KR102094461B1 - Shelter using artificial intelligence and control system comprising the same - Google Patents

Abstract

Various embodiments of the present invention relate to a shelter utilizing artificial intelligence and a control system including the same. According to an embodiment of the present invention, the shelter includes four walls and an upper roof, and has an entrance formed on any one of the four walls to provide a space used by a plurality of users. The shelter comprises: a guide unit guiding notification information to a user using the shelter; a light providing unit providing light in the shelter; a device driving unit which allows an indoor variable in the shelter to have a preset value; an information acquisition unit acquiring information on the user using the shelter; a power unit supplying power to the guide unit, the light providing unit and the device driving unit; and a control unit which analyzes usage pattern information based on the information on the user obtained by the information acquisition unit, and controls operations of the guide unit, the light providing unit, and the device driving unit according to preset information based on the analyzed usage pattern information and prediction information collected from the outside. With this configuration, the shelter according to an embodiment of the present invention is configured to automatically turn off the internal components of the shelter at a preset time based on the usage pattern information and the prediction information, particularly at a time when it is determined that there is no user using the shelter, thereby reducing the power consumed in the shelter.

Description

SHELTER USING ARTIFICIAL INTELLIGENCE AND CONTROL SYSTEM COMPRISING THE SAME

The present invention relates to a shelter using artificial intelligence and a control system including the same, and more particularly, to a shelter utilizing artificial intelligence and a control system including the same, which can reduce the management cost of the shelter.

As society develops and becomes an advanced country, people's expectations for public facilities such as road environmental facilities are gradually increasing, and accordingly, investment in these facilities by government agencies and local governments is steadily increasing.

As an example of such facilities, shelter-related facilities, which are places of waiting for people waiting for a bus or waiting for a train, have been gradually installed in recent years.

These shelter facilities serve as a shelter where people can wait while waiting for a bus or train, etc., but also serve as a means to provide route or arrival information for bus stops and trains, as well as advertising means such as billboards. By equipping it, it is actively used as a means of publicity for companies and local governments.

However, as the number of shelter facilities increases, government agencies and local governments will have to financially bear the cost of continuously managing and maintaining the shelter.

In addition, there is a fear of accidents such as homeless people living in shelter facilities and verbs during the winter.

The present invention has been devised to solve the above problems, and an object thereof is to provide a shelter utilizing artificial intelligence capable of reducing the cost of maintaining and managing the shelter and a control system including the same.

In addition, the purpose is to provide a shelter using artificial intelligence that can prevent accidents by preventing the homelessness of homeless people and a control system including the same.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

According to various embodiments of the present disclosure, a shelter utilizing artificial intelligence includes four walls and an upper roof, and an entrance door is formed on any one of the four walls to provide a space for a plurality of users, and a shelter Is a guide for guiding notification information to a user using a shelter, a light providing unit for providing light in the shelter, a device driving unit for allowing indoor variables in the shelter to have a preset value, and an information acquisition unit for obtaining information of the user using the shelter, Analysis of usage pattern information based on the information of the users obtained from the power supply unit and the information acquisition unit supplying power to the information unit, light supply unit, and device driving unit, and based on the analyzed usage pattern information and forecast information collected from the outside It may include a control unit for controlling the operation of the guide unit, the light providing unit and the device driving unit according to the preset information. Accordingly, the shelter according to an embodiment of the present invention is configured to automatically turn off the internal configuration of the shelter at a preset time based on the usage pattern information and the forecast information, especially at a time when it is determined that there is no user using the shelter. Can reduce the power consumed in the.

The controller may analyze the usage pattern information by classifying the information of the user obtained from the information acquisition unit by season, month, week, day, and time zone.

The forecast information may include weather forecast, humidity forecast, and fine dust concentration forecast.

The control unit pre-sets and controls the operation of the information unit, light supply unit, and device driving unit in off seasons, months, weeks, days, and time periods when there is no user using the shelter by synthesizing usage pattern information and forecast information. can do.

If the control unit is analyzed that there is no user using the shelter, and it is determined that there is a user in the shelter by the information obtained by the information acquisition unit at a preset time period so that the driving of the guide unit, the light providing unit, and the device driving unit is turned off, the guide unit, the optical agent It is possible to control the driving of the study and device driving unit to be on.

The control unit is analyzed that there is no user using the shelter, and the driving of the guide, light providing unit and device driving unit is driven in advance at a preset time before the restarting time zone after the preset time zone so that the driving of the guide, light providing unit, and device driving unit is turned off. It can be controlled as much as possible.

The information acquisition unit may be at least one of a camera, a door installed in a shelter, or a human body sensor and a laser sensor provided on a wall on which four doors are installed.

The shelter according to an embodiment of the present invention may further include a first sensor unit measuring indoor variables in the shelter and a second sensor unit measuring outdoor variables other than the shelter.

The control unit may control driving of the guide unit, the light providing unit, and the device driving unit based on the information detected by the first sensor unit and the second sensor unit along with the usage pattern information and the forecast information.

The control unit may set and control in advance the environment in the shelter to be the same as the outside by opening the door in the season, month, week, day, and time zone when it is analyzed that there is no user using the shelter by synthesizing usage pattern information and forecast information.

