KR20210077127A - Phytotron and the method thereof - Google Patents

Abstract

The present invention relates to a plant cultivation apparatus including: a plant accommodating portion having a space where a plant to be cultivated can be accommodated; an environment providing unit capable of providing at least one environmental element for cultivating the plant; a user input unit; and a processor identifying cultivation usable characteristics of the plant accommodated in the plant accommodating portion, designating a target characteristic value within the range of the identified cultivation usable characteristics in accordance with user input received through the user input unit, and controlling the environment providing unit such that the environmental element is provided that is one of the one or more environmental elements and has an environmental element value corresponding to the designated target characteristic value.

Description

Plant cultivation apparatus and its control method {PHYTOTRON AND THE METHOD THEREOF}

The present invention relates to a plant cultivation apparatus for controlling a cultivation environment and a method for controlling the same.

Recently, along with the awareness of environmental pollution, interest in safe food is also increasing. As the demand for organic vegetables unaffected by pesticides and environmental pollution increases, the need for plant cultivation equipment that can grow plants in a controlled environment and can be conveniently used at home also increases. have.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a plant cultivation apparatus capable of more effectively controlling the characteristics of plants when cultivating plants, etc. using the plant cultivation apparatus, and a method for controlling the same.

In the plant cultivation apparatus according to an embodiment of the present invention, the plant receiving unit having a space to accommodate a plant to be cultivated; an environment providing unit capable of providing at least one environmental element for cultivating the plant; user input unit; and identifying the cultivable characteristics of the plant accommodated in the plant receiving unit, and designating a target characteristic value within the range of the identified cultivable characteristics according to a user input received through the user input unit, and among the at least one environment element and a processor controlling the environment providing unit to provide an environment element having an environment element value corresponding to the specified target characteristic value.

The cultivable properties of the plant may include at least one of taste, texture, aroma, and nutrients.

The environmental element may include at least one of temperature, light, humidity, watering cycle, or airflow.

In the plant cultivation apparatus according to an embodiment of the present invention, further comprising an interface unit, the processor may receive information of at least one of cultivable characteristics of the plant or the environmental factor from an external device through the interface unit. have.

The user input unit may include at least one of a button input unit and a touch panel capable of receiving the user input for selecting a target characteristic value within the range of the identified plant cultivable characteristics.

The processor may display a graphical user interface (GUI) indicating the identified cultivateable characteristics on the display.

The processor displays, on the display, a graphical user interface (GUI) capable of selecting a target characteristic value within the range of the cultivable characteristic of the identified plant, and receives a user input for selecting a target characteristic value from the displayed graphical user interface can receive

The processor may display, on the display, the graphic user interface that provides different ranges for selecting the target characteristic value according to at least one of the identified plant type or each cultivation-available characteristic.

The processor may display a graphic user interface indicating information for recommending the target characteristic value on the display.

The processor may acquire the recommended information based on at least one of user information, a usage history, or a preference of another user.

In the plant cultivation apparatus according to an embodiment of the present invention, further comprising at least one sensor, wherein the processor provides the environmental element based on at least one of the type or state of the plant identified through the sensor It is possible to control the environment providing unit as much as possible.

In a control method of a plant cultivation apparatus according to an embodiment of the present invention, the method comprising: identifying the cultivation available characteristics of a plant accommodated in a plant receiving unit having a space capable of accommodating a plant to be cultivated; designating a target characteristic value within the range of the identified cultivable characteristics according to a user input received through a user input unit; and controlling the environment providing unit to provide an environmental element having an environmental element value corresponding to the specified target characteristic value among at least one environmental element for cultivating plants.

In the method of controlling a plant cultivation apparatus according to an embodiment of the present invention, the method may include receiving information on at least one of the cultivation availability characteristics of the plant or the environmental factor from an external device through an interface unit.

Designating a target characteristic value within the range of the identified cultivable characteristic may include: displaying a graphical user interface (GUI) indicating the identified cultivable characteristic on a display; displaying on the display a graphical user interface (GUI) capable of selecting a target characteristic value within the range of the cultivable characteristic of the identified plant; and receiving a user input for selecting a target characteristic value in the displayed graphical user interface.

The step of displaying a graphical user interface (GUI) for selecting the target characteristic value on the display includes a range in which the target characteristic value can be selected according to at least one of the identified plant type or each cultivation-available characteristic. The method may include displaying the graphical user interfaces provided differently on the display.

The designating the target characteristic value within the range of the identified cultivable characteristic may include displaying on a display a graphic user interface indicating information recommending the target characteristic value.

In the recording medium storing a computer program including a code for performing a control method of an electronic device as a computer readable code, the control method of the plant cultivation device includes a plant having a space capable of accommodating a plant to be cultivated. identifying the cultivable characteristics of the plant accommodated in the receiving unit; designating a target characteristic value within the range of the identified cultivable characteristics according to a user input received through a user input unit; and controlling the environment providing unit to provide an environmental element having an environmental element value corresponding to the specified target characteristic value among at least one environmental element for cultivating plants.

