KR20170101692A - Smart flowerpot based on internet of thing and management system for the same - Google Patents

Abstract

According to an embodiment of the present invention, an Internet of things-based smart flowerpot comprises: an electronic tag attached to one surface of a container in which a plant is planted by storing cultivation soil, and storing unique identification information on the plant; a sensor unit including at least one sensor for measuring state information including at least one among a temperature, humidity, solar radiation quantity, air pollution degree, and moisture content of the cultivation soil; a tag reader for reading the unique identification information stored in the electronic tag; a wireless communications unit for transmitting the unique identification information read by the tag reader to a user terminal by wirelessly communicating with the user terminal, and receiving cultivation information on the plant from the user terminal in response to the unique identification information; and a control unit for comparing the cultivation information with the state information, and providing information necessary for growth of the plant as alarms based on the comparison result.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart flowerpot,

Embodiments of the present invention relate to Internet (IoT) based smart pots and their management systems.

In general, pollen is a type of plant that can contain soil or other cultivated soil to attract nature from the place where the plant can not be grown, such as a room without soil or a narrow space of city housing, It refers to courage.

In other words, all the containers that can contain soil for the cultivation of plants can be pollen, and cultivation of plants using such pollen is called pollen cultivation.

In addition, the pollen is widely used as a term including a container containing soil and a plant planted in the soil of such a container, and therefore, in the following description, the pollen will be understood as a term referring to a state in which plants are planted in the soil in the container.

On the other hand, consumption of flower crops is increasing year by year as the cultural life of well-being and LOHAS (Type of Health and Sustainability) has progressed rapidly.

For this reason, the demand for pollen has increased greatly, which is also causing the problem of effective pollen management.

In other words, the pollen is advantageous for the growth of the plant by supplying water at regular intervals, but it corresponds to the common sense in the cultivation of the pollen. Actually, the plants planted in the pollen are very diverse, and the growth conditions and characteristics Do. Therefore, according to the pollen, water supply cycle, supply amount, sunshine hour, temperature, humidity, etc. must be adjusted to the plant in order to grow healthy. If this work is not smooth, the plant will not grow well, .

However, it is not known to the above-mentioned plant-specific characteristics unless it is an expert who has specialized study on the plants, and this is common to the general purchaser who purchases the flowerpot, and also to the flowerpot sellers who operate the flowerpot store . In addition, it is believed that planting of pots is difficult for people to plant potted plants, and some plants that are easy to grow tend to concentrate.

A related prior art is Korean Patent Publication No. 10-2004-0079618 entitled " Plant management system and method by network, public date: 2004.09.16 ".

An embodiment of the present invention provides an alarm for timely information necessary for the growth of plants planted in a flowerpot based on the Internet of things so that plants can be cultivated easily even if they are not experts with knowledge of plants Based smart pots and their management system.

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by those skilled in the art from the following description.

According to an embodiment of the present invention, an Internet-based Smart Flowerpot is attached to one side of a container in which plants are planted by accommodating soil, and stores unique identification information about the plant; At least one sensor for measuring state information including at least one of a temperature, a humidity, an irradiation amount, an air pollution degree, and a moisture content of the recycling soil; A tag reader for reading unique identification information stored in the electronic tag; A wireless communication unit for performing wireless communication with a user terminal to transmit the unique identification information read by the tag reader to the user terminal and receiving cultivation information about the plant from the user terminal in response to the unique identification information, ; And a controller for comparing the cultivation information with the status information and providing information necessary for growth of the plant as an alarm based on the comparison result.

Wherein the wireless communication unit receives the log information related to the usage history of the user terminal from the user terminal and the control unit grasps the usage behavior according to the user's time based on the log information, Customized messages including location recommendations of useful plants or useful plant information and transmit them to the user terminal through the wireless communication unit at a specific time.

The sensor unit may include at least one of a temperature sensor for measuring temperature, a humidity sensor for measuring humidity, a solar radiation sensor for measuring solar radiation amount, an air pollution measuring sensor for measuring air pollution degree, and a moisture sensor for measuring moisture amount of the soil .

Wherein the sensor unit further comprises a camera sensor for periodically photographing the plant to acquire an image of the plant, wherein the control unit compares each of the images acquired by the camera sensor to calculate a displacement value And records the growth of the plant on the basis of the detected displacement value and transmits the record to the user terminal through the wireless communication unit.

The control unit may detect a displacement value between plants included in the first image and the last image by comparing the first image and the last image of the images acquired by the camera sensor for a predetermined period.

