KR101656953B1 - Method and System for Logging and Sensing Outdoor Environments and Method and System for Application Control for Alarm of Outdoor Environments - Google Patents

Abstract

An outdoor environment sensing and logging method and system, and an application driving method and system for outdoor environment notification are presented. The outdoor environment sensing and logging system proposed in the present invention includes a sensing unit for sensing an outdoor environment, a storage unit for logging sensing information of the sensed outdoor environment, a sensing unit for sensing the sensed information A display unit for displaying a notification suitable for a user's outdoor activity in accordance with the sensing information and the learning result, and transmitting the sensing information to a server and sharing the sensing information with a plurality of smart devices through a wireless router And a controller for controlling the sensing unit to perform a low-power operation in consideration of a sensing period of each of the plurality of sensors and a period of communication with the server, wherein the sensing information transmitted to the server is transmitted to the cloud Stored and managed.

Description

TECHNICAL FIELD [0001] The present invention relates to an outdoor environment sensing and logging method and system, and a method and system for operating an application for outdoor environment notification.

The present invention relates to an outdoor environment notification method and system using sensing data of an outdoor environment.

In general, a home network refers to a future home environment in which home appliances including PCs are integrated into a single network, and services are provided regardless of devices, time, and places. Demand for home networks is also increasing due to the development of networking technologies, infrastructure software, and information appliances, changes in domestic communication and infrastructure environments, and increased demand for intelligent home networking by consumers.

A home network is a communication network configured to connect various types of digital home appliances to provide a high-speed intercommunication function in a residential space. The home network system using the home network system includes a moving picture compression technology, a digital signal processing technology, Video conferencing, digital movies, and electronic control systems in residential space, the home appliances are gradually becoming digitized and network technology is naturally emerging.

SUMMARY OF THE INVENTION The present invention provides a method and system for sensing an outdoor environment using a plurality of sensors and displaying a notification to a user in accordance with a user's life pattern and health state using the sensing information . In addition, the sensing information is transmitted to the server, the sensing information is shared with the plurality of smart devices through the wireless router, and the sensing information transmitted to the server is transmitted to the cloud for storage and management.

In one aspect, the outdoor environment sensing and logging system proposed by the present invention

A sensing unit including a plurality of sensors and sensing an outdoor environment; a storage unit for logging sensing information of the sensed outdoor environment; an learning unit for learning the sensing information logged to the storage unit; A communication unit for transmitting the sensing information to a server and sharing the sensing information with a plurality of smart devices through a wireless router; And a controller for controlling the sensing unit to perform a low power operation in consideration of a cycle of communication with the server and a cycle of communicating with the server. The sensing information transmitted to the server may be transmitted to the cloud and stored and managed.

Wherein the sensing unit includes a plurality of sensors for sensing an outdoor environment and a camera for photographing an outdoor environment, wherein the sensing unit includes a temperature sensor, a humidity sensor, an ultraviolet ray index, an ozone concentration, a fine dust concentration, The outdoor environment can be sensed.

The camera may photograph the outdoor environment at a predetermined cycle, and store the captured image in the storage unit.

The learning unit may learn the sensing information in relation to an outdoor environment suitable for the life pattern of the user. .

The sensing information transmitted to the server may be stored and managed through the cloud to learn the past outdoor environment and service the past outdoor environment data to the user.

And a power supply unit for supplying power to the outdoor environment sensing and logging system. The power supply unit may include a charging unit, and the charging unit may charge the power supply through wireless charging, charging through a solar cell, or wired charging.

In the outdoor environment sensing and logging system, a sensing unit for sensing the outdoor environment and a power unit to be charged through the solar cell may be installed facing outdoors.

According to another aspect of the present invention, there is provided an outdoor environment sensing and logging method including sensing an outdoor environment through a sensing unit including a plurality of sensors, logging sensing information of the sensed outdoor environment to a storage unit, The method of claim 1, further comprising the steps of: learning sensing information; indicating an alert suitable for outdoor activity of a user according to the sensing information and the learning result; transmitting the sensing information to a server to share the sensing information with a plurality of smart devices And storing and managing the sensing information transmitted to the server through the cloud.

