KR20160093808A - THE DEVICE OF Energy-saving LED Light Control System for Emergency Recognition by using Voice - Google Patents

Abstract

The present invention relates to an emergency situation voice recognition based energy saving smart LED lamp control device. The device comprises: an LED lamp module (100) configured to emit LED light in accordance with a control signal of a smart control unit; a CDS sensor unit (200) configured to measure surrounding brightness of the LED lamp module; a sound impact sensor unit (300) for sensing a sound located on one side of the LED lamp module; an emergency situation voice recognition module (400); the smart control unit (500) connected to the LED lamp module, the CDS sensor unit, the sound impact sensor unit, the emergency situation voice recognition module, a CCTV camera unit, and an emergency situation speaker unit; the CCTV camera unit (600) located on one side of the LED lamp module; and an emergency situation warning sound expressing unit (700) located on one side of the CCTV camera unit.

Description

TECHNICAL FIELD [0001] The present invention relates to an intelligent LED light control device,

According to the present invention, the LED lighting module can be dimmed by 1% to 40% of the basic illuminance of the LED lighting module according to the surrounding brightness and the real-time clock setting period, so that energy can be saved. In case of emergency, Emergency situations where you can easily install a safety system in a detachable manner to respond to words such as "please help me", "help me", "save a person" And a control device.

Recent energy cost increases and stringent environmental codes have raised interest in energy-saving systems.

These systems combine with security solutions to provide a broad range of solutions, and deployment is underway as the cost of energy savings versus deployment costs is much more efficient.

Public places and alleys are bright in the daytime and have a large population flow rate. However, since people are rare at night time and the streetlights are turned off for a certain period of time, even if they have CCTV (Closed Circuit Television) .

In addition, although CCTV installed street lights are configured to be on for 24 hours without turning off, complaints about the waste of energy due to increased power consumption are rising.

In addition, the technical solutions of energy conservation and crime prevention are in a trade off state nationwide, and it is currently impossible to adequately provide solutions for both.

Korean Patent Registration No. 10-1043419

In order to achieve the above object, according to the present invention, the LED lighting module can be dimmed by 1% to 40% of the basic illuminance of the LED lighting module according to the surrounding brightness and the real-time clock setting period, Through the sound impact sensor part, the size of the sound and the specific voice data can be inputted correctly in case of emergency in the distance of 2m ~ 5m from the ground, and it is possible to accurately analyze whether the emergency situation is based on the size of sound and specific voice data It is possible to display the warning signal and the danger signal toward the emergency occurrence occurrence object and notify that the emergency situation has occurred to the peripheral object, It is easy to attach and detach the safety system to respond to words such as ",""Oh~~~"," And to provide a power saving smart LED lighting control device based on emergency speech recognition.

According to an aspect of the present invention, there is provided an emergency speech recognition based smart LED lighting control apparatus

An LED lighting module 100 that emits LED light according to a control signal of the smart control unit,

A CDS sensor unit 200 for measuring the ambient brightness of the LED lighting module,

A sound detection sound impact sensor unit 300 positioned at one side of the LED lighting module and sensing the size and sound of the sound generated at the bottom of the LED lighting module and transmitting the sensed sound to the voice recognition module,

The voice data of the sound transmitted from the sound detection sound impact sensor unit is collected and only the specific voice data related to the emergency situation is recognized through the food recognition process and classified into the voice data of the emergency situation, An emergency speech recognition module 400 for transmitting the emergency speech recognition module 400 to the controller,

LED lighting module, CDS sensor part, Sound impact sound sensor part for sound detection, Emergency speech recognition module, CCTV camera part, Emergency speaker part, and control the overall operation of each device, Dimming control is performed to 1% ~ 40% of the basic illuminance of the LED lighting module according to the brightness of the LED lighting module. Secondary comparison is made between the size of the sound and the emergency situation based on the specific voice data, A smart control unit 500 for controlling the personalized control signal to be transmitted in real time to the LED lighting module, the CCTV camera unit, and the emergency alert sound emitting unit,

A CCTV camera unit 600 located at one side of the LED lighting module and driven in accordance with the control signal of the smart control unit to photograph an image in which an emergency occurs,

And an emergency alert sound display unit 700 located at one side of the CCTV camera unit and driven according to a control signal of the smart control unit to display a warning sound and a voice warning broadcast toward the emergency occurrence inducing object.