Since plants can be grown according to the user's preference, the user's satisfaction with the use of the plant cultivation apparatus can be increased, and the convenience of use can be increased.

1 is a view showing a plant cultivation apparatus according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a plant cultivation apparatus according to an embodiment of the present invention.
3 is a diagram illustrating an operation flowchart of a plant cultivation apparatus according to an embodiment of the present invention.
4 is a view showing a touch panel of a plant cultivation apparatus according to an embodiment of the present invention.
5 is a diagram illustrating a graphic user interface (GUI) for using a plant cultivation apparatus according to an embodiment of the present invention.
6 is a diagram illustrating a graphic user interface (GUI) for using a plant cultivation apparatus according to an embodiment of the present invention.
7 is a diagram illustrating a graphic user interface (GUI) for using a plant cultivation apparatus according to an embodiment of the present invention.
8 is a view illustrating a change in cultivation availability characteristics according to a change in an environmental factor according to the present embodiment.
9 is a diagram illustrating a change in cultivation availability characteristics according to a change in environmental factors according to the present embodiment.
10 is a diagram illustrating a change in cultivation availability characteristics according to a change in environmental factors according to the present embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numbers or symbols refer to components that perform substantially the same function, and the size of each component in the drawings may be exaggerated for clarity and convenience of description. However, the technical spirit of the present invention and its core configuration and operation are not limited to the configuration or operation described in the following embodiments. In describing the present invention, if it is determined that a detailed description of a known technology or configuration related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In an embodiment of the present invention, terms including an ordinal number such as first, second, etc. are used only for the purpose of distinguishing one element from another element, and the expression of the singular is plural unless the context clearly indicates otherwise. includes the expression of In addition, in an embodiment of the present invention, terms such as 'consisting', 'comprising', 'having' and the like are one or more other features or the presence of numbers, steps, operations, components, parts, or combinations thereof. Or it should be understood that the possibility of addition is not excluded in advance. In addition, in an embodiment of the present invention, a 'module' or 'unit' performs at least one function or operation, and may be implemented as hardware or software or a combination of hardware and software, and is integrated into at least one module. and can be implemented. Further, in an embodiment of the present invention, at least one of the plurality of elements refers to all of the plurality of elements as well as each one or a combination thereof excluding the rest of the plurality of elements.

1 is a view showing a plant cultivation apparatus according to an embodiment of the present invention. The plant cultivation apparatus 100 shown in FIG. 1 includes a plant receiving unit 210 , an environment providing unit 220 , a user input unit 230 , and a sensor 290 .

What can be cultivated in the plant cultivation apparatus 100, for example, vegetables, fruits, flowers, etc. exist in various ways, and are not limited to any one, but for convenience of explanation, 'plants' in a sense encompassing all types that can be cultivated express that

The plant accommodating unit 210 has a space capable of accommodating a plant to be grown, and there is no limitation in size and shape thereof. As shown in FIG. 1 , the plant cultivation apparatus 100 is made of several layers, and the plant receiving unit 210 may also be divided into several layers or may be formed at regular intervals within the same layer. The user can place a separate container containing the seeds or seedlings of a plant as it is in the plant receiving unit 210, and in the case of soil or hydroponics in the plant receiving unit 210 itself, place water in it and plant seeds or seedlings there. can be used appropriately. The environment providing unit 220 may be composed of devices necessary for cultivating plants, such as lighting or a water supply unit.

According to an embodiment of the present invention, when the user puts a plant that the user wants to cultivate in the plant receiving unit 210, the sensor 290 can detect the type or state of the plant, The plant cultivation apparatus 100 may grow plants by controlling the environment providing unit 220 so as to satisfy the growth environment according to the plants. In this case, the user may designate the cultivation available characteristics of the plant through the user input unit 230 . The cultivable properties of the plant may include at least one of taste, texture, aroma, or nutrients. Since user preferences for cultivation results are different, there is a need for a method of controlling the cultivation availability of plants by controlling the cultivation environment. For example, by applying stress to plants by controlling the cultivation environment, such as irradiating short-wavelength light or increasing the temperature difference between day and night, the plant secretes phytochemicals such as anti-stress substances as a self-defense mechanism to induce taste It can make it crispy and enhance the taste. Therefore, according to an embodiment of the present invention, when the taste of a plant to be grown by the user can be adjusted according to the cultivation environment, the plant cultivation apparatus 100 controls the cultivation environment of the plant to produce a plant selected by the user. Plants suitable for sugar content can be grown. Cultivation environment control according to more detailed cultivation available characteristics will be described later. It is only one embodiment of the plant cultivation apparatus 100 shown in FIG. 1 , and the shape, arrangement or components are not limited thereto, and various implementations are possible.

