KR20160089674A - System and method for providing natural space service platform with smart convergence - Google Patents

Abstract

The present invention relates to a system and a method to provide a smart fusion natural space service platform, capable of providing functional, psychological, and esthetic satisfaction to users, having a space, by developing a system to graft information technology (IT) into light, wind, and sound environments which are factors of a space. The system to provide a smart fusion natural space service platform includes: a monitoring part sensing ingredient and sound states of air and the illuminance of an indoor environment in a natural space in which the platform is installed; a big data part generating control information to provide an optimal sound, an optimal wind direction, and optimal lighting by comprehensively determining illuminance information, wind information, and sound information, transmitted through the monitoring part, and information received from an internal database; and a platform receiving the control information from the big data part to process a service corresponding to the control information. Therefore, the present invention is capable of making an eco-friendly spatial environment, similar to the natural space, in the platform in response to a demand for an eco-friendly space.

Description

TECHNICAL FIELD [0001] The present invention relates to a system and a method for providing a smart fusion natural space service platform,

The present invention relates to a system and method for providing a smart convergence natural space service platform, and more particularly, to a system and method for providing a smart fusion natural space service platform by developing a system that combines light, sound, and wind environments of space elements with information technology To a system and method for providing a smart convergence natural space service platform capable of providing functional, psychological, and aesthetic satisfaction to those in the home.

People in most scientific and technological systems often refer to our current society as the "digital convergence" era. This digital convergence is creating new value as the existing industry and industry converge through IT integration. Furthermore, it is promoting various changes such as changes in corporate value and restructuring of the industrial structure. Mobile, smart, and cloud computing are key technologies in this technological direction of convergence. As convergence deepens, 'smart' is getting attention, and it is emerging as a big economic and social phenomenon including convergence.

As a current socio-economic phenomenon, smart means that individuals and industries are highly intelligent. The key characteristic of smart is 'intelligence', but the smart age does not mean only these characteristics. The smart age did not appear suddenly but it could be a new paradigm that emerged because of the convergence of intelligence and intelligent information technologies such as mobility and convergence in the age of ubiquitous network, . In other words, in the process of convergence of industry and technology through the convergence era, new values and businesses that were not experienced in the past due to intelligent technologies were born. Recent domestic and overseas technology trends are rapidly changing paradigm due to convergence between visible and invisible areas, convergence of technology, and convergence of devices. This change is also a catalyst for the paradigm of space, and the U-city project is a good example.

U-city is a state-of-the-art city that can integrate IT infrastructure and ubiquitous information service into city space to improve the convenience of city life, systematically manage city, and create new industry. This u-city is expected to evolve into Mega City, Smart City and Smart Green City. Megacity is more than 10 million in population, enabling the city to live in everyday life, and Smart City means the city where ubiquitous service technology is applied. Smart Green City is a city where service, environment-friendly, energy-saving facilities and services are converged, and pursues a city with a comfortable environment where human ubiquity is combined with advanced ubiquitous technology and ecological technology.

Smart technology is not a technology itself, but a technology that makes individuals and industries smarter. Smart technologies to provide personalized products and services that can sensitively recognize situations occurring everywhere and respond quickly through analysis and prediction can be used for sensing, intelligence, mobility, elasticity ), And integration (5).

Smart technology will serve as a driving force to create new businesses in each industry and to continuously evolve and develop. Several smart technologies have been applied to industrial areas, which have led to changes in new industries that were previously impossible or impossible.

These new businesses will continue to evolve and evolve as new businesses in smart industries are created through the continuous fusion of smart technologies. The aforementioned smart technologies are rapidly changing our lives by combining various industries and technologies in the city, home, factory, work, and entertainment.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a smart convergence natural space service platform, which is designed to meet the above-mentioned necessity, and which can produce a natural environment- Providing system and method.

Another object of the present invention is to provide a system and method for providing a smart fusion natural space service platform that provides a pleasant and healthy human-friendly spatial environment by providing functional, psychological, and aesthetic satisfaction.

According to an aspect of the present invention, there is provided a system for providing a smart fusion natural space service platform, comprising: a monitoring unit for sensing illuminance, air components, and acoustic conditions of an indoor environment in the natural space in which the platform is installed; A large data portion for generating control information for providing optimal illumination, optimal wind direction and optimum sound by collectively determining the illumination information, wind information, and sound information transmitted through the monitoring portion and information received from an internal database, ; And a platform for receiving the control information from the big data unit and processing the corresponding service corresponding to the control information.