As described above, in the present invention, the dimming control of the LED lighting module is performed by 1% to 40% of the basic illuminance of the LED lighting module according to the surrounding brightness and the real-time clock setting period, thereby improving the energy saving rate by 70% The sound impact sensor for sound detection can accurately input specific sound data and the size of sound generated in an emergency in a distance of 2 m to 5 m from the ground, After the comparative analysis of the situation, it is possible to control to transmit the 1: 1 customized control signal according to the emergency situation in real time to the LED lighting module, the CCTV camera part, and the emergency alert sound display part, , "Help me,""Helpme,""Helpme,""Helpme,""Helpme," and " Which can raise the rate of prevention of crime by 80% at low cost by easily installing a safety system in a removable manner so as to respond to words such as "~~~" and " It is effective.

1 is a configuration diagram showing components of an emergency situation-aware voice recognition based power saving smart LED lighting control apparatus 1 according to the present invention;
FIG. 2 is a configuration diagram showing components according to the use of the LED lighting module according to the present invention,
FIG. 3 is a diagram showing the components of an LED lighting module 100 including an LED lighting module 100a for an outdoor streetlight and an LED lighting module 100b for an interior lighting according to the present invention.
FIG. 4 is a diagram showing the components of an LED driving driver according to the present invention,
FIG. 5 is a block diagram showing the components of a sound impact sound sensor for sound detection according to the present invention;
FIG. 6 is a block diagram showing the components of the emergency voice recognition module according to the present invention.
FIG. 7 is a block diagram illustrating components of a smart control unit according to the present invention.
8 is a configuration diagram showing the components of the emergency situation analysis algorithm engine module according to the present invention.
FIG. 9 is a block diagram illustrating the components of a emergency situation voice recognition based smart LED lighting control system applied to an LED lighting module for an outdoor streetlight according to the present invention.
FIG. 10 is a flowchart illustrating an operation procedure of an emergency situation-aware recognition-based power saving type smart LED lighting control device applied to an LED lighting module for an outdoor streetlight according to an embodiment of the present invention.
FIG. 11 is a flowchart illustrating an operation procedure of a power saving smart LED lighting control apparatus based on an emergency situation voice recognition applied to an LED lighting module for an interior lighting according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram illustrating components of an emergency state speech recognition based power saving type smart LED lighting control apparatus 1 according to the present invention, which includes an LED lighting module 100, a CDS sensor unit 200, An emergency situation voice recognition module 400, a smart control unit 500, a CCTV camera unit 600, and an emergency alert sound display unit 700. The emergency sound alert module 300,

First, the LED lighting module 100 according to the present invention will be described.

The LED lighting module 100 emits LED light according to the control signal of the smart control unit.

As shown in FIG. 2, the outdoor lighting LED lighting module 100a and the indoor lighting LED lighting module 100b are largely constituted.

3, the LED lighting module 100 includes the LED lighting module 100a for the outdoor streetlight and the LED lighting module 100b for the interior lighting. The LED lighting module 100 includes a module body 110, an LED driving driver 120, An LED chip unit 130, a diffusion cover 140, and an LED SMPS unit 150.

First, the module body 110 according to the present invention will be described.

The module main body 110 is formed in a straight shape and protects and supports each device from external pressure.

This is formed by inserting a rubber packing member between the contact surface and the surface.

As described above, since the rubber packing member is formed in the module main body, foreign matter is prevented from flowing into the internal space of the module main body.

Second, the LED driver driver 120 according to the present invention will be described.

The LED driving driver 120 has a linear shape on one side of the inner space of the module body and drives the RGB LED chip according to the control signal of the smart controller.

As shown in FIG. 4, the fuse section 121, the NTC thermistor section 122, the surge observer section 123, the EMI line filter section 124, and the bridge rectifier section 125 are included.