Wherein the wireless communication unit receives a plurality of image files stored in the user terminal from the user terminal and the controller analyzes patterns of at least one object and background recognized from the plurality of image files using an object recognition algorithm, , And a file creation date, and searches at least one of the audio data pre-stored in the storytelling information database by using the analysis information as a parameter value to generate a storytelling-based audio service .

The sensor unit may further include an infrared sensor for sensing an approach of a user within a predetermined distance, and the controller may provide the story service based audio service in conjunction with a detection signal of the infrared sensor.

The object Internet-based Smart Flowerpot according to an embodiment of the present invention may further include an illuminator installed on one side of the container and automatically lighting the natural light according to an alarm of information necessary for growing the plant, .

The object Internet-based smart pollen management system according to an embodiment of the present invention uses state information including at least one of temperature, humidity, radiation amount, air pollution degree, and water content of a soil in a container in which a plant is planted, Smart pollen providing alarm information as necessary; And receiving the unique identification information about the plant from the smart pot to communicate with the smart pot through the Internet (IoT), and transmitting the cultivation information about the plant to the smart pot using the unique identification information And the smart flower pot compares the cultivation information received from the user terminal with the status information and provides information necessary for the growth of the plant as an alarm.

The object Internet-based smart pollen management system according to an embodiment of the present invention includes at least one of weather information including at least one of temperature information, humidity information, solar radiation amount, and air pollution information, A layout database for storing information about the location of the smart pot, and a device for storing information about the device attached to the smart pot, for each pot; And a management server for managing the smart pot using the database.

The management server receives the unique identification information from the user terminal, searches for the cultivation information on the plant from the database using the unique identification information, and transmits the retrieved cultivation information to the smart flower pot Lt; / RTI >

When receiving the event push notification from the social media registered in association with the user terminal, the user terminal drives a camera sensor installed in the smart flowerpot to the SNS server providing the SNS (Social Network Service) And share the image about the plant with the social media to a predetermined message.

The smart pot is an electronic tag attached to one side of a container in which the plant is planted, containing the soil to be cultivated, and storing unique identification information about the plant; At least one sensor for measuring state information including at least one of a temperature, a humidity, an irradiation amount, an air pollution degree, and a moisture content of the recycling soil; A tag reader for reading unique identification information stored in the electronic tag; And transmitting the unique identification information read by the tag reader to the user terminal by wireless communication with the user terminal and receiving cultivation information about the plant from the user terminal in response to the unique identification information, A communication unit; And a controller for comparing the cultivation information with the status information and providing information necessary for growing the plant as an alarm based on the comparison result.

Wherein the wireless communication unit receives the log information related to the usage history of the user terminal from the user terminal and the control unit grasps the usage behavior according to the user's time based on the log information, Customized messages including location recommendations of useful plants or useful plant information and transmit them to the user terminal through the wireless communication unit at a specific time.

The sensor unit may include at least one of a temperature sensor for measuring temperature, a humidity sensor for measuring humidity, a solar radiation sensor for measuring solar radiation amount, an air pollution measuring sensor for measuring air pollution degree, and a moisture sensor for measuring moisture amount of the soil .

Wherein the sensor unit further comprises a camera sensor for periodically photographing the plant to acquire an image of the plant, wherein the control unit compares each of the images acquired by the camera sensor to calculate a displacement value And records the growth of the plant on the basis of the detected displacement value and transmits the record to the user terminal through the wireless communication unit.

The control unit may detect a displacement value between plants included in the first image and the last image by comparing the first image and the last image of the images acquired by the camera sensor for a predetermined period.

Wherein the wireless communication unit receives a plurality of image files stored in the user terminal from the user terminal and the controller analyzes patterns of at least one object and background recognized from the plurality of image files using an object recognition algorithm, , And a file creation date, and searches at least one of the audio data pre-stored in the storytelling information database by using the analysis information as a parameter value to generate a storytelling-based audio service .

The sensor unit may further include an infrared sensor for sensing an approach of a user within a predetermined distance, and the controller may provide the story service based audio service in conjunction with a detection signal of the infrared sensor.

The smart flower pot may be installed on one side of the vessel and may further include an illumination unit for automatically lighting the natural light according to an alarm of information necessary for growing the plant at predetermined time intervals.

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

According to one embodiment of the present invention, by providing alarms of timely information necessary for the growth of plants planted in pots based on the Internet of things, it is possible to easily manage the plants even if the experts are not experts in plants .