According to various embodiments of the present disclosure, a control system of a shelter utilizing artificial intelligence includes four walls and an upper roof, and an entrance door is formed on any one of the four walls to provide a space used by a plurality of users And, it may include a control server for controlling the indoor variable in the shelter to have a preset value based on the shelter providing the use information of a plurality of users and the use information of the user received from the shelter and the forecast information collected from the outside. .

The control server sets the control information of the shelter in advance based on the user's usage fixation and forecast information, and allows the shelter to be controlled according to the preset information, but real-time when user information using the shelter is received from the shelter in a time zone according to the preset information You can control the shelter.

Specific details of other embodiments are included in the detailed description and drawings.

The present invention can efficiently manage the shelter by acquiring usage pattern information of the user using the shelter and forecast information collected from the outside and controlling indoor variables in the shelter based on the obtained usage pattern information and forecast information.

The present invention obtains usage pattern information and forecast information of a user who uses the shelter, and some or all of devices operating in the shelter are automatically operated at a time when the number of users who use the shelter is small according to the obtained usage pattern information and forecast information. By turning it off, power consumption at the shelter can be reduced.

The present invention is comfortable for users by adjusting the temperature, humidity, and fine dust concentration in the shelter based on the comparison of weather, humidity, and fine dust concentrations obtained in real time and information obtained in real time in advance. It can provide a shelter environment.

The effects according to the present invention are not limited by the contents exemplified above, and more various effects are included in the present invention.

1 is a perspective view schematically showing a shelter according to an embodiment of the present invention.
2 is a cross-sectional view schematically showing an internal configuration of a shelter according to an embodiment of the present invention.
3 is a block diagram schematically showing the configuration of a shelter according to an embodiment of the present invention.
4 is a flowchart sequentially showing a control process of a shelter according to an embodiment of the present invention.
5 is a block diagram schematically showing a control system including a shelter according to another embodiment of the present invention.
6 is a block diagram schematically showing the configuration of a shelter according to another embodiment of the present invention.
7 is a block diagram schematically showing the configuration of a control server according to another embodiment of the present invention.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments presented below, but can be implemented in various different forms, and is understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. Should be. The embodiments presented below are provided to make the disclosure of the present invention complete, and to fully disclose the scope of the invention to those skilled in the art to which the present invention pertains. In the description of the present invention, when it is determined that detailed descriptions of related known technologies may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

The shapes, sizes, ratios, angles, numbers, etc. disclosed in the drawings for describing the embodiments of the present invention are exemplary and the present invention is not limited to the illustrated matters. The same reference numerals refer to the same components throughout the specification. In addition, in the description of the present invention, when it is determined that detailed descriptions of related known technologies may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted. Other parts may be added as long as '~ only' in which 'include', 'have', and 'consist of' mentioned in this specification is used is not used. When a component is expressed as a singular number, the plural number is included unless otherwise specified.

In analyzing the components, it is interpreted as including the error range even if there is no explicit description.

Each of the features of the various embodiments of the present invention may be partially or totally combined with or combined with each other, and technically various interlocking and driving may be possible as those skilled in the art can fully understand, and each of the embodiments may be independently implemented with respect to each other. It can also be implemented together in an association relationship.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a shelter according to an embodiment of the present invention.

Referring to FIG. 1, the shelter 1000 according to an embodiment of the present invention includes four walls 10, 20, 30, and 40 and an upper roof 50 disposed on four walls. More specifically, the shelter 1000 has a front wall 10 provided with a door 11 installed to be opened and closed in a sliding manner, and a first side wall 20 installed at a first end in the longitudinal direction of the front wall 10 , The second side wall 30, the first side wall 20 and the second side wall 30 installed to face the first side wall 20 and installed at the second end in the longitudinal direction of the front wall 10 And the rear wall 40 and the front wall 10, the first side wall 20, the second side wall 30 and the rear wall 40, which are installed to face the front wall 10 It includes an upper roof 50 so that the interior space 100 is not exposed to the upper portion. Accordingly, the shelter 1000 according to an embodiment of the present invention includes four walls 10, 20, 30, 40 and an upper roof 50, and four walls 10, 20, 30, 40 By configuring the wall 10 to include an entrance 10a, it is possible to provide an interior space 100 which can be used by a plurality of users.

The front wall 10 is provided with a door 11 that can selectively cover the door 10a. On the other hand, in one embodiment of the present invention, the door 11 installed on the front wall 10 is described as being installed to be opened and closed by a sliding method, but is not limited thereto. For example, the door 11 may also be installed in a hinged manner, which is a method of opening and closing hinges or stones fixed to the door frame as an axis.

A laser sensor (not shown) may be installed on the front door 10 adjacent to the door 11 or the door 11. As described above, the door 11 may be automatically opened or closed due to the laser sensor installed on the door 11 or the front wall 10 adjacent to the door 11. The laser sensor may be, for example, a thermal sensor or a human sensor. Due to such a laser sensor, one embodiment of the present invention can grasp the number of users using the shelter 1000, and thereby, can analyze the usage patterns of users using the shelter 1000.

The four walls 10, 20, 30, 40 and the upper roof 50 may be made of metal, plastic, tempered glass, and the like, which can be firmly maintained without being easily damaged by rain, snow, hail, and the like.