According to an embodiment of the present invention, the user's satisfaction with using the plant cultivation apparatus can be increased by cultivating a plant suitable for the user's preference by adjusting the cultivation environment.

2 is a block diagram showing the configuration of a plant cultivation apparatus according to an embodiment of the present invention.

The plant cultivation apparatus 100 may include a plant receiving unit 210 . Since the plant accommodating unit 210 may have different sizes or shapes as described above, when a user wants to grow a plurality of plants, it may be possible to separate the cultivation environment for each plant accommodating unit.

The plant cultivation apparatus 100 may include an environment providing unit 220 . According to an embodiment of the present invention, the environment providing unit 220 may provide at least one environmental element for cultivating plants. Environmental factors may include, but are not limited to, at least one of, for example, temperature, light, humidity, water supply cycle, or airflow. The environment providing unit 200 may be provided with means for controlling each environmental element. For example, the environment providing unit 220 may be provided with an artificial light source, such as a temperature control device for controlling the temperature, LED, OLED, or incandescent lamp that provides light necessary for plants. In addition, a humidity control device for controlling humidity, a water supply unit that can control the water supply cycle or water supply amount, a ventilator for smooth supply and air circulation of carbon dioxide (CO2) necessary for plant growth, and nutrients necessary for plants can be provided. A nutrient solution supply means may be provided.

The plant cultivation apparatus 100 may include a user input unit 230 . The user input unit 230 includes various types of input interface related circuits provided to perform user input. The user input unit 230 can be configured in various forms, for example, an electronic button unit such as a mechanical button unit or a touch panel provided in the plant cultivation apparatus 100, a remote controller separated from the plant cultivation apparatus 100, a plant There is an input unit in an external device connected to the cultivation apparatus 100, a touch screen, and the like.

The plant cultivation apparatus 100 may include an interface unit 240 . The interface unit 240 may include a wired interface unit 241 . The wired interface unit 241 may include a connector or port according to a universal data transmission standard such as a USB port. The wired interface unit 241 may include a connector or a port to which an optical cable can be connected according to an optical transmission standard. The wired interface unit 241 may include a connector or port according to a network transmission standard such as Ethernet. For example, the wired interface unit 241 may be implemented as a LAN card connected by wire to a router or gateway. The wired interface unit 241 may be connected to an external device such as a set-top box, an optical media player, or an external display device or a server through the connector or port in a 1:1 or 1:N (N is a natural number) method. It may also include a connector or port that can be In addition, the wired interface unit 241 may be embedded in the plant cultivation apparatus 100 or implemented in the form of a dongle or a module to be detachable from the connector of the plant cultivation apparatus 100 .

The interface unit 240 may include a wireless interface unit 242 . The wireless interface unit 242 may be implemented in various ways in response to the implementation form of the plant cultivation apparatus 100 . For example, the wireless interface unit 242 is a communication method such as radio frequency (RF), Zigbee, Bluetooth, Wi-Fi, Ultra WideBand (UWB) and Near Field Communication (NFC). Wireless communication can be used. The wireless interface unit 242 may be implemented as a wireless communication module that performs wireless communication with an AP according to a Wi-Fi method, or a wireless communication module that performs one-to-one direct wireless communication such as Bluetooth. The wireless interface unit 242 may transmit and receive data packets to and from the server by wirelessly communicating with the server on the network. The wireless interface unit 242 may include an IR transmitter and/or an IR receiver capable of transmitting and/or receiving an IR (Infrared) signal according to an infrared communication standard. The wireless interface unit 242 may receive or input a remote control signal from a remote control unit or another external device through an IR transmitter and/or an IR receiver, or transmit or output a remote control signal to another external device. As another example, the plant cultivation apparatus 100 may transmit/receive a remote control signal to and from a remote control or other external device through a wireless interface unit 242 of another method such as Wi-Fi or Bluetooth.

The plant cultivation apparatus 100 may include a display unit 250 . The display unit 250 includes a display panel capable of displaying an image on the screen. The display panel is provided with a light-receiving structure such as a liquid crystal type or a self-luminous structure such as an OLED type. The display unit 250 may further include additional components according to the structure of the display panel. For example, if the display panel is a liquid crystal type, the display unit 250 includes a liquid crystal display panel and a backlight unit for supplying light. and a panel driving substrate for driving the liquid crystal of the liquid crystal display panel.

The plant cultivation apparatus 100 may include a storage unit 260 . The storage unit 260 stores digitized data. The storage unit 260 is a non-volatile storage that can preserve data regardless of whether or not power is provided, and data to be processed by the processor 300 is loaded, and data is stored when power is not provided. It includes memory of volatile properties that cannot. Storage includes flash-memory, hard-disc drive (HDD), solid-state drive (SSD), read-only memory (ROM), etc., and memory includes buffer and random access memory (RAM). etc.