The monitoring unit may include a light sensing unit including a plurality of optical sensors installed in various places in the platform to sense ambient illuminance, color temperature, luminance, color rendering, and illuminance difference; An air sensing unit including a plurality of wind direction sensors and an air component analysis sensor installed in various places of a platform for sensing ambient air flow and components of air; An acoustic sensor including an acoustic sensor for sensing a waveform of a low and high sound of surrounding acoustic; A target sensing unit for sensing image information using at least one of a camera including an infrared sensor, an ultrasonic sensor, and an image analyzer for sensing a person to be a service target; And a communication unit for wireless communication with the big data unit and the platform.

The big data unit includes a controller for recognizing each of the illumination information, the color temperature information, the luminance information, the color rendering information, the wind information, and the sound information transmitted through the monitoring unit. Color temperature information, luminance information, color rendering information, wind information, and sound information recognized by the controller 230 and comprehensively determines the information received from the internal database, A service determining unit for determining a wind direction and an optimum sound; A database for providing information for the service determiner to determine optimal illumination, optimal wind direction and optimal sound; And a communication unit for wirelessly communicating with the monitoring unit and the platform.

The database provides information on appropriate lighting, noise, and air quality management in response to information on life patterns according to sex, age, and occupation according to the modern lifestyle changes.

The database collects and analyzes seasonal, time-dependent light, illuminance, color temperature, luminance, and color rendering properties.

Wherein the platform comprises: an illumination unit configured to provide indoor illumination close to sunlight from a bright illumination to a dark illumination according to control information from the big data unit; An air conditioner configured to generate a flow of air by an electric fan, an air purifier, and a humidifier according to control information from the big data unit, to purify the air and adjust the humidity; An acoustic unit for providing a corresponding sound according to control information from the big data unit, and a communication unit for wireless communication with the monitoring unit and the big data unit.

The control unit uses the image information received from the target detection unit to determine the number of persons to be served, the gender of the target, and the age range of the target.

A monitoring unit for sensing the illuminance, the air component and the acoustic state of the indoor environment in the natural space in which the platform is installed; illuminance information, color temperature information, luminance information, color rendering information, wind information, and sound information transmitted through the monitoring unit; A big data part for collectively determining information received from an internal database and generating control information for providing optimal illumination, an optimal wind direction and an optimum sound, and a control part for receiving control information from the big data part and corresponding to control information The method comprising the steps of: generating a sensing information by sensing a current state of the smart fusion natural space service platform; The big data unit receiving the sensing information and analyzing the sensing information; Wherein the big data unit determines a service using the analyzed information in the analyzing process; And the platform processes the service using the service determined information.

The system and method for providing a smart fusion natural space service platform according to the present invention has the effect of directing a natural environment-friendly spatial environment similar to a natural space to a platform in response to a demand for a natural-friendly space.

In addition, the system and method for providing a smart convergence natural space service platform according to the present invention provides a satisfactory functional, psychological, and aesthetic satisfaction, thereby providing a pleasant and healthy human-friendly spatial environment.

1 is a block diagram schematically showing a configuration of a smart fusion natural space service platform providing system according to an embodiment of the present invention;
2 is a flowchart illustrating a process of providing a service platform in a smart fusion natural space according to an embodiment of the present invention;

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings showing embodiments of the present invention. 1 is a block diagram schematically showing a configuration of a system for providing a smart fusion natural space service platform according to an embodiment of the present invention. The present invention comprises a monitoring unit (100), a big data unit (200), and a platform (300).

The monitoring unit 100 may be installed in various places of the platform 300 to sense the illuminance, color temperature, luminance, color rendering, air components, and sound of the indoor environment of the platform 300. The monitoring unit 100 includes a lighting sensing unit 110, an air sensing unit 120, a sound sensing unit 130, and a communication unit 140.

As described above, the illumination sensing unit 110 may include a plurality of optical sensors installed in various places in the platform 300 for sensing ambient illuminance, color temperature, luminance, color rendering, and illuminance difference. For example, the illuminance information, color temperature information, luminance information, and color rendering information sensed by the optical sensor installed in various places of the platform 300 are transmitted to the big data unit 200. The optical sensor installed in various places of the platform 300 may be integrally formed with a plurality of lights constituting the lighting unit 310 of the platform described later or may be installed around a plurality of lights constituting the lighting unit 310 . Here, the illuminance information, color temperature information, luminance information, and color rendering information are collectively referred to as illuminance information for convenience. However, each of the illuminance information, color temperature information, luminance information, and color rendering information are different information, which is referred to as illuminance information for convenience.