Four walls (10, 20, 30, 40) may include an insulating material. Accordingly, the shelter 1000 may protect a plurality of users using the internal space 100 from external cold or heat.

As shown in Figure 1, the front wall 10, the first side wall 20 and the second side wall 30 of the four walls (10, 20, 30, 40) has an inner space of the shelter 1000. A plurality of visible windows may be provided. However, FIG. 1 is only an example, and is not limited thereto.

In the following description, the shelter 1000 will be described as an example that the shelter 1000 is installed at a bus stop, but the shelter 1000 according to an embodiment of the present invention is not limited to and installed at a bus stop, a train station, It may be installed in a hospital or the like for standby purposes, or may be installed for evacuation purposes to evacuate cold or heat on the road, or may be installed in various places according to other uses.

The internal configuration of the shelter 1000 according to an embodiment of the present invention will be described in more detail with reference to FIG. 2 below.

2 is a cross-sectional view schematically showing the internal configuration of a shelter according to an embodiment of the present invention, and FIG. 3 is a block diagram schematically showing the relationship between the internal configuration of a shelter according to an embodiment of the present invention.

2 and 3, the shelter 1000 includes a guide unit 110, a light providing unit 120, a device driving unit 130, an information acquisition unit 140, a seating unit 150, and a power unit 160. And it may include a control unit 170. On the other hand, before looking at FIG. 2, in FIG. 2, the guide unit 110, the light providing unit 120, the air conditioner 131, the air purifier 132, the power unit 160, and the control unit 170 are rear walls. Although illustrated as being disposed at 40, it is not limited thereto, and may be disposed on any one of the four walls according to the installation purpose and design of the shelter 1000.

The guide unit 110 guides a user waiting for a bus, a bus route, a bus arrival information guide, advertisement information of various products, news information, real-time fine dust inside and outside the shelter 1000, temperature and humidity information, and the like. The guide unit 110 may include a display and a speaker. The guide unit 110 may be turned off if it is determined that a user who uses the preset time or the shelter 1000 is not in the inner space of the shelter 1000. Here, the preset time may be a time set based on usage pattern information of users using the shelter 1000.

The light providing unit 120 may provide light for adjusting the illuminance in the shelter 1000. The light providing unit 120 may include an LED (LED). The light providing unit 120 may be turned off when it is determined that a user who uses the shelter 1000 or a preset time as the guide unit 110 is not in the inner space of the shelter 1000.

The device driving unit 130 drives the devices so that the indoor variable in the shelter 1000 is an appropriate value. The device driver 130 may be driven based on usage pattern information of users who use the shelter 1000. Here, the indoor variables may be indoor temperature, indoor humidity and indoor fine dust concentration. Accordingly, the device driving unit 130 may include an air conditioner 131 and an air purifier 132.

The air conditioner 131 may control the temperature inside the shelter 1000. More specifically, the air conditioner 131 may automatically adjust the internal temperature and external temperature of the shelter 1000 to be a preset temperature. At this time, the preset temperature may be a temperature that is generally comfortable for users to feel. In addition, the preset temperature may be set based on the usage pattern information of users, and may vary according to season, time zone, and day of the week. For example, in summer, the preset temperature is 20 ° C. If the detected internal temperature is 28 ° C, the internal temperature may be automatically driven to 20 ° C. However, the driving of the air conditioner 131 may be turned off in a time period when it is determined that the users are not inside the shelter 1000 or the usage is low. The off-air conditioner 131 may be driven in advance at a set time ahead of a time set to time the drive again. For example, the air conditioner 131 inside the shelter 1000 is turned off between 2:00 p.m. and 2:20 p.m. on Wednesday in the summer when it is determined that there are no users, and it is 2 hrs. The air conditioner 131 may be driven in advance at 2:15 at a time ahead of 20 minutes. Meanwhile, if it is determined that there is a user at a set time based on the usage pattern information of the user, the air conditioner 131 may be automatically driven. That is, the driving of the air conditioner 131 is turned off between 2 pm and 20:20 pm on a Wednesday in summer, for example, if it is determined that the user uses the shelter 1000 at 2:05, for example, the air conditioner ( 131) can be activated automatically. At this time, the use of the user can be detected by a laser sensor installed in the door 11 or a camera installed inside the shelter 1000.

The air purifier 132 may include an air purifier and a humidifier. The air purifier 132 may adjust humidity and fine dust concentration inside the shelter 1000. More specifically, the air purifier 132 may automatically adjust the humidity and the fine dust concentration to be preset by detecting the internal humidity, the external humidity, the internal fine dust concentration, and the external fine dust concentration of the shelter 1000. At this time, the preset humidity and fine dust concentration may be a humidity and fine dust concentration that users can feel comfortable in general. The air purifier 132 may be driven similarly to the air conditioner 131 described above. That is, the air purifier 132 may be driven according to preset humidity and fine dust concentrations set based on the usage pattern information of the users, and may vary by season, time zone, and day of the week. In addition, the air purifier 132 may be turned off at a preset time period determined to have no users, and may be driven prior to a preset time to start driving again. However, if it is determined that the user uses the shelter 1000 in a time period when the driving is off, the air purifier 132 may be automatically driven.