The fuse unit 121 protects the circuit by blocking an overcurrent flowing along the LED lamp socket on one side.

When the NTC thermistor portion 122 has a large resistance among the initial voltages that have passed through the fuse portion and the voltage can not flow into the circuit, the NTC thermistor portion 122 causes the voltage to flow into the circuit while gradually reducing the resistance.

The surge observer 123 functions to filter electrical noise generated in the fuse unit and the current flowing into the NTC thermistor.

The EMI line filter unit 124 removes noise from the commercial AC power source that has passed through the surge observer.

The bridge rectifier 125 rectifies the voltage output from the EMI line filter unit to DC voltage, and supplies the voltage to the RGB LED chip.

Third, the LED chip unit 130 according to the present invention will be described.

The LED chip unit 130 includes an LED driving driver unit and a bidirectional PCB substrate. A plurality of RGB LED chips are formed in a line along a center line of the bidirectional PCB substrate to generate RGB LED lights.

Fourth, the diffusion cover 140 according to the present invention will be described.

The diffusion cover 140 is formed on the front surface of the LED chip part, and diffuses the emitted RGB LED light to the outside.

Fifth, the LED SMPS unit 150 according to the present invention will be described.

The LED SMPS (Switching Mode Power Supply) unit 150 is connected to the smart control unit to convert an AC current supplied from the outside into a direct current (DC) current according to the voltage and current of the LED lighting module, To the chip.

Next, the CDS sensor unit 200 according to the present invention will be described.

The CDS sensor unit 200 measures the ambient brightness of the LED lighting module.

This is a photoconductive effect in which the resistance value is reduced when light is emitted, and a sensing resistance is formed on one side.

Next, the sound detection sound impact sensor unit 300 according to the present invention will be described.

The sound-sensing sound impact sensor unit 300 is located at one side of the LED lighting module, sensing the size and sound of the sound generated at the bottom of the LED lighting module, and transmitting the sensing result to the emergency situation recognition module.

As shown in FIG. 5, the onboard microphone 310, the sound impact sensor IC unit 320, and the 3-pin header unit 330 are formed.

The on-board type microphone 310 receives the sound volume and voice generated from the lower end of the LED lighting module.

The sound impact sensor IC unit 320 sends a high-level pulse to a voice signal signal input from the on-board type microphone, triggers the sound signal, and converts the signal to a decibel level.

The 3-pin header section 330 is located at one side of the sound impact sensor IC section and serves to adjust the sensitivity with a 3-pin header of "0", "1", "2".

When a 3-pin header is selected on the "0" side, the sensitivity is set to be sensed on a distance of 1 m from the ground. When a 3-pin header is selected to the "1" When a 3-pin header is selected on the "3" side, it is set to sense sensitivity over a distance of 3 m to 5 m from the ground.

Next, the emergency voice recognition module 400 according to the present invention will be described.

The emergency voice recognition module 400 collects voice data related to the size and voice of the sound transmitted from the sound detection sound impact sensor unit, recognizes only specific voice data regarding the emergency through the food recognition process, And classifies the voice data as emergency voice data and transmits the voice data to the smart control unit.

As shown in FIG. 6, the system includes an index number generator 410, an emergency speech pattern generator 420, and an emergency situation speech learning algorithm engine 430.

The index number generator 410 provides the order of the voice data to be stored when the voice size data and the voice size data transmitted from the sound detection sound impact sensor unit are input.

The emergency voice pattern generator 420 previously generates and stores a reference voice data pattern for an emergency.

Here, the reference voice data on the pre-stored emergency situation may be any of the following three types of voice data in the case of an emergency, that is, "please help me,""helpme,""helpme,""ah~~~" It refers to one voice.

When the hardware input signal for starting the learning of the voice data in the emergency state is applied in the speech recognition start mode, the emergency situation voice learning algorithm engine unit 430 outputs the voice data currently inputted and the reference voice data And then classifies the voice data into emergency voice data.

Here, the voice data for the emergency state is specific voice data and can be cited by people such as "please help me", "help me", "live a person", "ah ~~", " .