The plant cultivation apparatus 100 may include a microphone 270 . The microphone 270 collects sounds of the external environment including the user's voice. The microphone 270 transmits the collected sound signal to the processor 300 . The plant cultivation apparatus 100 may receive a voice signal from an external device, such as a remote controller or a smart phone, having a microphone 270 for collecting the user's voice, or a remote controller having a microphone through the interface unit 240 . A remote controller application may be installed in an external device to control the plant cultivation apparatus 100 or perform functions such as voice recognition. In the case of an external device installed with such an application, a user voice can be received, and the external device can transmit/receive and control data using the plant cultivation device 100 and Wi-Fi/BT or infrared rays, etc., the communication method A plurality of interface units 240 that can implement may exist in the plant cultivation apparatus 100 .

The plant cultivation apparatus 100 may include a speaker 280 . The speaker 280 outputs audio data processed by the processor 300 as sound. The speaker 280 may include a unit speaker provided to correspond to audio data of one audio channel, and may include a plurality of unit speakers to respectively correspond to audio data of a plurality of audio channels. As another embodiment, the speaker 280 may be provided separately from the plant cultivation apparatus 100, in which case the plant cultivation apparatus 100 may transmit audio data to the speaker 280 through the interface unit 240. have.

The plant cultivation apparatus 100 may include a sensor 290 . The sensor 290 may be a sensor for detecting the type of plant, and may be a sensor for detecting the state of a plant required to control environmental elements such as a temperature sensor, a moisture sensor, and a pressure sensor. The plant cultivation apparatus 100 can analyze the moisture content and nutrients (including sugar) of plants by detecting the leaves of plants in the 1000-2000 nm band through the sensor 290, so it is possible to provide feedback to the control of environmental factors. may be

The plant cultivation apparatus 100 may include a processor 300 . The processor 300 includes one or more hardware processors implemented with a CPU, a chipset, a buffer, a circuit, etc. mounted on a printed circuit board, and may be implemented as a system on chip (SOC) depending on a design method. The processor 300 includes modules corresponding to various processes such as a demultiplexer, a decoder, a scaler, an audio digital signal processor (DSP), and an amplifier when the plant cultivation apparatus 100 is implemented as a display device. Here, some or all of these modules may be implemented as SOC. For example, a module related to image processing such as a demultiplexer, a decoder, and a scaler may be implemented as an image processing SOC, and an audio DSP may be implemented as a chipset separate from the SOC.

When the processor 300 obtains a voice signal for the user's voice by the microphone 270 or the like, the processor 300 may convert the voice signal into voice data. In this case, the voice data may be text data obtained through a speech-to-text (STT) process for converting a voice signal into text data. The processor 300 identifies a command indicated by the voice data, and performs an operation according to the identified command. The voice data processing process and the command identification and execution process may all be executed in the plant cultivation apparatus 100 . However, in this case, since the system load and required storage capacity required for the plant cultivation apparatus 100 become relatively large, at least a part of the process is at least one server that is communicatively connected to the plant cultivation apparatus 100 through a network. can be performed by

The processor 300 according to the present invention may call at least one command among commands of software stored in a storage medium readable by a machine such as the plant cultivation apparatus 100 and execute it. . This enables a device such as the plant cultivation apparatus 100 to be operated to perform at least one function according to the called at least one command. The one or more instructions may include code generated by a compiler or code executable by an interpreter. The device-readable storage medium may be provided in the form of a non-transitory storage medium. Here, 'non-transitory' only means that the storage medium is a tangible device and does not include a signal (eg, electromagnetic wave), and this term refers to a case in which data is semi-permanently stored in a storage medium and a case in which data is temporarily stored. It does not distinguish between cases where

Meanwhile, the processor 300 designates a target characteristic value within the range of the identified cultivable characteristics according to a user input received through the user input unit 230 , and an environmental element value corresponding to the specified characteristic value among at least one environmental element. Rule-based at least a part of data analysis, processing, and result information generation for providing an environment element having Alternatively, as an artificial intelligence algorithm, it may be performed using at least one of machine learning, a neural network, or a deep learning algorithm.

For example, the processor 300 may perform the functions of the learning unit and the recognition unit together. The learning unit may perform a function of generating a learned neural network, and the recognition unit may perform a function of recognizing (or inferring, predicting, estimating, and judging) data using the learned neural network. The learning unit may create or update the neural network. The learning unit may acquire learning data to generate a neural network. For example, the learning unit may acquire the learning data from the storage unit 260 or the outside. The learning data may be data used for learning of the neural network, and the neural network may be trained by using the data obtained by performing the above-described operation as learning data.

The learning unit may perform a preprocessing operation on the acquired training data before training the neural network using the training data, or may select data to be used for learning from among a plurality of training data. For example, the learning unit may process the learning data into a preset format, filter it, or add/remove noise to process the learning data into a form suitable for learning. The learner may generate a neural network set to perform the above-described operation by using the preprocessed learning data.

