register as a group. 6. The method of claim 5,
The terminal communication module includes:
And transmits the identification control signal to the lighting device based on the drive id. 6. The method of claim 5,
The sensor module includes:
And at least one illuminance sensor for outputting the detection signal corresponding to the optical signal when the optical signal is input. 6. The method of claim 5,
The control module includes:
Determines that the lighting device is installed in the set group area based on an operation result signal of the lighting device corresponding to the identification control signal through the terminal communication module and registers the device ID in the lighting group. 6. The method of claim 5,
An input module for inputting a deregistration command,
The control module includes:
And canceling the registration of the drive id in the lighting group when the register cancel command is input. 6. The method of claim 5,
The control module includes:
And controls the plurality of lighting devices having the plurality of drive IDs registered in the lighting group to be turned on when an arbitrary optical signal including any of the plurality of drive ids registered in the lighting group is inputted On control signals to the plurality of lighting devices. 6. The method of claim 5,
The control module includes:
An off-control signal for controlling the plurality of devices having the plurality of drive-id registered in the illumination group to be turned off when a plurality of optical signals including each of the plurality of drive- To the plurality of lighting devices.

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