FIG. 1 is a block diagram illustrating a configuration of a smart Internet polling management system based on the Internet according to an embodiment of the present invention. Referring to FIG.
FIG. 2 is a block diagram showing a configuration for driving the smart talker of FIG. 1;
3 is a block diagram showing sensors included in the sensor unit of FIG.
FIG. 4 is a diagram illustrating a network configuration for acquiring corresponding information from a weather station server and an agriculture / forestry / fisheries server and storing the information in a database according to an embodiment of the present invention.
5 is a block diagram illustrating a network configuration for providing an SNS interworking service according to an embodiment of the present invention.
FIG. 6 is a flowchart illustrating a method for managing a Smart Internet Flowerpot in accordance with an embodiment of the present invention. Referring to FIG.
FIG. 7 is a flowchart illustrating a method of providing a storytelling-based audio service in an embodiment of the present invention.
8 is a flowchart illustrating a method of providing an SNS interworking service in an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

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

FIG. 1 is a block diagram illustrating a configuration of a smart Internet polling management system based on the Internet according to an embodiment of the present invention. FIG. 2 is a block diagram illustrating a configuration for driving the smart moneybox 110 of FIG. 1, 3 is a block diagram illustrating sensors included in the sensor unit 220 of FIG.

1 to 3, the object Internet-based smart flowerpath management system 100 according to an embodiment of the present invention includes a smart flower pot 110, a user terminal 120, a database 130, A server 140, and the like.

The SmartPower 110 may use the status information including at least one of the temperature, the humidity, the radiation amount, the air pollution degree, and the moisture content of the soil in the container in which the plant is planted to alarm the information necessary for plant growth to provide.

At this time, the smart flower pot 110 may compare the cultivation information received from the user terminal 120, which will be described later, with the status information, and provide information necessary for the growth of the plant as an alarm.

Here, the cultivation information may be defined as information indicating a value or a range of information suitable for cultivation of the plant, that is, a temperature, a humidity, a solar radiation amount, an air pollution degree, and a moisture amount of the soil around the plant.

The smart pollen 110 may include an electronic tag 210, a sensor unit 220, a tag reader 230, a wireless communication unit 240, an illumination unit 250, and a control unit 260.

The electronic tag 210 may be attached to one side of a container in which plants are planted by receiving the soil to be cultivated. The electronic tag 210 may store unique identification information about the plant. The electronic tag 210 may include, for example, an RFID tag, an NFC tag, a QR code, and the like.

In this embodiment, the smart pot 110 may be one or a plurality of smart pots 110. When the smart pots 110 are plural, the electronic tags 210 are attached to the smart pots 110 one by one, Can be stored.

Here, the unique identification information is information for discriminating and recognizing each of the smart pots 110 or information for discriminating and recognizing plants planted in each of the smart pots 110, for example, And the like.

The sensor unit 220 may include at least one sensor for measuring state information including at least one of a temperature, a humidity, an irradiation amount, an air pollution degree, and a water content of the soil in the container in which the plant is planted, have.

That is, the sensor unit 220 includes a temperature sensor 310 for measuring the temperature around the plant, a humidity sensor 320 for measuring the humidity around the plant, a solar radiation sensor 330 for measuring the solar radiation around the plant, An air pollution measuring sensor 340 for measuring an air pollution degree around the plant, and a moisture sensor 350 for measuring a moisture amount of the soil in the container in which the plant is planted.

The sensor unit 220 may further include a camera sensor 360 for periodically photographing the plant to acquire an image of the plant, and an infrared sensor (not shown) for sensing an approach within a certain distance of the user can do. Here, the image obtained by the camera sensor 360 may be used by the control unit 260, which will be described later, to create a record about the growth of the plant. In addition, the detection signal of the infrared sensor may be used as a driving signal for providing a storytelling-based audio service by a controller 260, which will be described later.

The tag reader 230 can read the unique identification information stored in the electronic tag 210. The tag reader 230 may be installed on the surface of the smart tag 110 on which the RFID 210 is attached or may overlap the RFID 210 or be spaced apart from the RFID 210 .

Meanwhile, the tag reader 230 may be replaced with a tag reader module mounted on the user terminal 120, which will be described later. That is, when the tag reader module mounted on the user terminal 120 reads the unique identification information stored in the electronic tag 210, the tag reader 230 can skip the components of the smart flower pot 110 Do.