The information acquisition unit 140 may acquire usage pattern information for analyzing patterns of users using the shelter 1000. More specifically, the information acquisition unit 140 may acquire various information and patterns for the users, such as the number of users using the shelter 1000, the number of users remaining, and the time of entry and exit of the users. . In addition, the information acquisition unit 140 may collect the above-described usage pattern information by season, month, week, or day, and the information collected by day may include information collected by time zone. The information thus obtained may be transmitted to the control unit 170. The information acquisition unit 140 may obtain indoor / outdoor temperature, indoor / outdoor humidity, and indoor / outdoor fine dust concentration information inside the shelter 1000. The information thus obtained may be transmitted to the control unit 170. Although the information acquisition unit 140 is not illustrated in FIG. 2, one or more of a human body sensor and a laser sensor disposed on a camera, door 11 or front wall 10 disposed in the shelter 1000 and a shelter ( 1000) It may include a temperature sensor, a humidity sensor and a fine dust measurement sensor installed inside and outside.

The seating unit 150 may be a kind of chair where users can sit and rest. The seating portion 150 may be provided with a heating wire. Accordingly, the seating unit 150 may transmit heat to users in winter or on a cold day.

The power unit 160 may include a power supply unit (not shown) and a charging unit (not shown). The power supply unit includes a device driving unit such as the guide unit 110, the light supply unit 120, the air conditioner 130, and the air purifier 140 in the interior space of the shelter 1000, and the seating unit 150 when a heating wire is included. Power. The charging unit may be configured to charge a user's mobile phone or the like using the shelter 1000. The power provided by the power unit 160 may be provided by a solar panel disposed outside. In this way, by configuring the shelter 1000 to supply power consumed in the shelter 1000 through the solar panel, it is possible to reduce the cost consumption of maintaining and managing the shelter 1000.

The control unit 170 may control the operation of the guide unit 110, the light providing unit 120, the device driving unit 130, and the power unit 160. The control unit 170 is based on the usage pattern information and indoor variable information of the user acquired by the information acquisition unit 140, the guide unit 110, the light providing unit 120, the device driving unit 130 and the power unit 160 You can control the operation.

The control unit 170 may automatically adjust the temperature, humidity and fine dust concentration inside the shelter 1000. That is, the control unit 170 compares the indoor temperature detected from the first temperature sensor of the first sensor unit installed inside the shelter 1000 and the outdoor temperature detected from the second temperature sensor of the second sensor unit installed outside the shelter 1000. Therefore, the temperature can be automatically controlled based on this. More specifically, the control unit 170 may automatically control the air conditioner 130 to be driven when the temperature difference detected by the first temperature sensor and the second temperature sensor exceeds a preset temperature range. The air purifier 132 may be controlled to be driven to match the humidity corresponding to the temperature. For example, if the temperature sensed by the first temperature sensor is 15 ° C, the temperature sensed by the second temperature sensor is 25 ° C, and the preset temperature range is 7 ° C, the internal temperature of the shelter 1000 is 18 ° C or higher. The air conditioner 131 can be driven and controlled as much as possible. In addition, when the internal temperature of the shelter 1000 is 18 ° C, the preset humidity is 60%. If the humidity inside the shelter 1000 detected by the first humidity sensor of the first sensor unit is 75%, the internal humidity is 60%. The air purifier 132 can be driven and controlled as much as possible.

The control unit 170 may obtain usage pattern information, such as information on the date, day, time, and number of users using the shelter 1000 from the information acquisition unit 140, and use it to drive various components You can. For example, the information acquisition unit 140, for example, by using a sensor such as a laser sensor, the number of users entering and exiting the shelter 1000 by day and time and the number of users staying in the shelter 1000 Can be obtained. In addition, the information acquisition unit 140 may generate usage pattern information on the number of users who access and reside in the shelter 1000 by day and time based on the information on the number of users thus obtained. For example, the control unit 170 may average the time that the first user enters on Monday from the information acquisition unit 140 on average, and when the first user's entry time is 5:30 AM on average, 5 AM The device driving unit 130 may be driven before 30 minutes. For example, assuming that it takes 5 minutes to lower the indoor temperature of the shelter 1000 to the target temperature by driving the device driving unit 130, the control unit 170 is 5 minutes from the average calculated 5:30 AM First, the device driving unit 130 may be driven to pre-adjust the indoor temperature in the shelter 1000.

In addition, the control unit 170 may obtain usage pattern information such as date, time, information on the number of users using the shelter 1000 from the information acquisition unit 140, and the control unit 170 may obtain the information acquisition unit ( Various components may be controlled based on the information obtained from 140). For example, the control unit 170 may analyze the time zone for each day of the week when the users frequently use the shelter 1000. In addition, the controller 170 may analyze the time zone of the day of the week for each weather using the shelter 1000 more frequently and less frequently by the weather users based on the information obtained from the information acquisition unit 140. In addition, the control unit 170 may analyze the seasonal day of the week time zone that the seasonal users use the shelter 1000 more and less, based on the information obtained from the information acquisition unit 140. Based on the various information, the control unit 170 may control to drive or turn off only a part of the guide unit 110, the light providing unit 120, the device driving unit 130, and the power unit 160. For example, the control unit 170 may statistically obtain the time for the users to start entry for each specific day from the information acquisition unit 140, and to statistically acquire the time for all the users to exit and no longer enter. It is also possible to statistically acquire the time during which a large number of users arrive at a specific time, such as commuting time. In addition, the control unit 170 may statistically obtain the time that users are gathered for each weather, such as when the weather is clear, cloudy, or rainy.