According to another aspect of the present invention, an application driving system for outdoor environment notification proposed in the present invention includes a receiving unit for receiving sensing information from a outdoor environment sensing and logging system through a wireless router, And a notification unit for notifying the user of the outdoor activity according to the learning result of the sensing information.

According to another aspect of the present invention, there is provided a method of driving an application for outdoor environment notification, the method including receiving sensing information from a wireless environment sensing and logging system through a wireless router, displaying the sensing information to a user, And displaying a notification suitable for the outdoor activity of the user according to the learning result of the sensing information.

According to the embodiments of the present invention, the outdoor living environment can be sensed and learned, and the user can be informed that the living environment and the health state are appropriate. Also, the sensing information may be transmitted to the server, the sensing information may be shared with the plurality of smart devices through the wireless router, and the sensing information transmitted to the server may be transmitted to the cloud and stored and managed.

1 is a block diagram of an outdoor environment sensing and logging system according to an embodiment of the present invention.
2 is a view for explaining an example of an outdoor environment sensing and logging system according to an embodiment of the present invention.
3 is a diagram illustrating a process of sharing sensing information with a plurality of smart devices through a wireless router according to an exemplary embodiment of the present invention.
4 is a view for explaining a method of storing and managing sensing information according to an embodiment of the present invention through a cloud.
5 is a view for explaining a duty cycle for a low-power operation according to an embodiment of the present invention.
6 is a block diagram and an installation method of an internal circuit board for an outdoor environment sensing and logging system according to an embodiment of the present invention.
7 is a flowchart illustrating an outdoor environment sensing and logging method according to an embodiment of the present invention.
8 is a diagram illustrating a configuration of an application driving system for outdoor environment notification according to an embodiment of the present invention.
9 is an exemplary view for explaining the operation of the gas sensor according to an embodiment of the present invention.
FIG. 10 is a view for explaining sensing information according to an exemplary embodiment of the present invention to a user, and illustrating a process for displaying a notification suitable for a user's outdoor activity.
11 is a flowchart illustrating an application driving method for an outdoor environment notification according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an outdoor environment sensing and logging system according to an embodiment of the present invention.

The outdoor environment sensing and logging system 100 includes a sensing unit 110, a storage unit 120, a learning unit 130, a control unit 140, a communication unit 150, a display unit 160, and a power unit 170 .

The sensing unit 110 senses the outdoor environment and can photograph the outdoor environment image. The sensing unit 110 may include a plurality of sensors 111 and a camera 112. Here, the plurality of sensors may include an outdoor fine dust measurement sensor, an ozone measurement sensor, an ultraviolet measurement sensor, a temperature / humidity measurement sensor, a carbon monoxide measurement sensor, a NOx sensor, and the like. Sensors included in the sensing unit 110 are not limited to those described above, and may be further added depending on the environment to be applied. Through the sensing unit including the plurality of sensors, it is possible to sense the outdoor environment and air pollution degree.

Further, the outdoor environment may be photographed at a predetermined cycle using a camera, and the photographed image may be stored in the storage unit. In addition, still images, voice recordings, and noise measurements are available. For example, a camera can be used to photograph the outdoors, and the amount of precipitation or snowfall can be calculated through image processing. In addition, snowfall can be predicted based on this. Likewise, the degree of dustiness can be estimated through image processing. And you can measure outdoor noise by using microphone.

The storage unit 120 may log sensing information sensed by a plurality of sensors and an image captured by the camera.