The wireless communication unit 240 wirelessly communicates with the user terminal 120 to transmit the unique identification information read by the tag reader 230 to the user terminal 120, And receive planting information about the plant from the user terminal 120 in response.

When the tag reader module loaded in the user terminal 120 reads the unique identification information stored in the electronic tag 210, the wireless communication unit 240 transmits the unique identification information to the user terminal 120, It is only necessary to receive the cultivation information about the plant from the user terminal 120 without transmitting it to the user terminal 120. [

In addition to the cultivation information on the plant, the wireless communication unit 240 may include log information on the usage history of the user terminal 120, a plurality of image files stored in the user terminal 120, Not only information for managing the smart flower pot 110 but also information for communicating with the user and the plant, information for providing the SNS interworking service, and the like.

The illumination unit 250 is installed on one side of the container in which the plant is planted, and can automatically light natural light in conjunction with an alarm of information necessary for growing the plant. Here, if the alarm is a means for audibly informing the information necessary for the growth of the plant, the natural light can be used as a means for visually informing that the plant is abnormal (moisture, light deficiency, etc.).

The illumination unit 250 may illuminate the plant with the natural light when it is detected that the plant lacks light. Alternatively, the illumination unit 250 may be utilized as a mood by using the natural light.

Meanwhile, the illuminating unit 250 can automatically illuminate natural light according to a predetermined time period regardless of an alarm of information necessary for growing the plant. For example, the illumination unit 250 may automatically light natural light for a predetermined time in the morning, lunch, and evening.

The control unit 260 may compare the cultivation information with the status information, and provide information necessary for growing the plant as an alarm based on the comparison result. Herein, the information required for the growth of the plant is a value generated based on the error value according to the comparison result between the cultivation information and the state information, and may indicate an adjustment value for temperature, humidity, irradiation amount, air pollution degree, .

For example, if the temperature and humidity around the plant do not match information values (range) suitable for cultivation of the plant as a result of comparing the cultivation information and the state information, (If the temperature error value is -5 and the humidity error value is -10), adjustment for temperature and humidity can be provided as an alarm Values are +5 and +10, respectively).

At this time, the alarm may include a visual alarm and an audible alarm. For the visual alarm, the smart pollen 110 may include a display (not shown), and the smart pollen 110 may include a speaker (not shown) for the audible alarm. For example, the display unit may display the message 'Raise the temperature by 5 ° C and raise the humidity by 10%', and the speaker may output the voice 'Raise the temperature by 5 ° C and raise the humidity by 10%' have. The smart flower pot 110 may further include an input unit (not shown) such as a key operation unit and a microphone so that the user can raise the temperature and the humidity through a key operation or a voice command according to the output of the character and voice as described above can do.

When the control unit 260 receives the log information related to the usage details of the user terminal 120 from the user terminal 120 through the wireless communication unit 240, Can be grasped. The control unit 260 may generate a user-customized message (including recommendation of a flower position or useful plant information) based on the usage pattern, and transmit the user-specific message to the user terminal 120 through the wireless communication unit 240 at a specific time have.

The control unit 260 may compare each of the images obtained by the camera sensor 360 of the sensor unit 220 to detect a displacement value between plants included in each of the images. At this time, the control unit 260 compares the first image and the last image of the images acquired by the camera sensor 360 for a predetermined period, and detects the displacement values between the plants included in the first image and the last image can do.

Specifically, the controller 260 compares the sizes (length, width, etc.) between the plants recognized from the first image and the last image, respectively, and calculates a size difference The displacement value between plants can be detected.

The control unit 260 may record the growth of the plant on the basis of the detected displacement value and transmit the record to the user terminal 120 through the wireless communication unit 240. The user terminal 120 may display a record of the growth of the plant on the screen and display it to the user. Thus, the user can check the record about the growth of the plant.

The control unit 260 may receive at least one object recognized from the plurality of image files when receiving a plurality of image files stored in the user terminal 120 from the user terminal 120 through the wireless communication unit 240. [ And the background can be analyzed using an object recognition algorithm.

Here, the object recognition algorithm assigns a lexical meaning to at least one object (person or object) by sampling, quantizing, or encoding an image pattern recognized from the plurality of image files It refers to a method to grasp the substance of a target object (person, thing).

The control unit 260 may detect analysis information including at least one of a person, an object, a place, and a file creation date from the plurality of image files through pattern analysis using the object recognition algorithm. The control unit 260 may provide at least one of the audio data stored in the storytelling information database (not shown) using the analysis information as a parameter value to provide a storytelling-based audio service.