At this time, the control unit 170 may control the driving of the components inside the shelter 1000 in consideration of the collected forecast information by collecting the forecast information of the weather, humidity and fine dust concentration in advance from the outside. For example, the controller 170 is determined to have no or fewer users using the shelter 1000 between 2 and 2:30 pm on Wednesdays in the summer, and when the weather is hot due to the forecast, it is guided when it is determined that the outdoor activity is less time. The unit 110 and the light providing unit 120 are turned off, and the device driving unit 130 may be automatically controlled to be driven in a power saving mode. In addition, when it is determined that there are many users using the shelter 1000 between 2 PM and 2:30 PM on Wednesday, winter, the control unit 170 is normal for the guide unit 110, the light providing unit 120, and the device driving unit 130. It can be controlled automatically to operate in mode. Accordingly, the shelter 1000 according to an embodiment of the present invention is configured to automatically operate components in the shelter 1000 in consideration of previously collected forecast information together with usage pattern information of users using the shelter 1000. It is possible to reduce power consumption in the shelter 1000 compared to the conventional one.

On the other hand, as described above, unlike the usage pattern information of the control unit 170 in the shelter 1000, if the user has entered, or if it is determined that the user remains inside the shelter 1000 at a set time, the control unit 170 ) May control components of the shelter 1000 differently from the usage pattern information. For example, the controller 170 drives the device driving unit 130 in anticipation that there will be many users using the shelter 1000 between 6 pm and 7 pm in the summer time, which is the work time, based on the usage pattern information of the user. You may want to lower the room temperature. However, if the user who uses the shelter 1000 at a corresponding time differs from the expected value by more than a threshold than the expected user, for example, the estimated number of users is 30, the threshold value is 15, and the actual number of users is 5 In this case, since the actual user differs from the expected user by a threshold or more, the controller 170 may drive the device driver 130 to maintain the room temperature slightly higher than expected so that the actual user is not cold in the shelter 1000. have. At this time, whether or not the user enters or exits may be provided by the information acquisition unit 140.

The control unit 170 may control to automatically maintain indoor variables such as temperature, humidity, and fine dust concentrations inside the shelter 1000. The controller 170 collects forecasts of weather, humidity, and fine dust concentrations from the outside from the outside, and analyzes them in advance based on this, so that the indoor variables are automatically maintained properly in the shelter 1000 on the day. The driving unit 130 can be controlled. At this time, as well as continuously maintaining the indoor variables inside the shelter 1000 according to the analyzed information based on the forecast, it is possible to control the operation of the devices in the shelter 1000 according to the user's usage information to reduce power consumption. have. That is, the indoor variable inside the shelter 1000 is maintained to have an appropriate value according to the forecast, but when it is determined that there are no users inside the shelter 1000, the operation of the air conditioner 131 and the air purifier 132 is turned off ( off).

The control unit 170 is configured to control the driving of the components inside the shelter 1000 at a preset time based on the usage pattern information of the users using the shelter 1000, but as described above, forecast information for indoor variables Can be made on the basis of However, if there is a rain forecast or a snow forecast depending on the weather forecast, the preset time may be changed. For example, if there is a rain forecast at 2 pm on Wednesday, August in summer, the configuration inside the shelter 1000 is controlled to be turned off at 2:30 to 2:30 pm on Wednesday, August in summer. In order to avoid the rain, since the probability of use by the user increases, the time zone set to be off can be changed to another time zone, or the components can be controlled to be on.

The control unit 170 may collect usage pattern information, indoor variable information, and forecast information, and control driving of the components inside the shelter 1000 based on this. For example, when the outside temperature is 32 ℃ and the temperature sensed by the temperature sensor inside the shelter 1000 is 28 ℃ between 2pm and 2:30 pm in August in the summer, when there is no user. , If the preset comfort temperature is 23 ° C, the air conditioner 131 inside the shelter 1000 may be driven to be completely off, or the internal temperature may be driven to 23 ° C.

When the control unit 170 determines that there are no users inside the shelter 1000, and when the operation of the guide unit 110, the light providing unit 120, and the device driving unit 130 is turned off, the time previously analyzed to be used by the user It is possible to control the device driving unit 130 to be driven in advance at a predetermined time. For example, it is determined that there is no user using the information analyzed in advance between 2 PM and 2:30 PM on a summer Wednesday, and it is determined that there is no user in fact, the guide unit 110, the light providing unit 120, and the device When the operation of the driving unit 130 is turned off, it is possible to control the device driving unit 130 to be driven in advance at 2:20 or 2:25 before the restart time of 2:31. Accordingly, while reducing power consumption in the shelter 1000, it is possible to provide a comfortable environment inside the shelter 1000 to users.