The learning unit 130 may learn about the outdoor environment suitable for the user's life pattern using the sensing information stored in the storage unit. The learning unit 130 may learn sensible temperature, humidity, fine dust concentration and the like suitable for the user in connection with the outdoor activity of the user. For example, assuming that the user has cardiovascular disease, the learning unit 130 may measure the fine dust concentration and learn the fine dust concentration corresponding to the danger level. It is possible to learn not only the concentration of fine dust but also other sensing information in an outdoor environment suitable for the user in relation to the outdoor activity of the user. If the outdoor fine dust concentration corresponds to a dangerous level when the user goes out, the user can be informed via the display unit 160 to avoid going out or to be warned to wear the mask.

The control unit 140 may control the sensing unit to perform a low-power operation in consideration of a sensing period of each of the plurality of sensors and a period of communication with the server. This will be described in more detail with reference to FIG.

The communication unit 150 may transmit the sensing information of the sensing unit 110 to the server so that the sensing information may be shared with the plurality of smart devices through the wireless router. It can also be connected directly to the HVAC via Wi-Fi.

The communication unit 150 can transmit the sensing information sensed by the sensing unit 110 to the server. The server receives and stores sensing information, and can share sensing information with a plurality of smart devices through a wireless router. Then, the plurality of smart devices receive the sensing information from the server through the WiFi AP, and can notify the user of the sensing information. In addition, when a plurality of smart devices enter a WiFi AP area (or the same network), a notification of sensing information can be automatically displayed to a user through an application installed in advance. The plurality of smart devices may include a smart phone, an interphone, a smart TV, a printer, a smart rice cooker, a PC, and a smart refrigerator. In other words, many households are using home networks in recent years, and home networking can be used to transfer data to other home appliances (TV, audio, PC). These home appliances or a plurality of smart devices can fetch data from the server and display it when needed.

The server may be a DLNA server in the home, or may be a server connected to the Internet. Electronic devices can also be servers. The recently released WiFi AP includes its own server function. In other words, the WiFi AP is always on in the home electronics to provide connectivity to the Internet. Therefore, without a separate server, WiFi AP can act as a server simultaneously.

The display unit 160 may display the sensing information to the user and display a notification according to the sensing information to the user. For example, when the outdoor fine dust concentration corresponds to a dangerous level when the user goes out, the user can be informed through the display unit 160 to avoid going out or to be warned to wear a mask. In addition, notification based on sensing information such as fine dust, temperature and humidity, ozone concentration, ultraviolet ray, carbon monoxide and NOx can be displayed to the user.

The power supply unit 170 can supply power to the proposed outdoor environment sensing and logging system 100. The power supply unit 170 may include a charging unit 171. The charging unit 171 can charge the power source through wireless charging and charging through a solar cell or wire charging. Therefore, in the proposed outdoor environment sensing and logging system 100, the sensing unit 110 for sensing the outdoor environment and the power supply unit 170 charged through the solar cell can be installed facing outdoors.

The proposed outdoor environment sensing and logging system 100 may be directly connected to a plurality of smart devices or servers and may be connected to a plurality of smart devices, servers, the Internet, and other electronic devices through a WiFi AP existing in the home . Recently, Digital Living Network Alliance (DLNA) protocol is a technology that makes it possible to share data with WiFi technology in home network environment.

2 is a diagram for explaining Fems orange and Fems black according to an embodiment of the present invention.

The proposed outdoor environment sensing and logging system 100 may include two types. Outdoor environment sensing and logging system that mainly measures air pollution degree of outdoor environment including NOx and COx and outdoor environment sensing and logging system that mainly focuses on outdoor environment such as outdoor ozone concentration, ultraviolet ray value, temperature and humidity . For example, an outdoor environmental sensing and logging system that mainly measures air pollution in an outdoor environment is called an outdoor environment sensing and logging system that mainly focuses on outdoor environments such as PEMS black, outdoor ozone concentration, ultraviolet rays, The system is called PEMS Orange.

The PEMS Black 210 can monitor the degree of contamination of the outdoor environment. For example, if the pollution degree of the air due to harmful substances such as outdoor fine dust 211, automobile exhaust gas 212, NOx, COx, etc. is measured and it is not less than a predetermined reference value, The mask can be worn when going out.