Next, the smart control unit 500 according to the present invention will be described.

The smart control unit 500 is connected to the LED lighting module, the CDS sensor unit, the sound detection sound impact sensor unit, the emergency situation voice recognition module, the CCTV camera unit, and the emergency speaker unit, Firstly, the dimming control of the LED lighting module to 1% ~ 40% of the basic illuminance of the LED lighting module according to the brightness of the surroundings, and comparing and analyzing whether the emergency situation is based on the size of the second sound and specific voice data, 1: 1 customized control signal according to the emergency situation is controlled to be transmitted in real time to the LED lighting module, the CCTV camera part, and the emergency alert sound emitting part.

7, the power saving LED control module 510, the emergency situation analysis algorithm engine module 520, the emergency notification module 530, the real time clock section 540, And a video transmission module 550.

First, the power saving LED control module 510 according to the present invention will be described.

The power-saving LED control module 510 calculates the amount of change in the amount of light input from the CDS sensor unit and controls the dimming of the LED lighting module to 1% to 40% based on the brightness of the periphery of the LED lighting module.

This constitutes an A / D converter for calculating the amount of change in the amount of light input from the CDS sensor unit.

The A / D converter receives the voltage value of the sensor which changes according to the amount of light and is output.

At this time, the inputted voltage is converted into a digital value and processed, and the duty ratio of the PWM signal is determined differently depending on the range of the value.

The duty ratio is determined in the range of 1% ~ 40% of the basic illumination according to the brightness of the surrounding environment.

The output frequency of the PWM signal is determined by the timer (TIMER2) embedded in the MCU, and the PWM period is calculated as the reciprocal of the frequency.

The PWM period in this control unit is expressed by the following equation (1).

In this case, the value of the T2PR register (Timer2Period Register) is 255 (0xFF), 4 is the basic division ratio of the built-in prescaler, TOSC is the inverse number of 20MHz which is the crystal oscillator clock frequency, and T2PV (TIMER2 Prescale Value) And is designed to output a PWM signal of 1.2207 KHz, which is the frequency band used and set.

In order to ensure the accuracy, the light amount is measured every 0.5 second, and the accumulated value is divided by the measured number 20 every 10 seconds to calculate the average value. Then, after determining the duty ratio, the data value changes within a short time .

Second, the emergency situation analysis algorithm engine module 520 according to the present invention will be described.

The emergency situation analysis algorithm engine module 520 compares the size of the sound transmitted from the emergency situation voice recognition module with the specific voice data and compares the reference voice data and the reference specific voice data in a preset emergency situation, In a step-by-step manner.

As shown in FIG. 8, the specific voice data extraction unit 521, the reference specific voice data setting unit 522, and the emergency situation analysis control unit 523.

The specific voice data extracting unit 521 extracts specific voice data and the size of the voice transmitted from the emergency voice recognition module.

This can be achieved by selecting any one of "Let me live", "Help me", "I am alive", "Oh ~~~" Extract it.

The reference specific sound data setting unit 522 sets the reference sound data at the emergency state to 50 dB SPL or more, sets the keyword length to 4 syllable or more, 600 ms or more, and generates a signal-to-noise -ratio) to 12dB, and recognizes the voice as speaker-independent or speaker-dependent.

This is because the sound impact sound sensor for sound detection is installed on one side of the LED lighting module and the emergency sound is generated on the bottom of the LED lighting module, and the reference sound data in the emergency situation is set to 50 dBSPL or more in consideration of the sound wavelength.

Then, the reference specific voice data is set to "Live", "Help", "Live a person", "Oh ~~~", "

The emergency situation analysis control unit 523 compares and analyzes the reference specific voice data set by the reference specific voice data setting unit with the specific voice data extracted by the specific voice data extraction unit, .

When the specific voice data and the reference specific voice data are compared with each other, it is similar to the reference specific voice data. If the same or higher decibel is detected as the reference voice data, the highest emergency mode is set to the first emergency mode,

When the specific voice data and the reference specific voice data are compared, it is set as the intermediate emergency mode and the second emergency mode when the decibel is similar to the reference specific voice data but equal to or greater than the reference voice data,

When the specific voice data and the reference specific voice data are compared with each other, it is similar to the reference specific voice data, and when a decibel below the reference voice data is detected, it is set as the lower emergency mode and the third emergency mode.