The air sensing part 120 may include a plurality of wind direction sensors and an air component analysis sensor installed in various places of the platform 300 for sensing ambient air flow and air components. For example, the wind direction sensors installed in various places of the platform 300 and the wind information sensed by the air component analysis sensor are transmitted to the big data unit 200. The wind direction sensor and the air component analysis sensor installed in various places of the platform 300 may be installed around a plurality of fans constituting the air conditioner 320 of the platform 300 described later or may constitute the air conditioner 320 The air cleaner can be installed around the air cleaner or around the humidifier.

The sound sensing unit 130 may include an acoustic sensor for sensing the waveform of the high and low sound of the ambient sound. For example, the acoustic information sensed by the acoustic sensor installed in the platform 300 is transmitted to the big data unit 200. The acoustic sensors installed in various places of the platform 300 may be acoustic sensors installed around a plurality of audio units constituting the acoustic unit 330 of the platform 300 described later.

The object detection unit 150 can detect a person to be a service target. For example, the object sensing unit 150 may include an infrared sensor, an ultrasonic sensor, or an image analyzer capable of analyzing images captured by a camera and a camera. Preferably, the object sensing unit 150 includes a camera and an image analysis unit, and the analyzed image information is transmitted to the big data unit 200. The number of persons to be served, the sex of the object, and the age range of the object can be grasped by using the image information analyzed by the object detection unit 150. [ For example, it is information that can grasp the number of people in the area A in the platform 300, and can grasp the gender composition and age-group composition of the number of persons.

The communication unit 140 receives the illumination information sensed by the optical sensor of the illumination sensing unit 110, the wind direction information of the air sensing unit 120 and the wind information sensed by the air component analysis sensor, And transmits the detected sound information and the image information sensed by the object sensing unit 150 to the control unit 230 through the communication unit 240 of the big data unit 200. [

Meanwhile, the communication units 140, 240, and 340 configured in the monitoring unit 100, the big data unit 200, and the platform 300 are responsible for communication between areas. The communication units 140, 240, and 340 may be the object Internet that communicates with other objects using the object Internet, or may communicate using other wired / wireless communication methods. For example, the communication units 140, 240, and 340 may be the Internet, a wireless LAN including Wi-Fi, a Bluetooth communication, a Ziebee communication, an ad hoc communication, . However, it is preferably implemented in a wireless communication system, in particular, the Internet.

The control unit 230 of the big data unit 200 determines each of the illumination information, wind information, sound information, and image information transmitted through the monitoring unit 100.

The control unit 230 may determine the illuminance information, the color temperature, the luminance, and the color rendering property of the corresponding region in the platform 300 by determining the illuminance information sensed by the optical sensor of the illumination sensing unit 110, It is possible to recognize the difference in illuminance between the adjacent regions.

The controller 230 may determine wind information received from the plurality of wind direction sensors and the air component analysis sensor of the air sensor 120. The control unit 230 can recognize the wind direction and air quality of the corresponding region in the platform 300 by determining wind information received from the plurality of wind direction sensors and the air component analysis sensor of the air sensing unit 120. [

The control unit 230 may determine information received from the sound sensor of the sound sensing unit 130. The control unit 230 can recognize the sound environment of the corresponding area in the platform 300 by determining the sound information received from the sound sensor of the sound sensing unit 130. [

The control unit 230 can determine image information received from the camera and the image analysis unit of the object sensing unit 150. The control unit 230 can recognize the image information of the corresponding region in the platform 300 and the sex ratio and the composition ratio according to the age of the member.

The service decision unit 220 comprehensively determines the illumination information, the wind information, the acoustic information, and the image information received from the control unit 230 and the information received from the database 210 to determine optimal illumination, To the corresponding service object. The database 210 includes information on appropriate lighting, noise, and air quality management in accordance with lifestyle changes of modern people and information on life patterns depending on sex, age, and occupation. For example, the control unit 230 judges the image information, and 50 persons are detected in the area A. The proportion of the twenties in the composition ratio of the detected persons is as high as 40, the sex is determined as 1: 1, If the detected persons are highly active, the current illumination, color temperature, luminance, and color rendering characteristics sensed through the illumination sensing unit 110 are determined. If the detected illumination intensity is 500 lux, the service determination unit 220 determines the lighting unit 310 And controls it up to 700 lux. In addition, it is possible to provide colorless light with a colorless (white) light, increase brightness, and provide a color rendering property close to 100. When a silent sound or insect sound is output through the sound sensing unit 130, the control unit 230 controls the sound unit 330 to change the sound output to dance music And increase the output. If the air purifier is stopped in a state where the humidity is high through the air sensing unit 120 and the ozone component is low and the wind flowing through the fan is set weak, The air conditioner 230 may stop the operation of the humidifier, activate the operation of the air cleaner, and strengthen the wind of the fan to the middle to provide wind. At this time, the basis of the determination by the service decision unit 230 is decided by the big data, and the basis for judging the big data is stored in the database 210. [