The PEMS Orange 220 can monitor the ozone concentration 221 of the outdoor environment, the ultraviolet rays 222, and the temperature and humidity. In addition, it is possible to periodically photograph outdoors through a camera, measure snowfall, rainfall, and determine yellow sand or smog.

3 is a diagram illustrating a process of sharing sensing information with a plurality of smart devices through a wireless router according to an exemplary embodiment of the present invention.

The proposed outdoor environment sensing and logging system can acquire sensing information by using a plurality of sensors capable of sensing an outdoor environment. Then, the sensing information can be transmitted to the server 320. The server 320 may receive and store sensing information and may share sensing information with a plurality of smart devices through the wireless router 330. The plurality of smart devices 340, 351, 352, 353, 354, 355 and 356 receives the sensing information from the server 320 through the wireless router 330, that is, the WiFi AP, Can be displayed to the user. In addition, when a plurality of smart devices enter the WiFi AP area, notification of the sensing information can be automatically displayed to the user through the application installed in advance. The plurality of smart devices may include a smart phone 340, an interphone 351, a smart TV 352, a printer 353, a smart rice cooker 354, a PC 355, a smart refrigerator 356, and the like. In other words, in many homes, home networks are used in recent years, and home networking can be used to transmit sensing information to other home appliances (TV, audio, PC). Such home appliances or a plurality of smart devices can fetch data from the server 320 when needed.

The server may be a DLNA server in the home, or may be a server connected to the Internet. Electronic devices can also be servers. The recently released WiFi AP includes its own server function. In other words, the WiFi AP is always on in the home electronics to provide connectivity to the Internet. Therefore, without a separate server, WiFi AP can act as a server simultaneously.

4 is a view for explaining a method of storing and managing sensing information according to an embodiment of the present invention through a cloud.

The outdoor environment sensing and logging system 410 stores the sensing information in the server 430 through the Wi-Fi AP 420, and the server analyzes and provides the sensed information to the user 440. At this time, the user 440 may receive sensing information through a smart device or a web browser. It may also be provided through an air conditioner such as an HVAC. After transmitting the sensing information, the outdoor environment sensing and logging system 410 may update the sensing information changed from the server and perform synchronization with the server. In addition, the sensing information may be transmitted to the cloud 450 and stored and managed. By storing and managing the sensing information in the cloud 450, the user can check the sensing information related to the past outdoor environment at a necessary point by using the time machine function.

5 is a view for explaining a duty cycle for a low-power operation according to an embodiment of the present invention.

The proposed outdoor environmental sensing and logging system can perform low power operation. Particularly, gas sensors (for example, NOx, COx, fine dust, etc.) for outdoor environmental sensing consume a lot of electric power. For example, the overall system can consume 50% or more of power. Therefore, it is difficult to operate continuously in a battery-operated system. For this purpose, the sensing function can be performed with a duty cycle according to the energy level. For example, ozone concentration or ultraviolet ray measurement may not be frequently performed during the nighttime, so it may be measured intermittently.

Since the outdoor environment sensing and logging system has a built-in real time clock (RTC) therein, it includes accurate time information as well as day and night seasons. Therefore, the duty cycle of the sensor is determined based on the time information . In addition, since it is possible to connect to the Internet through WiFi at all times, time can be accurately adjusted using Internet time (NTP).

In addition, it is possible to measure intermittently because the change time of gas, temperature, ultraviolet ray, etc. is considerably slow. However, in case of gas leakage and smoke detection, it should be monitored and measured frequently. The duty cycle can be adjusted according to the requirements of these sensors and the sensors mounted on the logging system. For example, as shown in FIG. 5, the ozone sensor 510 and the NOx sensor 520 may be measured at intervals of one hour. The ultraviolet sensor 530 may be measured at intervals of 30 minutes during the daytime (for example, 12:00 to 4:00) in the summer, and may be measured at intervals of 1 hour during the other periods. Also, the temperature and humidity sensor 540 can be measured at intervals of 30 minutes.