Here, in the case of the first emergency mode and the second emergency mode, it is configured to immediately transmit the emergency situation notification module to the emergency situation notification module. In the case of the third emergency mode, And enters the standby state so as to sense whether or not it has arrived.

Third, the emergency notification module 530 according to the present invention will be described.

The emergency situation notification module 530 controls one or more of the LED lighting module, the CCTV camera module, and the emergency alert sound display module to be selected according to the emergency condition modeized through the emergency situation analysis algorithm engine module, Emits a warning signal and a danger signal toward the object causing the emergency, and informs the surrounding object that an emergency has occurred.

Fourth, a real time clock unit 540 according to the present invention will be described.

The real-time clock unit 540 sets the LEDs according to the dimming standard of the LED lighting module, and then turns on and off the LED SMPS power of the LED lighting module at a predetermined time.

Fifth, the emergency situation image transmission module 550 according to the present invention will be described.

When the emergency situation occurs, the emergency situation image transmission module 550 receives the images photographed by the CCTV camera unit, stores the images in the memory unit, and notifies the security management server 10 at a remote location via the WiFi communication network in real time do.

Next, the CCTV camera unit 600 according to the present invention will be described.

The CCTV camera unit 600 is located at one side of the LED lighting module and is driven in accordance with a control signal of the smart control unit to shoot an image in which an emergency occurs, in real time.

It consists of a PTZ camera rotating forward, backward, left, and right.

Next, the emergency alert sound display unit 700 according to the present invention will be described.

The emergency alert sound display unit 700 is located at one side of the CCTV camera unit and is driven according to a control signal of the smart control unit to display a warning sound and a voice alert broadcast toward the emergency occurrence inducing object.

This is constituted by a warning light 710 for displaying a warning sound and a speaker 720 for sending a voice warning broadcast.

Hereinafter, a specific operation of the emergency-state speech recognition-based power saving smart LED lighting control apparatus according to the present invention will be described.

[For outdoor streetlight LED  Illumination module 100a)

First, as shown in FIGS. 9 and 10, the LED lighting module for an outdoor streetlight emits LED light according to a control signal of a smart control unit.

Next, the ambient brightness of the LED lighting module for the outdoor streetlight is measured by the CDS sensor unit.

Next, the sound impact sound sensor for sound sensing senses the sound volume and voice generated at the bottom of the LED lighting module for outdoor streetlight and transmits the sensed sound to the voice recognition module.

Next, the emergency situation voice recognition module collects voice data related to the size and voice of the sound transmitted from the sound detection sound impact sensor unit, recognizes only the specific voice data related to the emergency situation through the food recognition process, And transmits them to the smart control unit.

Next, in the smart control unit, the LED lighting module for outdoor streetlight is controlled to 1% to 40% of the basic illuminance of the outdoor LED lighting module according to the surrounding brightness.

At this time, the smart control section controls the dimming control to 40% of the basic illuminance of the LED lighting module for the outdoor streetlight at the late night time (10:00 pm to 12:00 pm), and during the dawn (1:00 am to 4:00 pm) Since there is almost no, the real-time clock unit is driven to automatically turn off the power supply to the LED SMPS of the LED lighting module for outdoor streetlight.

Next, the smart control unit compares and analyzes the size of the sound and the emergency situation based on the specific voice data, and then transmits the 1: 1 customized control signal according to the emergency situation to the LED lighting module for outdoor streetlight, the CCTV camera unit, To be transmitted in real time to the warning sound display unit.

That is, in the emergency, the flashing cycle of the LED lighting module for the outdoor streetlight is increased to generate the "emergency light effect", and the CCTV camera section is driven to photograph the emergency occurrence object and the emergency situation in real time, And displays a warning signal and a danger warning signal to the emergency occurrence occurrence inducing object and informs the surrounding object that an emergency has occurred.