On the other hand, the control unit 170 synthesizes the usage pattern information and forecast information to open the door 11 in the season, month, week, day, and / or time zone analyzed as no user using the shelter 1000 to open the shelter 1000 ) Can be controlled by setting the environment in the same way as the outside. For example, if the shelter 1000 is a bus stop, it will be expected that there will be no users entering and exiting the shelter 1000 for the purpose of getting on and off the bus during the dawn of December to February in the winter months when the bus is not operating. Accordingly, the control unit 170 may control the environment in the shelter 1000 to be the same as the outside, by synthesizing the usage pattern information as described above and forecast information such as temperature, for a time point when it is analyzed that there is no user. For example, the door 11 may be opened to make the environment inside and outside the shelter 1000 the same. Accordingly, the environment in the shelter 1000 is set to be the same as the outside to prevent the homelessness of the homeless, and it is possible to clarify the limit of the responsibility of not controlling the temperature in the shelter 1000 in the verb of the homeless.

The control process of the shelter according to an embodiment of the present invention will be described in more detail with reference to FIG. 4 below.

4 is a flowchart sequentially showing a control process of a shelter according to an embodiment of the present invention.

Referring to FIG. 4, the control unit 170 of the shelter 1000 firstly uses information of the users who use the shelter 1000 from the information acquisition unit 140 and indoor variables from outside, for example, temperature, humidity and Collect forecast information for the fine dust concentration (S410).

Thereafter, the usage pattern information is analyzed using the collected usage information of the users (S420). Analysis of usage pattern information may be analyzed by season, month, week, day, and time zone. Based on the analyzed information, a time for automatically controlling the operation of a configuration disposed inside the shelter 1000 may be preset. You can. In addition, the control unit 170 may change a preset time according to the indoor variable information collected in advance.

Thereafter, it is determined whether the preset time has been reached according to the usage pattern information (S430), and if it is determined that the preset time has been reached, it is determined whether the user is actually inside the shelter 1000 once again (S440).

As a result of the determination, when it is determined that there is a preset time according to the usage pattern information and there are no users even inside the shelter 1000, components inside the shelter 1000, for example, the guide unit 110 and the light providing unit 120 And controlling the device driving unit 130 to be off (S450).

Subsequently, after determining whether the components inside the shelter 1000 have been set before the time set to be restarted (S470), if it is determined that the components inside the shelter 1000 have been set before the time set to be restarted, the shelter (1000) The internal components are controlled to be turned on (S460).

On the other hand, although it is a preset time according to the usage pattern information, even if it is determined that there are users inside the shelter 1000, the components inside the shelter 1000 are controlled to be turned on and driven (S460).

The shelter 1000 according to an embodiment of the present invention provides a comfortable environment to the users by properly maintaining indoor variables inside the shelter 1000, for example, indoor temperature, indoor humidity, and indoor fine dust concentration. You can.

The shelter 1000 according to an embodiment of the present invention collects usage information, indoor variable information, and forecast information of users using the shelter 1000 together, analyzes it, and drives the internal configuration of the shelter 1000 based on the analysis. By controlling the can reduce the cost and power consumption to maintain and manage the shelter 1000.

On the other hand, the shelter 1000 according to an embodiment of the present invention is provided with a control unit 170 to analyze the usage pattern information of users while maintaining a comfortable environment inside the shelter 1000, and consume power of the shelter 1000 However, it is possible to reduce the power consumption while maintaining a comfortable environment inside the shelter 1000 by external control.

In this regard, it will be described in more detail with reference to FIG. 5 below.

5 is a block diagram schematically showing a control system including a shelter according to another embodiment of the present invention.

Referring to FIG. 5, the control system 2000 of a shelter according to an embodiment of the present invention may include a shelter 1000 ′ and a control server 1500.

The shelter 1000 ′ may be connected to the control server 1500 through a communication network. For example, the communication network may be a local area network or a cellular network, an Internet or computer network, such as Bluetooth, WiFi direct, or an Infrared Data Association (IrDA), a telecommunication network, such as a LAN or WAN.

The shelter 1000 'provides the user information using the shelter 1000' through the communication network and indoor variables inside the shelter 1000 ', such as temperature, humidity, and fine dust concentration, to the control server 1500. can do.

The shelter 1000 'may provide waiting space and shelter space for users. The shelter 1000 ′ includes four walls and an upper roof, and may be configured by including an entrance door on one of the four walls. The detailed configuration of the shelter 1000 'will be described in detail with reference to FIG. 6 below.

The control server 1500 may be connected to the shelter 1000 ′ through a communication network. The control server 1500 may control driving of the internal configuration of the shelter 1000 ′ based on the usage information of the user provided from the shelter 1000 ′ and indoor variable information inside the shelter 1000 ′. At this time, the control server 1500 controls the driving of the internal configuration of the shelter 1000 'based on the collected information by collecting the weather, humidity, and fine information forecast information in advance when controlling the internal configuration of the shelter 1000'. can do. In addition, the control server 1500 may provide information such as announcements inside the shelter 1000 '. The detailed configuration of the control server 1500 will be described with reference to FIG. 7 below.

6 is a block diagram schematically showing the configuration of a shelter according to another embodiment of the present invention. Before referring to FIG. 6, the same components as those described in FIGS. 1 to 3 are denoted by the same reference numerals. In addition, detailed description of the components having the same reference numerals will be omitted.

Referring to FIG. 6, the shelter 1000 ′ according to another embodiment of the present invention includes a guide unit 110, a light providing unit 120, a device driving unit 130, an information acquisition unit 140, and a seating unit 150. , It may include a power unit 160, the communication unit 1110 and the control unit 1120. Here, for a description of the guide unit 110, the light providing unit 120, the device driving unit 130, the information acquisition unit 140, the seating unit 150 and the power unit 160, see FIGS. Since it has been described, the detailed description will be omitted.