To this end, each storytelling-based audio data generated based on a person, an object, a place, a date and the like may be stored in advance in the storytelling information database by matching the parameter values of the analysis information. The story telling information database may be provided in the smart flower pot 110.

The control unit 260 may retrieve audio data matching the parameter value of the analysis information from the storytelling information database. The control unit 260 may output the retrieved audio data directly from the smart flower pot 110 through the speaker to provide the user with a storytelling-based audio service.

Alternatively, the controller 260 may transmit the retrieved audio data to the user terminal 120 through the wireless communication unit 240 to provide the user with a storytelling-based audio service.

The control unit 260 may provide the storytelling-based audio service when the infrared sensor of the sensor unit 220 detects that the user approaches the smart flower pot 110 within a certain distance. That is, the control unit 260 may provide the audio service based on the storytelling in conjunction with the detection signal of the infrared sensor.

The beacon module (not shown) may be mounted on the smart pot 110 so that the beacon transmitted from the beacon module may be transmitted to the smart pot 110 via the infrared sensor of the sensor unit 220, ) Signal may be detected by the user terminal 120.

Meanwhile, in an embodiment of the present invention, a plurality of values processed by sensing values of a plurality of smart pots 110 and peripheral device measurement values may be integrated and serially serially automated. For example, when an ultrafine dust advisory is collected from a weather station server (refer to 410 in FIG. 4), information indicating that a flower pot planted with an air purification function among various plants in a flower bed is arranged on a desk, living room, In the evening, you can provide information such as lettuce among the plants along with pork for family or team meals to fine dust. In addition, in an embodiment of the present invention, recommendation information of a flower plant or the like useful when the user is going to sleep or trying to study may be provided as an alarm.

In addition, in an embodiment of the present invention, when a plant such as a herb, a wave, or an onion is grown at home, it may be provided as an alarm when it grows too much and requires a hub or leaf. For example, if you bring up the lettuce in the office, you can provide an alarm that 'it is good to eat now', and after confirming the team meeting today through the scheduler installed in the user terminal 120, You can also provide an alarm that 'you can eat lettuce and sesame leaves grown in your office flower beds.'

The user terminal 120 is connected to the smart flower pot 110 via the Internet (IoT) to receive unique identification information about the plant from the smart flower pot 110, And transmits the cultivation information about the plant to the smart flower pollen 110.

Specifically, the user terminal 120 may transmit unique identification information received from the smart flower pot 110 to a management server 140, which will be described later. The management server 140 may extract the cultivation information about the plant from the database 130 using the unique identification information and transmit the extracted cultivation information to the user terminal 120. The user terminal 120 may receive the cultivation information about the plant from the management server 140 and transmit the information to the smart pot 110.

Here, the user terminal 120 may read the unique identification information stored in the electronic tag 210 of the smart flower pot 110 using a tag reader module (not shown) installed therein. In this case, the user terminal 120 does not need to receive the unique identification information from the smart flower pot 110 through the communication connection based on the smart pot 110 and the object Internet (IoT).

The user terminal 120 may transmit the log information about the usage history of the user terminal 120 stored in the internal memory to the smart pollen 110. Accordingly, the user terminal 120 may receive from the smart pollen 110 a user-customized message that includes recommendations for pollen location or useful plant information at a particular time.

The user terminal 120 may receive a record of the growth of the plant from the smart pot 110 and display it on the screen. Accordingly, the user can check the record of the growth of the plant by viewing the screen of the user terminal 120.

The user terminal 120 may transmit a plurality of image files stored in the user terminal 120 to the smart flower pot 110. Accordingly, the user terminal 120 can receive a storytelling-based audio service from the smart flower pot 110.

The database 130 includes at least one of the variety information on the plant planted in the smart pot 110, the cultivation information on the plant, the temperature, the humidity, the irradiation amount, and the air pollution degree (fine dust, ozone, Information about devices (sensors, LEDs, networks, etc.) attached to the smart pot 110 is matched and stored for each pot.

The management server 140 manages the smart flower pot 110 using the database 130.

Specifically, the management server 140 receives the unique identification information from the user terminal 120, and can retrieve the cultivation information about the plant from the database 130 using the unique identification information. The management server 140 may transmit the searched cultivation information to the smart flower pot through the user terminal 120.

4, the management server 140 obtains the weather information from the weather station server 410 and obtains the variety information and the cultivation information on the plant from the agriculture and forestry server 420 To the database 130 so that the database 130 can store the weather information, the variety information on the plant, and the cultivation information in advance.