The database 210 collects and analyzes the light characteristics (illuminance, color temperature, luminance, color rendering property, etc.) of natural light for 1 year 365 days (season and time) The color temperature, the luminance, and the color rendering property suitable for reproducing the natural light to the human being residing in the room.

For example, the service determination unit 220 receives information about the tendency of people in the area A from the database 210 according to the information on the image information received from the object sensing unit 150 through the control unit 230 And controls the lighting unit 310 of the platform 300 to display a bright light and displays the bright light suitable for the lighting through the air conditioning unit 320 It can be controlled so that the wind is blown. Through the acoustic unit 330, the output can be lowered to control the sound of the birds or insects. For example, the service determining unit 220 may store information about the tendencies of people in the area B in the database 210 according to information obtained from the object sensing unit 150 through the control unit 230, And controls the lighting unit 310 of the platform 300 so as to display a slightly dark illumination and displays the dark illumination through the air conditioning unit 320, So that a suitable gentle wind can be controlled. So that silent music can be controlled to be output through the sound unit 330.

The platform 300 includes a lighting unit 310, an air conditioning unit 320, an acoustic unit 330, and a communication unit 340.

The lighting unit 310 is provided with LEDs (Light Emitting Diodes) at regular intervals on the outer wall and ceiling in order to realize the indoor lighting close to the sunlight from the bright lighting to the dark lighting. Through the Internet of Things And performs bundling control on the block unit so as to be able to communicate with the monitoring unit 100 and the big data unit 200. The illuminating unit 310 can control the illuminance, the color temperature, the luminance, and the color rendering property from the dark to the bright atmosphere under the control of the service determining unit 220.

The air conditioning unit 320 is composed of an electric fan air purifier and a humidifier. The fan can make the air flow, and the air purifier purifies the air. According to the control of the service decision unit 220, the fan can control the wind direction and the wind speed to provide wind in the platform 300. The service determining unit 220 can operate the air purifier or the humidifier according to the information sensed by the air sensing unit 120. For example, when the information detected by the service determining unit 220 is excessive, the operation of the air cleaner is stopped and the humidifier can be operated. On the other hand, information for the service determination unit 220 to determine a service is provided from the database 210. [

The acoustic unit 330 may provide a corresponding sound according to information determined from the service determination unit 220. [ Such acoustic information can be provided from the database 210 and output.

2 is a flowchart illustrating a process of providing a service platform in a smart fusion natural space according to an embodiment of the present invention. Referring to FIG. 2, in step S202, the monitoring unit 100 detects the current state. The monitoring unit 100 transmits the detected sensing information to the communication unit 240 in the big tier unit 200 through the communication unit 140 in the monitoring unit 100. [

In step S204, the big data unit 200 analyzes the sensing information. The analysis comprehensively analyzes the sensing information received from the monitoring unit 100 and the data received from the database 210. For example, if the illuminance of the A region is determined to be 1000 lux, the color temperature is determined to be colorless, the luminance information is determined to be 100 knits, and the color rendering information is determined to be 70, 220 recognizes the number of persons, the number of persons, the sex ratio, and the composition ratio of each age group detected by the object detection unit 150 in the area A and receives corresponding information about the tendency of the area A from the database 210 Depending on the result, the illumination information can be changed. Accordingly, the service determining unit 220 can determine that the illumination of the area is improved to 1000 lux or more, the color temperature is changed to yellow (yellow), the luminance is improved, and the color rendering property is improved. On the other hand, when the illumination information of the B region is determined to be 1000 lux, the color temperature is determined to be colorless, the luminance information is determined to be 100 knits, and the color rendering information is determined to be 80, It is possible to determine that the illumination is lowered to 1000 lux or less, the color temperature is changed to red (red), the brightness is lowered, and the color rendering property is lowered according to the result of receiving the information about the inclination of the region from the database 210.