6 is a block diagram and an installation method of an internal circuit board for an outdoor environment sensing and logging system according to an embodiment of the present invention.

The outdoor environment sensing and logging system internal circuit board 610 includes a Wi-Fi 611 for sharing sensing information with a plurality of smart devices, a camera for image photographing and a microphone 612 for noise measurement, An MCU 614 for controlling the outdoor environment sensing and logging system, and sensors 615 for sensing the outdoor environment. The outdoor environment sensing and logging system may include a display 630 for displaying sensing information to the user on the external circuit board 620 on the internal circuit board 610 and displaying a notification according to the sensing information to the user.

The circuit board including the Wi-Fi 611, the camera and the microphone 612, the PMIC 613, the MCU 614, and the sensors 615 may include a power supply unit. The power source of the proposed outdoor environmental sensing and logging system may include a live part. In addition, the charging unit can charge the power source through wireless charging and charging through a solar cell or wire charging. Therefore, it can be mounted facing outdoors for charging through the solar cell. In addition, in the proposed outdoor environment sensing and logging system, the camera, the microphone 612, and the sensors 615 may also be installed facing outdoors so as to sense the outdoor environment. The display 630 indicating the notification of the sensing information can be mounted facing the room so that it can be checked in the use room.

7 is a flowchart illustrating an outdoor environment sensing and logging method according to an embodiment of the present invention.

The outdoor environment sensing and logging method includes the steps of sensing (710) an outdoor environment through a sensing unit including a plurality of sensors, logging sensing information of the sensed outdoor environment to a storage unit, and learning the sensing information (720) (730) indicating a notification suitable for a user's outdoor activity according to the sensing information and the learning result, transmitting the sensing information to a server and sharing the sensing information with a plurality of smart devices through a wireless router 740), indicating the sensing information to the user, and indicating a notification according to the sensing information to the user (750), and storing (760) storing and managing the sensing information transmitted to the server through the cloud .

In step 710, the outdoor environment may be sensed through a sensing unit including a plurality of sensors.

At this time, it is possible to sense an outdoor environment including fine dust, ozone concentration, ultraviolet radiation, temperature and humidity, carbon monoxide, and NOx. The camera may be used to photograph the outdoor living environment at a predetermined cycle, and the captured image may be stored in the storage unit. In addition, still images, voice recordings, and noise measurements are available. For example, through image processing, it is possible to measure rainfall, snowfall, concentration of yellow sand, and smog, and noise can be measured through voice processing.

In step 720, sensing information of the sensed outdoor environment may be logged to the storage unit and the sensing information may be learned. The sensing information can be learned in relation to the outdoor activity of the user, such as an appropriate outdoor temperature, humidity, fine dust concentration, etc. suitable for the user. For example, assuming the user has cardiovascular disease, he or she can measure the fine dust concentration and learn the concentration of fine dust that corresponds to the danger level. It is possible to learn not only the concentration of fine dust but also other sensing information in an outdoor environment suitable for the user in relation to the outdoor activity of the user.

In step 730, a notification suitable for the outdoor activity of the user may be displayed according to the sensing information and the learning result. For example, when the outdoor fine dust concentration is at a dangerous level when the user goes out, the user can be informed through the display unit to avoid going out or to be warned to wear the mask. In addition, notification based on sensing information such as fine dust, temperature and humidity, ozone concentration, ultraviolet ray, carbon monoxide and NOx can be displayed to the user.