The communication unit 1110 transmits and receives data to and from the control server 1500. In more detail, the communication unit 1110 uses user information and shelter (including the presence or absence of users inside the shelter 1000 'acquired through the information acquisition unit 140 and the number of users using the shelter 1000'). 1000 ') Indoor variable information including internal temperature, humidity, and fine dust concentration may be transmitted to the control server 1500. In addition, the communication unit 1110 may receive control information provided by analyzing based on guide broadcast information provided by the control server 1500, user information using the shelter 1000 ', and indoor variable information.

The control unit 1120 is configured inside the shelter 1000 'according to control information received from the control server 1500 through the communication unit 1110, that is, the guide unit 110, the light providing unit 120, and the device driving unit 130 You can control the driving.

7 is a block diagram schematically showing the configuration of a control server according to another embodiment of the present invention.

Referring to FIG. 7, the control server 1500 according to another embodiment of the present invention may include a communication unit 1510, an information providing unit 1520, a database unit 1530 and a control unit 1540.

The communication unit 1510 transmits and receives data through the communication unit 1110 of the shelter 1000 '. The communication unit 1510 may receive usage information and indoor variable information of the user received from the shelter 1000 ′. In addition, the communication unit 1510 receives the user's usage information and indoor variable information received from the shelter 1000 'from the control unit 1540, and generates control information generated based on the analyzed pattern information. Can be sent to

The information providing unit 1520 may provide information such as advertisement information, news information, bus arrival time, bus routes, etc. that can be guided to users by the guide unit 110 of the shelter 1000 ′. Information provided by the information providing unit 1520 may be transmitted to the shelter 1000 ′ through the communication unit 1510.

The database unit 1530 may store usage pattern information analyzed based on various information that can be guided through the information providing unit 1520 and usage information of the user using the shelter 1000 ′. At this time, the usage pattern information may be classified and stored by season, month, week, day, and time zone.

The control unit 1540 may control driving of the communication unit 1510, the information providing unit 1520, and the database unit 1530. In particular, the control unit 1540 may analyze usage pattern information based on the usage information of the user received from the communication unit 1510. For example, the control unit 1540 counts the number of users who use the shelter 1000 ', or through a camera installed in the shelter 1000', depending on the presence or absence of users inside the shelter 1000 ', during the time period, the number of users , Weekly, monthly, and seasonally. The control unit 1540 may generate control information for controlling the shelter 1000 ′ based on indoor variable information and analyzed usage pattern information inside the shelter 1000 ′ received through the communication unit 1510. In addition, when the control unit 1540 generates the control information, it is possible to receive the weather, humidity, and fine dust concentration forecast information received from the outside in advance and generate control information based on this. That is, the control unit 1540 may collect indoor variable information, usage pattern information, and forecast information, and set control information for controlling the shelter 1000 'based on this. For example, the control unit 1540 is a time zone without users if it is intact between 2 pm and 2:30 pm in the summer, which is a time zone without users, so the device driving unit 130 inside the shelter 1000 'is off. It can be controlled to be (off), but if the outside temperature according to the forecast information is 32 ° C and the temperature sensed by the temperature sensor inside the shelter 1000 'is 28 ° C, if the preset comfort temperature is 23 ° C, the shelter 1000 ') The internal device driving unit 130 may not be driven to be completely off, but may be driven to have an internal temperature of 23 ° C.

The control unit 1540 controls the components configured in the shelter 1000 'based on the preset information, but if there is a user who uses the shelter 1000' differently from the preset information, the control unit 1540 does not control the preset information in real time. You can control the drive so that you can. That is, the control unit 1540 may control the shelter 1000 'in an automatic control driving mode and a real-time control driving mode.

The control unit 1540 is determined that there is no user inside the shelter 1000 ', and it is analyzed in advance that the user will use it when the operation of the guide unit 110, the light providing unit 120, and the device driving unit 130 is off. The device driving unit 130 may be controlled to be driven in advance at a time ahead of the time. For example, it is determined that there is no user using the information analyzed in advance between 2 PM and 2:30 PM on a summer Wednesday, and it is determined that there is no user in fact, the guide unit 110, the light providing unit 120, and the device When the operation of the driving unit 130 is turned off, it is possible to control the device driving unit 130 to be driven in advance at 2:20 or 2:25 before the restart time of 2:31. Accordingly, while reducing power consumption in the shelter 1000 ', it is possible to provide a comfortable environment inside the shelter 1000' for users.

As described above, the shelter control system 2000 according to another embodiment of the present invention collects usage information, indoor variable information, and forecast information of users who use the shelter 1000 ', and analyzes it, and analyzes the shelter (based on this). 1000 ') By controlling the driving of the internal configuration, the cost and power consumption of maintaining and managing the shelter 1000' can be reduced.

In the above, the present invention has been described by specific embodiments such as specific components and limited embodiments and drawings, but this is provided only to help a more comprehensive understanding of the present invention, and the present invention is limited to the above embodiments No, those skilled in the art to which the present invention pertains may seek various modifications and variations from these descriptions.