The learned neural network network may be composed of a plurality of neural network networks (or layers). Nodes of the plurality of neural networks have weights, and the plurality of neural networks may be connected to each other so that an output value of one neural network is used as an input value of another neural network. Examples of neural networks include Convolutional Neural Network (CNN), Deep Neural Network (DNN), Recurrent Neural Network (RNN), Restricted Boltzmann Machine (RBM), Deep Belief Network (DBN), Bidirectional Recurrent Deep Neural Network (BRDNN) and It can include models such as Deep Q-Networks.

Meanwhile, the recognizer may acquire target data to perform the above-described operation. The target data may be obtained from the storage unit 260 or from the outside. The target data may be data to be recognized by the neural network. The recognizer may perform preprocessing on the acquired target data before applying the target data to the learned neural network, or select data to be used for recognition from among a plurality of target data. For example, the recognition unit may process the target data into a preset format, filter, or add/remove noise to process the target data into a form suitable for recognition. The recognizer may obtain an output value output from the neural network by applying the preprocessed target data to the neural network. The recognition unit may obtain a probability value or a reliability value together with the output value.

For example, the control method of the plant cultivation apparatus 100 according to the present invention may be provided by being included in a computer program product. The computer program product may include instructions for software executed by the processor 300 , as described above. Computer program products may be traded between sellers and buyers as commodities. The computer program product is distributed in the form of a machine-readable storage medium (eg, CD-ROM), or via an application store (eg, Play Store™) or between two user devices (eg, smartphones). It can be distributed directly, online (eg, downloaded or uploaded). In the case of online distribution, at least a part of the computer program product may be temporarily stored or temporarily created in a machine-readable storage medium such as a memory of a server of a manufacturer, a server of an application store, or a relay server.

3 is a diagram illustrating an operation flowchart of a plant cultivation apparatus according to an embodiment of the present invention.

In this embodiment, an operation flowchart of the plant cultivating apparatus 100 that provides an environmental element suitable for cultivable characteristics of a plant selected by a user is illustrated. The processor 300 may identify the cultivable characteristics of the plant accommodated in the plant accommodating unit 210 (S310). Before the processor 300 identifies the cultivable characteristics of the plant, it is necessary to identify which plant the user wants to cultivate. It is assumed that the user plants seeds or seedlings of plants through a separate container in the plant receiving unit 210 . A container containing a plant may have a barcode containing information about the plant attached thereto, and the processor 300 may recognize the barcode attached to the container through the sensor 290 to identify the type of the plant. . However, in addition to this, when information about plants is not known, such as there is no barcode, the user may directly select which plants are planted through the user input unit 230 of the plant cultivation apparatus 100, and is limited to any one it is not When the type of plant is identified, the processor 300 may identify cultivable characteristics of the plant through data about the plant stored in the storage unit 260 . When the data about the plant is not stored in the storage unit 260, the processor 300 may receive data about the plant from an external device including a server through the interface unit 240, and based on the received data Thus, it is possible to identify the cultivable characteristics of the plant. Alternatively, the processor 300 may receive information about the cultivable characteristics of plants through the interface unit 240 from an external device. For example, if the plant identified by the processor 300 through the sensor 290 is A, using data about the plant A acquired through the storage unit 260 , the cultivable characteristics of the plant A may vary according to the cultivation environment. It is possible to control sweetness, or it is possible to identify a characteristic in which a specific nutrient is secreted through a phytochemical secreted by plant A in a specific cultivation environment.

The processor 300 may designate a target characteristic value within the range of the identified cultivateable characteristics according to a user input received through the user input unit 230 ( S320 ). The processor 300 may display a graphic user interface (GUI) indicating the identified cultivable characteristics on the display, and the user may want among the cultivable characteristics identified by the plant cultivation apparatus 100 based on the GUI. The cultivation available characteristics may be selected through the user input unit 230 . The user input unit 230 may be a touch panel provided in the plant cultivation apparatus 100 .

For example, one of all levels 1 to 5 may be designated for the sugar level of the plant, and when the user selects step 5, the processor 300 may designate a target characteristic value corresponding to the sugar level 5 level of the plant A.

The processor 300 may control the environment providing unit 220 to provide an environmental element having an environmental element value corresponding to a specified target characteristic value among at least one environmental element ( S330 ). The processor 300 may identify an environmental element value corresponding to the target characteristic value through the data about the plant stored in the storage unit 260 . When the data about the plant is not stored in the storage unit 260 , the processor 300 may receive data about the plant from an external device through the interface unit 240 , and based on the received data, the target of the plant An environment element value corresponding to the characteristic value may be identified. Alternatively, the processor 300 may receive information about an environmental element from an external device through the interface unit 240 . The processor 300 may control the environment providing unit 220 to provide the environmental element having the identified environmental element value. For example, when a user selects 5 levels of sugar content, that is, when a rapid change in temperature is required to cultivate plants to give strong sweetness, the processor temporarily maintains the temperature at 30° C. through the temperature control device of the environment providing unit 220 . It can be controlled to lower it to 10°C and raise it to 30°C again.