In step 740, the sensing information may be transmitted to the server to share the sensing information with the plurality of smart devices through the wireless router. The server receives and stores sensing information, and can share sensing information with a plurality of smart devices through a wireless router. Then, the plurality of smart devices receive the sensing information from the server through the WiFi AP, and can notify the user of the sensing information. In addition, when a plurality of smart devices enter the WiFi AP area, notification of the sensing information can be automatically displayed to the user through the application installed in advance. The plurality of smart devices may include a smart phone, an interphone, a smart TV, a printer, a smart rice cooker, a PC, and a smart refrigerator. In other words, many households are using home networks in recent years, and home networking can be used to transfer data to other home appliances (TV, audio, PC). These home appliances or a plurality of smart devices can fetch data from the server and display it when needed. In addition, since the outdoor environment monitoring device can be directly connected to the Internet through Wi-Fi, it can receive services provided by the Korea Meteorological Administration and the Ministry of Environment through the Internet. For example, weather information, meteoric dust concentration, and UV index can be received.

The outdoor environmental monitoring device can improve the reliability of the measuring device by comparing the data directly measured and the data obtained through the Internet.

In step 760, the sensing information transmitted to the server may be stored and managed through the cloud. The sensing information transmitted to the server is stored and managed through the cloud to learn the past residential environment and service the past residential environment data to the user.

8 is a diagram illustrating a configuration of an application driving system for outdoor environment notification according to an embodiment of the present invention.

8, the system for outdoor environment control may be configured to include a processor 810, a memory 801, and a network interface 802 including a receiving unit 811 and a notifying unit 812. [

The memory 801 may store a program including an operating system (OS) and an instruction corresponding to the outdoor environment notification service routine. The outdoor environment notification service can notify the user of the outdoor environment through the application. The steps performed in the outdoor environment sensing and logging system described with reference to Figs. 1 through 7 may be executed by a program stored in the memory 801. [ For example, the memory 801 may be a hard disk, an SSD, an SD card, and other storage media.

The network interface 802 may couple a system for outdoor environment notification to the network for communication with user terminals utilizing the outdoor environment notification service.

The processor 810 is a device for processing according to an instruction of a program stored in the memory 801, and may include a microprocessor such as a CPU. The detailed configuration of the processor 810 is as follows.

The receiving unit 811 can receive sensing information from the outdoor environment sensing and logging system through the wireless router. In other words, sensing information including minute dust, ozone concentration, ultraviolet radiation, temperature and humidity, carbon monoxide, and NOx sensed in the outdoor environment sensing and logging system can be received. In addition, an outdoor environment image captured through a camera of the outdoor environment sensing and logging system can be received. The sensing information of the received outdoor environment can be confirmed in real time through the user terminal installed with the application for the outdoor environment notification.

The notification unit 812 may display a notification suitable for the outdoor activity of the user according to the learning result of the sensing information and the sensing information. In other words, the user can be notified of the sensing information through the user terminal installed with the application for the outdoor environment notification in the form of sound, vibration, or popup of the display of the user terminal. For example, when the user suddenly falls down when the laundry is left out, the sensing information can be notified to the user through the user terminal.

9 is an exemplary view for explaining the operation of the gas sensor according to an embodiment of the present invention.

Among the plurality of sensors, the gas sensors 911, 912 ... must heat the gas sensors 911, 912 ... in order to remove the humidity and facilitate the adsorption of the gaseous substances. For this, a voltage higher than the battery 920 must be applied, and the material can be sensed when the temperature of the sensing part rises to an appropriate level (for example, 300 degrees). In a battery-based system, a step-up DC / DC converter 930 must be used to supply a voltage higher than the battery voltage. And processor 940 may operate at a lower voltage for lower power. A PMIC 950 for separating them is required and each of them must be operated independently. At this time, the processor 940 should be configured to control not only digital components but also sensors, heaters, and voltage supplies in a low power mode.

FIG. 10 is a view for illustrating sensing information according to an exemplary embodiment of the present invention to a user, and illustrating a process for displaying a notification suitable for a user's outdoor activity.

The user terminal 1000 installed with the application for outdoor environment notification can receive sensing information including fine dust, ozone concentration, ultraviolet rays, temperature and humidity, carbon monoxide, and NOx sensed in the outdoor environment sensing and logging system . In addition, an outdoor environment image captured through a camera of the outdoor environment sensing and logging system can be received. The sensing information of the received outdoor environment can be confirmed in real time through the display of the user terminal 1000 installed with the application for the outdoor environment notification.