The embodiments of the present invention have been described in more detail with reference to the accompanying drawings, but the present invention is not necessarily limited to these embodiments, and may be variously modified without departing from the technical spirit of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

1000, 1000 ': Shelter 110: Guide
120: light providing unit 130: device driving unit
131: air conditioner 132: air purifier
140: information acquisition unit 150: seating unit
160: power unit 170: control unit
1500: Control Center 2000: Shelter Control System

Claims (12)

In the shelter including four walls and an upper roof, the door is formed on any one of the four walls to provide a space for use by a plurality of users,
A guide unit for guiding notification information to a user using the shelter;
A light providing unit that provides light in the shelter;
A device driving unit that allows the indoor variable in the shelter to have a preset value;
An information acquisition unit that acquires information of a user using the shelter;
A power unit supplying power to the guide unit, the light providing unit, and the device driving unit; And
The usage pattern information is analyzed based on the information of the user acquired by the information acquisition unit, and the guide unit, the light providing unit, and the information are set according to preset information based on the analyzed usage pattern information and forecast information collected from the outside. Includes a control unit for controlling the operation of the device driving unit,
The usage pattern information includes a lot of users at a specific time, such as information obtained statistically for the time when users start entering for each specific day, information obtained statistically for times when all users leave and no longer enter, and commuting time. Statistically obtained information on the time spent. When the weather is clear, cloudy, or rainy, it includes statistically acquired information about the time the users gather for each weather,
The control unit synthesizes the usage pattern information and the forecast information, and in the season, month, week, day, and time period analyzed as no user using the shelter, the guide, the light providing unit, and the device driving unit are turned off ( off) to be preset and controlled,
It is analyzed that there is no user using the shelter, and the guide, the light agent at a time ahead of the re-drive time zone pre-analyzed to be used by the user after a preset time period such that the guide, the light providing unit and the device driving unit are turned off. Shelter using artificial intelligence to control the study and driving of the device driving unit in advance. delete According to claim 1,
The forecast information includes weather forecast, humidity forecast and fine dust concentration forecast, shelter using artificial intelligence. delete According to claim 1,
The controller is analyzed that there is no user using the shelter, and there is a user in the shelter by information obtained by the information acquisition unit at a preset time period such that the driving of the guide unit, the light providing unit, and the device driving unit is turned off. If it is determined that the driving of the guide unit, the light providing unit and the device driving unit to be turned on (on), a shelter using artificial intelligence. delete According to claim 1,
The information acquisition unit is a camera installed inside the shelter, the door, or one of the four walls or the human body detection sensor and laser sensor provided on the wall where the door is installed, a shelter utilizing artificial intelligence. According to claim 1,
A first sensor unit for measuring indoor variables in the shelter; And
Further comprising a second sensor unit for measuring outdoor variables other than the shelter, shelter using artificial intelligence. The method of claim 8,
The control unit controls the driving of the guide unit, the light providing unit, and the device driving unit based on information detected by the first sensor unit and the second sensor unit along with the usage pattern information and the forecast information, artificial intelligence Shelter utilizing. According to claim 1,
The control unit synthesizes the usage pattern information and the forecast information to open the door to prevent homeless people from living in the winter time, where it is analyzed that there is no user using the shelter, so that the environment in the shelter is the same as the outside. Shelter using artificial intelligence to set and control. A shelter including four walls and an upper roof, and an entrance door is formed on any one of the four walls to provide space for a plurality of users, and to provide usage information of the plurality of users; And
It includes; a control server for controlling the indoor variable in the shelter to have a preset value based on the usage information of the user received from the shelter and forecast information collected from the outside;
A guide unit for guiding notification information to a user using the shelter;
A light providing unit that provides light in the shelter;
A device driving unit that allows the indoor variable in the shelter to have a preset value;
An information acquisition unit that acquires information of a user using the shelter;
A power unit supplying power to the guide unit, the light providing unit, and the device driving unit; And
The usage pattern information is analyzed based on the information of the user acquired by the information acquisition unit, and the guide unit, the light providing unit, and the information are set according to preset information based on the analyzed usage pattern information and forecast information collected from the outside. It includes a control unit for controlling the operation of the device driving unit,
The usage pattern information includes a lot of users at a specific time, such as information obtained statistically for the time when users start entering for each specific day, information obtained statistically for times when all users leave and no longer enter, and commuting time. Statistically obtained information on the time spent. When the weather is clear, cloudy, or rainy, it includes statistically obtained information about the time the users gather for each weather,
The control unit synthesizes the usage pattern information and the forecast information, and in the season, month, week, day, and time period analyzed as no user using the shelter, the guide, the light providing unit, and the device driving unit are turned off ( off) to be preset and controlled,
It is analyzed that there is no user using the shelter, and the guide, the light agent at a time ahead of the re-drive time zone pre-analyzed to be used by the user after a preset time period such that the guide, the light providing unit and the device driving unit are turned off. Shelter control system using artificial intelligence to control the study and driving of the device driving unit in advance. The method of claim 11,
The control server sets the control information of the shelter in advance based on the usage information and the forecast information of the user, and allows the shelter to be controlled according to the preset information, wherein the shelter is controlled by the preset information from the shelter. Control system of the shelter using artificial intelligence to control the shelter in real time when the user information using is received.

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