On the other hand, the management server 140 displays layout information about the location of the smart pot 110 in the database 130 and layout information about the location of the smart pot 110 based on the information input to the user terminal 120, (The sensor, the LED, the network, and the like) attached to the device 110, the database 130 can store the layout information and the information about the device in advance.

5 is a block diagram illustrating a network configuration for providing an SNS (social network service) interworking service in an embodiment of the present invention.

5, the user terminal 120 may receive an event push notification from the social media 520 through the SNS server 510. [ Here, the SNS server 510 is a server for providing an SNS service, and serves to relay the user terminal 120 and the social media 520, and the social media 520 may include a user terminal 120 ), And may include social media such as Facebook, Twitter, and the like.

In this case, the user terminal 120 drives a camera sensor (refer to 360 in FIG. 3) installed in the smart flower pot 110 to acquire an image of the plant, May be transmitted to the social media 520 and shared.

For example, the user terminal 120 receives an event push notification (not shown) indicating a birthday from the social media 520 such as Facebook, Twitter or the like registered as a friend to the user terminal 120 through the SNS server 510 For example: At present, Facebook friend A Yang's birthday, but you can receive it because the flowers you have handcrafted beautifully have flowered nicely. In this case, the user terminal 120 may automatically share the congratulatory message with Facebook's image on the friend A together with the image about the plant.

FIG. 6 is a flowchart illustrating a method for managing a Smart Internet Flowerpot in accordance with an embodiment of the present invention. Referring to FIG. The object-based Internet pollen management method may be performed by the smart pollen 110 of FIG.

Referring to FIGS. 1, 2 and 6, in step 610, the SmartPower 110 receives a re-cultivation soil and transmits the unique information about the plant to the electronic tag 210 attached to one surface of the container in which the plant is planted. And stores the identification information.

Next, in step 620, the smart pot 110 uses the sensor unit 220 to measure status information including at least one of temperature, humidity, irradiation amount, air pollution degree, and moisture content of the in-container recollection soil .

Next, in step 630, the smart flower pot 110 reads the unique identification information stored in the electronic tag 210 using the tag reader 230. [

In step 640, the smart pollen 110 wirelessly communicates with the user terminal 120 through the wireless communication unit 240 to transmit the unique identification information read by the tag reader 230 To the user terminal (120).

Next, at step 650, the smart pot 110 receives cultivation information about the plant from the user terminal 120 in response to the unique identification information.

Next, in step 660, the smart pot 110 compares the cultivation information with the status information.

Next, in step 670, the smart pot 110 provides information necessary for the growth of the plant as an alarm based on the comparison result.

FIG. 7 is a flowchart illustrating a method of providing a storytelling-based audio service in an embodiment of the present invention. The method of providing the storytelling-based audio service may be performed by the smart pollen 110 of FIG.

Referring to FIGS. 1 and 7, in step 710, the smart flower pot 110 receives a plurality of image files stored in the user terminal 120 from the user terminal 120.

Next, in step 720, the smart pollen 110 recognizes at least one object and background from the plurality of image files.

Next, in step 730, the smart pollen 110 pattern-analyzes the at least one object and background using an object recognition algorithm.

Here, the object recognition algorithm assigns a lexical meaning to at least one object (person or object) by sampling, quantizing, or encoding an image pattern recognized from the plurality of image files It refers to a method to grasp the substance of a target object (person, thing).

Next, in step 740, the smart pollen 110 detects the analysis information including at least one of the person, object, place, and file creation date from the plurality of image files through pattern analysis using the object recognition algorithm do.

Next, in step 750, the smart flower pot 110 searches at least one of the audio data previously stored in the storytelling information database (not shown) using the analysis information as a parameter value.

To this end, each storytelling-based audio data generated based on a person, an object, a place, a date and the like may be stored in advance in the storytelling information database by matching the parameter values of the analysis information. The story telling information database may be provided in the smart flower pot 110.

Next, in step 760, the smart flower pot 110 provides a storytelling-based audio service using the retrieved audio data.

That is, the smart flower polls 110 output the searched audio data directly through a speaker (not shown) or transmit it to the user terminal 120 and output it indirectly through the user terminal 120, Based audio service.

FIG. 8 is a flowchart illustrating a method for providing an SNS (Social Network Service) interworking service in an embodiment of the present invention.

5 and 8, in step 810, the user terminal 120 receives an event push notification from the social media 520 through the SNS server 510.