For example, outdoor blind sensing information including the current weather 1010, temperature 1020, ozone concentration 1030, ultraviolet ray index 1040, and the like can be displayed. At this time, the weather 1010 is clear and the temperature 1020 is 27 ° C. The ozone concentration 1030 is 0.13 ppm per hour and the ozone notice is issued. The ultraviolet ray index 1040 is 6.5, which is normal. In this way, the outdoor environment sensing information can be confirmed in real time through the user terminal 1000 installed with the application for outdoor environment notification, and the notification suitable for the outdoor activity of the user can be displayed. 10, when the ozone concentration 1030 is higher than the reference value, notification of the sensing information may be displayed to the user through sound, vibration, or pop-up of the display of the user terminal through the user terminal 1000 have. In addition, when the user suddenly falls down when the laundry is left out, the sensing information may be notified to the user through the user terminal.

11 is a flowchart illustrating an application driving method for an outdoor environment notification according to an embodiment of the present invention.

A method of operating an application for outdoor environment notification includes receiving sensing information from a outdoor environment sensing and logging system through a wireless router (step 1110), displaying the sensing information to a user, and transmitting the sensing information and the sensing information (Step 1120) indicating an appropriate notification for the user's outdoor activity.

In step 1110, the sensing information may be received from the outdoor environment sensing and logging system via the wireless router. In other words, sensing information including minute dust, ozone concentration, ultraviolet radiation, temperature and humidity, carbon monoxide, and NOx sensed in the outdoor environment sensing and logging system can be received. In addition, an outdoor environment image captured through a camera of the outdoor environment sensing and logging system can be received. The sensing information of the received outdoor environment can be confirmed in real time through the user terminal installed with the application for the outdoor environment notification.

In step 1120, the sensing information may be displayed to a user, and a notification suitable for a user's outdoor activity may be displayed according to a result of the sensing information and the sensing information. In other words, the user can be notified of the sensing information through the user terminal installed with the application for the outdoor environment notification in the form of sound, vibration, or popup of the display of the user terminal. For example, when the user suddenly falls down when the laundry is left out, the sensing information can be notified to the user through the user terminal.

12 is an exemplary view showing an outer case of an outdoor environment sensing and logging system according to an embodiment of the present invention.

The front surface of the outer case of the outdoor environment sensing and logging system facing the indoor side is shown in FIG. The back surface of the outer case of the outdoor environment sensing and logging system facing the window is shown in FIG. 12B.

The front surface of the outer case of the outdoor environment sensing and logging system facing the indoor side may include a display 1220a for presenting the sensing information to the user and displaying the notification according to the sensing information to the user. And may include a proximity sensor 1230a for allowing the user to display a screen as it approaches the display 1220a.

And may include a home button 1240a required for monitoring. In addition, environmental sensor buttons 1250a and 1290a, a speaker button 1260a, a PC connection and charge connector button 1270a, and a microphone button 1280a for monitoring a plurality of environmental sensors may be included.

The outdoor environment sensing and logging system backside facing the interior may include sensors for sensing the outdoor environment. And may include an illuminance sensor 1220b, an ultraviolet index sensor 1230b, and a camera 1240b. A power source may be included on the backside of the outer case of the outdoor environment sensing and logging system facing the window have. The power source of the proposed outdoor environmental sensing and logging system may include a live part. In addition, the charging unit can charge the power source through wireless charging and charging through a solar cell or wire charging. And thus can be mounted outdoors for charging through a solar cell 1210b.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA) A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (15)