Recently, interest in plant cultivation devices is increasing due to environmental problems, leisure life, and personal preference. According to an embodiment of the present invention, it is possible to provide a user-customized service for cultivating a desired characteristic among the cultivation available characteristics of a plant that the user wants to cultivate according to the user's preference, so that the user's convenience in using the plant cultivation apparatus can be provided. can improve quality of life.

4 is a view showing a state of a plant cultivation apparatus according to an embodiment of the present invention. 4 provides a fixed user input unit. The user input unit according to an embodiment of the present invention may be implemented in various ways, such as a physical input unit such as a button input unit, or a category, and a part for adjusting the value is made of a touch panel. As shown in FIG. 4 , in the case of characters written with taste and texture, the portion is a fixed portion, and the portion for adjusting the value is formed of a touch panel, so that the processor 300 may receive a user input. According to an embodiment of the present invention, it is possible to give the user convenience in using the plant cultivation apparatus through the implementation of various types of user input units. Hereinafter, unlike this figure, the user input unit 230 using a graphical user interface (GUI) will be described with reference to FIGS. 5 to 7 .

5 is a diagram illustrating a graphic user interface (GUI) for using a plant cultivation apparatus according to an embodiment of the present invention. It may be difficult for the user to know which cultivable characteristics the plant to be cultivated has and how to adjust the cultivable characteristics. Therefore, according to an embodiment of the present invention, the processor 300 displays the GUIs 520 and 530 on the display 510 so that, when a user plants a specific plant, the cultivable characteristics of the corresponding plant can be easily adjusted or selected. can be displayed The display 510 of this embodiment may mean a display unit 250 built in the plant cultivation apparatus 100 or a display of an external device connected to the plant cultivation apparatus 100 and the interface unit 240 through the , is not limited to any one. The GUI of this embodiment may include a GUI 520 indicating the identified cultivable characteristics and a GUI 530 capable of selecting a target characteristic value within the range of the identified cultivable characteristics of the plant. The GUI 520 may indicate basic cultivable characteristics of a plant planted by the user. In the present disclosure, among the cultivated properties of the plant, the taste is various, such as sweet, bitter, salty, and spicy. The processor 300 may help a user to select a target characteristic value of a plant by identifying basic characteristics of the corresponding plant and displaying it on the display 510 . The GUI 530 may indicate a target characteristic value within the range of the specifically identified cultivable characteristic of the plant. For example, as shown in FIG. 5 , plant A can control taste, texture, aroma, and nutrients. You can choose one of sweet and sour taste, and you can select one of soft, crunchy, and chewy texture. In the case of incense, like a sound equalizer, the level can be adjusted by scrolling (or numbers) according to the user's preference. Specifically, if the lightest scent is the left end of the scroll (or step 0), and if the darkest scent is the right end of the scroll (or step 9), scroll (or step) between light and dark according to the user's preference. can be adjusted by moving Nutrients can be selected from antioxidant activity and vitamin B. As shown in FIG. 5 , a method for selecting a target characteristic value in the GUI 530 may be variously configured, such as selecting a specific characteristic value, adjusting by moving a scroll, or dividing a step to select a specific step. It is not limited to one. Accordingly, the processor 300 displays the GUIs 520 and 530 for selecting the target characteristic value within the range of the identified plant cultivable characteristic on the display 510, and receives a user input for selecting the target characteristic value from the displayed GUI. can receive According to an embodiment of the present invention, a user can easily and conveniently select characteristics of plants available for cultivation, thereby increasing the convenience of using the plant cultivation apparatus.

6 is a diagram illustrating a graphic user interface (GUI) for using a plant cultivation apparatus according to an embodiment of the present invention.

FIG. 6 illustrates that a GUI 620 that provides different ranges for selecting a target characteristic value according to at least one of the identified plant type or each cultivable characteristic is displayed on the display 510 . When a user grows a plurality of plants in the plant cultivation apparatus 100, a target characteristic value may be differently selected for each type of plant. Plants may have different cultivable properties that can be adjusted for each type of plant. In this case, the processor 300 may provide a GUI 620 that provides different ranges for selecting a target characteristic value for each plant type. For example, in this figure, plant B, unlike plant A in FIG. 5 due to its plant characteristics, cannot control taste or aroma, and can only control texture and nutrients. Plant B can be divided into soft or crispy texture, and the GUI 620 is provided in the form of a scroll instead of selecting one of the two, so that the user can adjust the degree. In addition, according to another embodiment of the present invention, it is possible to simultaneously show a GUI for a plurality of plants.

When a plurality of plants are planted in the plant cultivation apparatus 100, since basic characteristics are different for each type of plant, the available characteristics for plant cultivation are also different. In the present invention, the user's convenience can be promoted by providing a GUI that allows different selection of cultivable properties of plants for each type of plant.