For example, the user terminal 120 receives an event push notification (not shown) indicating a birthday from the social media 520 such as Facebook, Twitter or the like registered as a friend to the user terminal 120 through the SNS server 510 For example: At present, Facebook friend A Yang's birthday, but you can receive it because the flowers you have handcrafted beautifully have flowered nicely.

Next, in step 820, the user terminal 120 drives a camera sensor (refer to 360 in FIG. 3) installed in the smart pot 110.

For this purpose, the user terminal 120 may transmit a control signal for driving the camera sensor to the smart flower pot 110. [

Next, in step 830, the user terminal 120 obtains an image of the plant from the camera sensor.

That is, the camera sensor may be driven by a control signal from the user terminal 120 to capture an image of the plant, and the smart flower pot 110 may transmit the photographed image to the user terminal 120 have. Thus, the user terminal 120 can acquire an image of the plant.

Next, in step 840, the user terminal 120 shares the image of the plant with the social media 520 together with a predetermined message.

In the case of the above example, the user terminal 120 can automatically share the birthday message with the image of the plant on Facebook of Friend A.

Embodiments of the present invention include computer readable media including program instructions for performing various computer implemented operations. The computer-readable medium may include program instructions, local data files, local data structures, etc., alone or in combination. The media may be those specially designed and constructed for the present invention or may be those known to those skilled in the computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROMs and DVDs, magneto-optical media such as floppy disks, and ROMs, And hardware devices specifically configured to store and execute the same program instructions. 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.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

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, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only by the appended claims, and all equivalent or equivalent variations thereof are included in the scope of the present invention.

100: Smart pollen management system based on things Internet
110: Smart potted plants
120: User terminal
130: DB
140: management server
210: Electronic tag
220:
230: Tag Reader
240:
250:
260:
310: Temperature sensor
320: Humidity sensor
330: Radiation sensor
340: Air pollution measurement sensor
350: Moisture sensor
360: Camera sensor
410: weather station server
420: Ministry of Agriculture, Forestry and Fisheries server
510: SNS server
520: Social Media

Claims (20)