Finally, when an emergency occurs through the emergency video transmission module, the video captured by the CCTV camera unit is received and stored in the memory unit first, and then notified to the security management server at a remote location via the WiFi communication network in real time.

[Interior light LED  Illumination module 100b)

First, as shown in FIG. 11, the LED lighting module for interior lighting emits LED light according to the control signal of the smart control unit.

Next, the ambient brightness of the indoor LED lighting module is measured by the CDS sensor unit.

Next, the sound impact sound sensor for sound sensing senses the size and sound of the sound generated at the bottom of the LED lighting module for interior lighting, and transmits it to the voice recognition module.

Next, the emergency situation voice recognition module collects voice data related to the size and voice of the sound transmitted from the sound detection sound impact sensor unit, recognizes only the specific voice data related to the emergency situation through the food recognition process, And transmits them to the smart control unit.

Next, the smart controller firstly controls the indoor lighting LED lighting module to 1% to 40% of the basic illumination of the outdoor LED lighting module according to the surrounding brightness.

At this time, the smart control section controls the dimming control to 40% of the basic illumination of the LED lighting module for the interior lighting in the morning and afternoon hours (8:00 am to 5:00 pm), and for dimming control in the evening and midnight (6:00 pm to 12:00 pm) Control dimming by 10% of the basic illumination of the LED lighting module.

Next, the smart controller compares and analyzes the size of the sound and the emergency situation on the basis of the specific voice data, and then transmits the 1: 1 customized control signal according to the emergency situation to the LED lighting module for indoor use, CCTV camera, So that it is transmitted to the display unit side in real time.

That is, in an emergency, the flashing cycle of the LED lighting module for indoor light is increased to generate the "emergency light effect", and the CCTV camera section is driven to photograph the emergency occurrence object and the emergency position in real time, And displays a warning signal and a danger signal to the emergency occurrence inducing object, and notifies the surrounding object that an emergency has occurred.

Finally, when an emergency occurs through the emergency video transmission module, the video captured by the CCTV camera unit is received and stored in the memory unit first, and then notified to the security management server at a remote location via the WiFi communication network in real time.

1: Emergency Speech Recognition Based Smart Energy LED Smart Controller
100: LED lighting module 200: CDS sensor part
300: Sound impact sensor for sound detection unit 400: Emergency speech recognition module
500: Smart control unit 600: CCTV camera unit
700: Emergency alert tone display section

Claims (7)