7 is a diagram illustrating a graphic user interface (GUI) for using a plant cultivation apparatus according to an embodiment of the present invention. In FIG. 7 , the processor 300 may display a GUI 710 indicating information for recommending a target characteristic value on the display 510 . The processor 300 may obtain information for recommending a target characteristic value based on at least one of user information, a use history, or a preference of another user. In this case, the processor 300 may obtain user information, a usage history, or other user's preference information through data stored in the storage unit 260 or may receive it from an external device through the interface unit 240 . A user may have difficulty in selecting a taste or texture even with reference to the cultivable characteristics of a plant displayed on the display. Or, even if there is no such difficulty, for the convenience of the user, the nutrient required for the user is recommended to the user by referring to the user information, or the cultivateable characteristics mainly selected for cultivating plant A based on the preferences of other users received through an external device. can recommend In FIG. 7, sweetness (711), crispness (712), intensity of flavor (713), antioxidant action (714), and vitamin B (715) among nutrients are recommended for plant A, and the user is based on the recommended information. Cultivable properties can be selected or adjusted. According to an embodiment of the present invention, a user can use the plant cultivation apparatus 100 more conveniently.

8 is a view illustrating a change in cultivation availability characteristics according to a change in an environmental factor according to the present embodiment. According to an embodiment of the present invention, there is shown a graph showing a change in taste according to a Vis photoperiod and a UV photoperiod, a temperature difference, and a change in taste according to a watering cycle among the cultivation environment factors of a specific plant. As shown in FIG. 8 , the change in taste may be divided into regions 1 to 4, and may indicate a gradual change in taste concentration from region 1 to region 4 or may indicate different tastes for each region. The graph according to an embodiment of the present invention may be used as data for determining which environmental element value must be provided to obtain the specified target characteristic value when the processor 300 designates a target characteristic value according to a user input. For example, if the user selects 3 taste areas for a specific plant, if a Vis photoperiod of 16 hours and a UV photoperiod of 4 hours, a temperature difference of 10°C, and a watering cycle of 8 hours are provided, plants corresponding to the taste 3 area can be grown. can Accordingly, the processor 300 may obtain such data from the storage unit 260 or receive it from an external device through the interface unit 240 and use it to determine the environmental factor value. When the processor 300 determines the environmental element value corresponding to the specified target characteristic value, the processor 300 may control the environment providing unit 220 to provide an environmental element capable of providing the environmental element value. For example, when the watering cycle is determined to be 8 hours among the environmental element values providing the taste 3 region, the processor 300 controls the water supply unit to satisfy this, and may supply water to the plants through the water supply unit every 8 hours. However, this is an example, and the accuracy may be increased through data accumulation according to repeated experiments later.

9 is a diagram illustrating a change in cultivation availability characteristics according to a change in environmental factors according to the present embodiment. According to an embodiment of the present invention, graphs showing changes in texture according to Vis photoperiod and UV photoperiod, temperature difference, and change in texture according to airflow among the cultivation environment factors of specific plants are shown. For example, if the user selects the texture area 3 for a specific plant, if a Vis photoperiod of 16 hours and a UV photoperiod of 4 hours, a temperature difference of 10°C, and an airflow of 0.3 m/s are provided, plants corresponding to the texture area 3 can be grown. can As described with reference to FIG. 8 , for example, when 10° C. is determined as a temperature difference among the environmental element values providing the texture region 3, the processor 300 controls the temperature controller to maintain the temperature at 30° C. and then temporarily It can be lowered to 20°C and raised to 30°C again.

10 is a diagram illustrating a change in cultivation availability characteristics according to a change in environmental factors according to the present embodiment. According to an embodiment of the present invention, there is shown a graph showing the change in production according to the Vis photoperiod and the UV photoperiod among the cultivation environment factors of a specific plant, and the change in production according to the temperature difference and the number of control days. For example, if the user selects the production area 1 for a specific plant, if 24 hours of Vis photoperiod, 8 hours of UV photoperiod, 10°C temperature difference, and 6 control days are provided, plants corresponding to production area 1 can be grown. have. In an embodiment of the present invention, since the number of days among the environmental factors exists, for example, when 6 days is determined as the control days among the environmental factor values providing the production area 1, the processor 300 provides another environmental factor value. While controlling the environment providing unit 220 to do this, if 6 days have passed, the user may be informed of this through the interface unit 240 or the operation of the plant cultivation apparatus may be stopped.