An electronic tag attached to one surface of the container in which the plant is planted, accommodating the soil to be cultivated, and storing unique identification information about the plant;
At least one sensor for measuring state information including at least one of a temperature, a humidity, an irradiation amount, an air pollution degree, and a moisture content of the recycling soil;
A tag reader for reading unique identification information stored in the electronic tag;
A wireless communication unit for performing wireless communication with a user terminal to transmit the unique identification information read by the tag reader to the user terminal and receiving cultivation information about the plant from the user terminal in response to the unique identification information, ; And
A control unit for comparing the cultivation information with the status information and providing information necessary for growth of the plant as an alarm based on the comparison result;
Based Internet smart potted plant.
The method according to claim 1,
The wireless communication unit
Receiving log information relating to a usage history of the user terminal from the user terminal,
The control unit
A user-customized message including recommendation of a position of a flowerpot or useful plant information based on the usage pattern based on the user's time based on the log information, To the user terminal.
The method according to claim 1,
The sensor unit
At least one of a temperature sensor for measuring the temperature, a humidity sensor for measuring the humidity, a solar radiation sensor for measuring the solar radiation amount, an air pollution measuring sensor for measuring the air pollution degree, and a moisture sensor for measuring the moisture amount of the soil. Things to do Internet-based smart pots.
The method according to claim 1,
The sensor unit
Further comprising a camera sensor for periodically photographing the plant to obtain an image of the plant,
The control unit
Comparing the images obtained by the camera sensor with each other to detect a displacement value between plants contained in each of the images, and writing a record of the growth of the plant based on the detected displacement value, To the user terminal.
5. The method of claim 4,
The control unit
And comparing the first image and the last image of the images acquired by the camera sensor for a predetermined period of time to detect a displacement value between the plants included in the first image and the last image.
The method according to claim 1,
The wireless communication unit
Receiving a plurality of image files stored in the user terminal from the user terminal,
The control unit
Detecting analysis information including at least one of a person, an object, a place, and a file creation date by pattern-analyzing at least one object and a background recognized from the plurality of image files using an object recognition algorithm, Wherein the at least one of the audio data stored in the storytelling information database is used as a parameter value to provide a storytelling-based audio service.
The method according to claim 6,
The sensor unit
Further comprising an infrared sensor for sensing an approach within a predetermined distance of the user,
The control unit
And providing the storytelling-based audio service in association with a detection signal of the infrared sensor.
The method according to claim 1,
A lighting unit installed on one side of the vessel and automatically lighting the natural light in accordance with an alarm of information necessary for growing the plant in predetermined time zones;
Wherein the smart potted object is based on the Internet.
A smart flower pot providing information necessary for the growth of the plant as an alarm by using state information including at least one of temperature, humidity, radiation amount, air pollution degree, and moisture content of the soil in the container; And
The method of claim 1, further comprising the steps of: communicating with the smart flower pot based on the Internet (IoT) to receive unique identification information about the plant from the smart flower pot and transmitting cultivation information about the plant to the smart pot using the unique identification information User terminal
Lt; / RTI >
The smart flower pot
Wherein the information about the growth of the plant is provided as an alarm by comparing the cultivation information received from the user terminal with the status information.
10. The method of claim 9,
Information on a variety of plants planted in the smart pot flower, cultivation information on the plant, weather information including at least one of temperature, humidity, solar radiation amount and air pollution degree, layout information on the position of the smart pot flower, A database for storing information on devices attached to each flower pot for each flower pot; And
A management server for managing the smart flower pot using the database;
Based smart pot management system.
11. The method of claim 10,
The management server
The planting method of the present invention is characterized by receiving the unique identification information from the user terminal, searching for the planting information on the plant from the database using the unique identification information, and transmitting the searched cultivation information to the smart flower pot through the user terminal Internet based smart pollen management system.
10. The method of claim 9,
The user terminal
When receiving an event push notification from a social media registered in association with the user terminal in an SNS server that provides a social network service (SNS) service, the camera sensor installed in the smart flower pot is driven to acquire an image of the plant And sharing an image of the plant with the social media together with a predetermined message.
10. The method of claim 9,
The smart flower pot
An electronic tag attached to one surface of the container in which the plant is planted, accommodating the soil to be cultivated, and storing unique identification information about the plant;
At least one sensor for measuring state information including at least one of a temperature, a humidity, an irradiation amount, an air pollution degree, and a moisture content of the recycling soil;
A tag reader for reading unique identification information stored in the electronic tag;
And transmitting the unique identification information read by the tag reader to the user terminal by wireless communication with the user terminal and receiving cultivation information about the plant from the user terminal in response to the unique identification information, A communication unit; And
A control unit for comparing the cultivation information with the status information and providing information necessary for growth of the plant as an alarm based on the comparison result;
Based smart pot management system.
14. The method of claim 13,
The wireless communication unit
Receiving log information relating to a usage history of the user terminal from the user terminal,
The control unit
A user-customized message including recommendation of a position of a flowerpot or useful plant information based on the usage pattern based on the user's time based on the log information, And transmitting the collected information to a user terminal.
14. The method of claim 13,
The sensor unit
At least one of a temperature sensor for measuring the temperature, a humidity sensor for measuring the humidity, a solar radiation sensor for measuring the solar radiation amount, an air pollution measuring sensor for measuring the air pollution degree, and a moisture sensor for measuring the moisture amount of the soil. Internet based smart pollen management system.
14. The method of claim 13,
The sensor unit
Further comprising a camera sensor for periodically photographing the plant to obtain an image of the plant,
The control unit
Comparing the images obtained by the camera sensor with each other to detect a displacement value between plants contained in each of the images, and writing a record of the growth of the plant based on the detected displacement value, To the user terminal through the Internet.
17. The method of claim 16,
The control unit
And comparing the first image and the last image of the images acquired by the camera sensor for a predetermined period of time to detect a displacement value between the plants included in the first image and the last image, system.
14. The method of claim 13,
The wireless communication unit
Receiving a plurality of image files stored in the user terminal from the user terminal,
The control unit
Detecting analysis information including at least one of a person, an object, a place, and a file creation date by pattern-analyzing at least one object and a background recognized from the plurality of image files using an object recognition algorithm, Wherein the at least one of the audio data stored in the storytelling information database is used as a parameter value to provide a storytelling-based audio service.
19. The method of claim 18,
The sensor unit
Further comprising an infrared sensor for sensing an approach within a predetermined distance of the user,
The control unit
And providing the storytelling-based audio service in conjunction with the detection signal of the infrared sensor.
14. The method of claim 13,
The smart flower pot
A lighting unit installed on one side of the vessel and automatically lighting the natural light in accordance with an alarm of information necessary for growing the plant in predetermined time zones;
Based smart pot management system.

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