In an outdoor environment sensing and logging system,
A sensing unit including a plurality of sensors and sensing an outdoor environment;
A storage unit for storing sensing information of the sensed outdoor environment;
A learning unit for learning the sensing information logged in the storage unit in relation to an outdoor environment so as to be suitable for a user's life pattern and health state;
A display unit for displaying a notification suitable for the outdoor activity of the user according to the sensing information and the learning result;
A communication unit transmitting the sensing information to a server and sharing the sensing information with a plurality of smart devices through a wireless router; And
A controller for controlling the sensing unit to perform a low-power operation in consideration of a sensing period of each of the plurality of sensors and a period of communication with the server,
Lt; / RTI >
The sensing information transmitted to the server is transmitted to the cloud and stored and managed
Outdoor environmental sensing and logging system. The method according to claim 1,
The sensing unit includes:
A plurality of sensors for sensing an outdoor environment; And
Cameras for shooting outdoor environments
Lt; / RTI >
The sensor senses an outdoor environment including temperature, humidity, ultraviolet ray index, ozone concentration, fine dust concentration, carbon monoxide value, and diary
Outdoor environmental sensing and logging system. 3. The method of claim 2,
The camera comprises:
The outdoor environment is photographed at a predetermined cycle, and the photographed image is stored in the storage unit
Outdoor environmental sensing and logging system. delete The method according to claim 1,
The past outdoor environment is learned by storing and managing the sensing information transmitted to the server through the cloud, and the past outdoor environment data is provided to the user
Outdoor environmental sensing and logging system. The method according to claim 1,
A power supply unit for supplying power to the outdoor environment sensing and logging system
Further comprising:
The power supply unit includes a charging unit, and the charging unit charges the power supply through wireless charging, charging through a solar cell, or wired charging
Outdoor environmental sensing and logging system. The method according to claim 6,
The outdoor environment sensing and logging system includes a sensing unit for sensing an outdoor environment and a power unit to be charged through the solar cell,
Outdoor environmental sensing and logging system. In an outdoor environment sensing and logging method,
Sensing an outdoor environment through a sensing unit including a plurality of sensors;
Logging the sensing information of the sensed outdoor environment to a storage unit and learning the sensed information in relation to the outdoor environment so as to match the life pattern and the health state of the user;
Displaying an alert suitable for the outdoor activity of the user according to the sensing information and the learning result;
Transmitting the sensing information to a server and sharing the sensing information with a plurality of smart devices through a wireless router; And
Storing and managing the sensing information transmitted to the server through the cloud
And an outdoor environment sensing and logging method. 9. The method of claim 8,
Sensing the outdoor environment through a sensing unit including the plurality of sensors
The sensor senses an outdoor environment including temperature, humidity, ultraviolet ray index, ozone concentration, fine dust concentration, carbon monoxide value, and diary
Outdoor environment sensing and logging method. 9. The method of claim 8,
Sensing the outdoor environment through a sensing unit including a plurality of sensors,
Capturing the outdoor environment at a predetermined cycle using a camera included in the sensing unit, and storing the captured image in a storage unit
Outdoor environment sensing and logging method. delete 9. The method of claim 8,
Controlling the sensing unit to perform a low-power operation in consideration of a sensing period of each of the plurality of sensors and a period of communicating with the server
And an outdoor environment sensing and logging method. 9. The method of claim 8,
The past outdoor environment is learned by storing and managing the sensing information transmitted to the server through the cloud, and the past outdoor environment data is provided to the user
Outdoor environment sensing and logging method. An application driving system for outdoor environment notification,
A receiving unit for receiving sensing information from the outdoor environment sensing and logging system through a wireless router; And
And a display unit for displaying the sensing information to the user and displaying a notification suitable for the outdoor activity of the user according to a learning result obtained by learning the sensing information and the sensing information in relation to the outdoor environment,
And an outdoor environment notification system. A method of driving an application for an outdoor environment notification,
Receiving sensing information from an outdoor environment sensing and logging system via a wireless router; And
Displaying the sensing information to a user and indicating a notification suitable for the outdoor activity of the user according to a learning result obtained by learning the sensing information and the sensing information with respect to the outdoor environment so as to match the life pattern of the user and the health condition
And an outdoor environment notification function.

Images