Assuming that the graphs of FIGS. 8 to 10 all represent the same plant, environmental elements according to the taste and texture selected by the user in FIGS. 8 and 9 are provided, but with reference to FIG. 10, the environmental element value with the highest production is selected can be controlled by

100: plant cultivation device
210: plant receiving unit
220: Ministry of Environment
230: user input unit
240: interface unit
250: display unit
260: storage
270: microphone
280: speaker
290: sensor
300: processor

Claims (20)

In the plant cultivation apparatus,
A plant accommodating unit having a space capable of accommodating plants to be grown;
an environment providing unit capable of providing at least one environmental element for cultivating the plant;
user input unit; and
Identifies the cultivable characteristics of the plant accommodated in the plant receiving unit,
designating a target characteristic value within the range of the identified cultivable characteristics according to a user input received through the user input unit;
and controlling the environment providing unit to provide an environmental element having an environmental element value corresponding to the specified target characteristic value among the at least one environmental element.
Plant cultivation apparatus comprising a processor. According to claim 1,
A plant cultivation apparatus comprising at least one of taste, texture, flavor, and nutrients in which the plant can be cultivated. According to claim 1,
The environmental element is a plant cultivation apparatus comprising at least one of temperature, light, humidity, watering cycle or airflow. According to claim 1,
Further comprising an interface unit,
The processor is a plant cultivation device for receiving at least one of the information about the cultivation available characteristics of the plant or the environmental factor through the interface unit from an external device. According to claim 1,
The user input unit, Plant cultivation apparatus comprising at least one of a button input unit or a touch panel capable of receiving the user input for selecting a target characteristic value within the range of the cultivable characteristics of the identified plant. According to claim 1,
The processor is a plant cultivation apparatus for displaying a graphical user interface (GUI) indicating the identified cultivation available characteristics on a display. 7. The method of claim 6,
The processor is
displaying on the display a graphical user interface (GUI) capable of selecting a target characteristic value within the range of cultivable characteristics of the identified plant;
A plant cultivation apparatus for receiving a user input for selecting a target characteristic value in the displayed graphical user interface. 7. The method of claim 6,
The processor is
A plant cultivation apparatus for displaying on the display the graphic user interface that provides different ranges for selecting the target characteristic value according to at least one of the identified plant type or each cultivable characteristic. According to claim 1,
The processor is a plant cultivation apparatus for displaying a graphical user interface indicating information for recommending the target characteristic value on a display. 10. The method of claim 9,
The processor is a plant cultivation apparatus for obtaining the recommended information based on at least one of user information, use history, or other user's preferences. According to claim 1,
at least one sensor,
The processor is
A plant cultivation apparatus for controlling the environment providing unit to provide the environmental element based on at least one of the type or state of the plant identified through the sensor. In the control method of a plant cultivation apparatus,
identifying cultivable characteristics of plants accommodated in a plant accommodating unit having a space capable of accommodating plants to be cultivated;
designating a target characteristic value within the range of the identified cultivable characteristics according to a user input received through a user input unit; and
A method of controlling a plant cultivation apparatus, comprising: controlling an environment providing unit to provide an environmental element having an environmental element value corresponding to the specified target characteristic value among at least one environmental element for cultivating a plant. 13. The method of claim 12,
The cultivation available characteristics of the plant is a control method of a plant cultivation apparatus comprising at least one of taste, texture, flavor, and nutrients. 13. The method of claim 12,
The environmental element is a control method of a plant cultivation apparatus comprising at least one of temperature, light, humidity, watering cycle or airflow. 13. The method of claim 12,
A method of controlling a plant cultivation apparatus, comprising the step of receiving information on at least one of the cultivable characteristics of the plant or the environmental element through an interface unit from an external device. 13. The method of claim 12,
The user input unit, The control method of a plant cultivation apparatus comprising at least one of a button input unit or a touch panel capable of receiving the user input for selecting a target characteristic value within the range of the identified plant cultivation available characteristics. 13. The method of claim 12,
Designating a target characteristic value within the range of the identified cultivable characteristic includes:
displaying on a display a graphical user interface (GUI) representing the identified cultivable characteristic;
displaying on the display a graphical user interface (GUI) capable of selecting a target characteristic value within the range of the cultivable characteristic of the identified plant; and
Control method of a plant cultivation apparatus comprising the step of receiving a user input for selecting a target characteristic value in the displayed graphical user interface. 18. The method of claim 17,
The step of displaying a graphical user interface (GUI) for selecting the target characteristic value on the display comprises:
Control of a plant cultivation apparatus comprising the step of displaying on the display the graphic user interface that provides different ranges for selecting the target characteristic value according to at least one of the identified plant type or each cultivation-available characteristic Way. 13. The method of claim 12,
Designating a target characteristic value within the range of the identified cultivable characteristic includes:
and displaying a graphic user interface indicating information for recommending the target characteristic value on a display. A computer-readable code, in a recording medium storing a computer program including a code for performing a control method of an electronic device, the control method of the plant cultivation apparatus comprising:
identifying cultivable characteristics of plants accommodated in a plant accommodating unit having a space capable of accommodating plants to be cultivated;
designating a target characteristic value within the range of the identified cultivable characteristics according to a user input received through a user input unit; and
A computer-readable program record comprising the step of controlling an environment providing unit to provide an environmental element having an environmental element value corresponding to the specified target characteristic value among at least one environmental element for cultivating a plant recorded media.

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