An LED lighting module 100 that emits LED light according to a control signal of the smart control unit,
A CDS sensor unit 200 for measuring the ambient brightness of the LED lighting module,
A sound detection sound impact sensor unit 300 positioned at one side of the LED lighting module and sensing the size and sound of the sound generated at the bottom of the LED lighting module and transmitting the sensed sound to the voice recognition module,
The voice data of the sound transmitted from the sound detection sound impact sensor unit is collected and only the specific voice data related to the emergency situation is recognized through the food recognition process and classified into the voice data of the emergency situation, An emergency speech recognition module 400 for transmitting the emergency speech recognition module 400 to the controller,
LED lighting module, CDS sensor part, Sound impact sound sensor part for sound detection, Emergency speech recognition module, CCTV camera part, Emergency speaker part, and control the overall operation of each device, Dimming control is performed to 1% ~ 40% of the basic illuminance of the LED lighting module according to the brightness of the LED lighting module. Secondary comparison is made between the size of the sound and the emergency situation based on the specific voice data, A smart control unit 500 for controlling the personalized control signal to be transmitted in real time to the LED lighting module, the CCTV camera unit, and the emergency alert sound emitting unit,
A CCTV camera unit 600 located at one side of the LED lighting module and driven in accordance with the control signal of the smart control unit to photograph an image in which an emergency occurs,
And an emergency alert sound display unit (700) located at one side of the CCTV camera unit and driven according to a control signal of the smart control unit to display a warning sound and a voice warning broadcast toward the emergency occurrence inducing object Based smart smart LED lighting control.
The sound detection apparatus as claimed in claim 1, wherein the sound detection sound impact sensor unit (300)
An on-board type microphone 310 receiving the sound volume and voice generated at the lower end of the LED lighting module,
A sound impact sensor IC unit 320 for triggering a high signal to a signal signal of an input voice from an onboard microphone and converting the sound signal into a decibel level to detect it,
And a 3-pin header part (330) located at one side of the sound impact sensor IC part and adjusting the sensitivity with a 3-pin header of "0 "," 1 ","2" Smart LED lighting control unit.
The sound detection apparatus as claimed in claim 1, wherein the sound detection sound impact sensor unit (300)
When a 3-pin header is selected on the "0" side, it is set to sense the sensitivity on a distance of 1 m from the ground. When a 3-pin header is selected on the "1"Quot; is set to sense the sensitivity over a distance of 3 m to 5 m from the ground when the 3-pin header is selected.
The emergency speech recognition module (400) according to claim 1, wherein the emergency speech recognition module
An index number generating unit 410 for giving a sequence number of voice data to be stored when voice data of voice transmitted from the voice-sensing sound impact sensor unit is inputted,
An emergency speech pattern generator 420 for generating and storing a reference speech data pattern for an emergency in advance,
In the speech recognition start mode, when a hardware input signal for starting learning of voice data in an emergency is applied, the currently input voice data is compared with the reference voice data for a pre-stored emergency situation, And an emergency situation voice learning algorithm engine unit (430) for classifying the emergency situation.
The apparatus of claim 1, wherein the smart controller (500)
A power saving type LED control module 510 for calculating a variation amount of the amount of light input from the CDS sensor unit and dimming the LED lighting module according to the brightness of the periphery of the LED lighting module to 1% to 40%
An emergency situation analysis algorithm engine module that compares the size of the sound transmitted from the emergency situation voice recognition module with the specific voice data and compares the reference sound data and the reference specific voice data in the preset emergency situation to the emergency situation, (520)
According to the emergency situation which is made through the emergency situation analysis algorithm engine module, the LED lighting module, the CCTV camera unit, and the emergency alert sound display unit are controlled to be selected to select one or more alarm signals, An emergency notification module 530 for displaying a danger signal and informing the surrounding object of an emergency situation,
A real time clock unit 540 for setting the LED lighting module in accordance with the dimming standard of the LED lighting module, and automatically turning on / off the power supply of the LED SMPS of the LED lighting module in a predetermined time period,
And an emergency situation image transmission module 550 for receiving an image photographed by the CCTV camera unit in the event of an emergency, firstly storing the image in the memory unit, and then notifying the security management server at a remote place through a WiFi communication network in real time Emergency Speech Recognition Based Smart LED Lighting Control System.
6. The method of claim 5, wherein the emergency analysis algorithm engine module (520)
A specific voice data extracting unit 521 for extracting the size of the voice transmitted from the emergency situation voice recognition module and specific voice data,
The reference sound data at the time of emergency is set to 50 dBSPL or more, the length of the keyword is set to 4 syllable or more and 600 ms or more, the voice-to-noise-ratio (SNR) to the ambient noise is set to 12 dB, A reference specific voice data setting section 522 for recognizing the voice in the speaker dependent manner,
An emergency situation analysis control unit 523 for comparing and analyzing the reference specific voice data set by the reference specific voice data setting unit with the specific voice data extracted by the specific voice data extracting unit and controlling the emergency mode to be mode-wise Wherein the emergency LED is a light emitting diode.
7. The emergency analysis system according to claim 6, wherein the emergency situation analysis control unit (523)
When the specific voice data and the reference specific voice data are compared with each other and the decibel is similar to the reference specific voice data and decibel equal to or greater than the reference voice data is detected, the highest emergency mode is set to the first emergency mode,
When the specific voice data and the reference specific voice data are compared, it is set as the intermediate emergency mode and the second emergency mode when the decibel is similar to the reference specific voice data but equal to or greater than the reference voice data,
When the specific voice data and the reference specific voice data are compared with each other, the third emergency mode is set as the lower emergency mode when the decibel of the reference voice data is detected, Speech recognition based smart LED lighting control system.

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