In step S206, the big data unit 200 can determine the service using the information analyzed in step S204. However, even if there is a need to increase the illuminance as a result of the detection information analysis in the area A, the actual illuminance can be determined to be maintained only when the limit of the illuminance is 1000 lux, the luminance limit is 100 knit, and the color rendering limit is 90. The communication unit 240 of the big data unit 200 transmits a service processing command through the corresponding communication unit 340 of the platform 300. [

In step S208, the devices 310, 320, and 330 of the platform 300 process the corresponding service. For example, when the air conditioning unit 320 receives the wind direction and wind amount adjustment command, the wind direction and air amount are adjusted according to the command. Upon completion of the process, the corresponding device of the platform 300 transmits an acknowledge mes- sage indicating completion of the process to the big data unit 200 to inform that the process for the corresponding command is completed.

The embodiments according to the concept of the present invention can be variously modified and can take various forms, so specific embodiments are illustrated in the drawings and described in detail herein. However, it is to be understood that the embodiments according to the concept of the present invention are not intended to be limited to specific modes of operation, but include all changes, equivalents and alternatives falling within the spirit and scope of the present invention.

100: monitoring unit 110:
120: air sensing unit 130: acoustic sensing unit
140, 240, 340: communication unit 150:
200: big data portion 210: database
220: service determination unit 230:
300: Platform 310:
320: air conditioning unit 330: acoustic unit

Claims (8)

A system for providing a smart fusion natural space service platform, comprising: a monitoring unit for sensing illuminance, air components, and acoustic conditions of an indoor environment in which the platform is installed;
A big data unit for generating control information for providing illumination, wind direction and sound by judging the illuminance information, wind information and sound information transmitted through the monitoring unit and information received from an internal database; And
And a platform for receiving the control information from the big data unit and processing a corresponding service corresponding to the control information.
The apparatus according to claim 1,
A light sensing unit for sensing the illuminance information using a plurality of optical sensors installed in various places of the platform to detect a difference in ambient illuminance, color temperature, luminance, color rendering, and illuminance;
An air sensing unit for sensing wind information using a plurality of wind direction sensors and an air component analysis sensor installed in various places of the platform to sense ambient air flow and air components;
An acoustic sensor for sensing acoustic information of the platform by using an acoustic sensor for sensing a waveform of a high and low sound of surrounding acoustic waves;
A target sensing unit for sensing image information using at least one of a camera including an infrared sensor, an ultrasonic sensor, and an image analyzer for sensing a person to be a service target; And
And a communication unit for wireless communication with the big data unit and the platform.
The apparatus of claim 1, wherein the big data portion comprises:
A control unit recognizing each of the illumination information, the wind information, the acoustic information, and the image information transmitted through the monitoring unit;
A service determining unit for receiving the illuminance information, the wind information, the acoustic information, and the image information recognized by the controller and determining information to be served by determining information received from an internal database;
A database for providing information for determining the lighting, the wind direction and the sound determined by the service decision unit; And
And a communication unit for wireless communication with the monitoring unit and the platform.
4. The system according to claim 3,
And provides information on at least one of illumination, noise, and air quality in response to information on life patterns depending on sex, age, occupation, and the like.
4. The system of claim 3, wherein the database provides at least one of season, time, light, color temperature, brightness, and color rendering information collected and analyzed.
2. The system of claim 1,
An illumination unit configured to emit indoor light from a bright illumination to a dark illumination according to control information from the big data unit;
An air conditioner configured to generate a flow of air by an electric fan, an air purifier, and a humidifier according to control information from the big data unit, to purify the air and adjust the humidity;
An acoustic unit for providing a corresponding sound in accordance with control information from the big data unit; And
And a communication unit for wirelessly communicating with the monitoring unit and the big data unit.
The apparatus of claim 3,
Wherein the number of persons to be served, the sex of the object, and the age range of the object are grasped using the image information received from the object detection unit.
A monitoring unit for sensing the illuminance of the indoor environment in the natural space where the platform is installed, the air component and the acoustic condition, the illuminance information transmitted through the monitoring unit, the wind information and the sound information, A big data portion for generating control information for providing optimal illumination, an optimal wind direction and an optimum sound, and a platform for receiving the control information from the big data portion and processing the corresponding service corresponding to the control information A method for providing a smart fusion natural space service platform,
The monitoring unit detects the current state and generates sensing information. The big data unit receiving the sensing information and analyzing the sensing information; Wherein the big data unit determines a service using the analyzed information in the analyzing process; And processing the service using the service-determined information. ≪ RTI ID = 0.0 > [10] < / RTI >

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