KR20210056213A - Farm operating information providing system - Google Patents

Abstract

The present invention relates to a farm operation information provision system, and more specifically provides a customized farm operation information provision system. The present invention comprises: a user terminal which is a terminal of a person who operates a farm; and a farm operation information providing server which provides farm operation information to the user terminal. The farm operation information providing server calculates moisture deficiency of a farm through a temperature and a relative humidity transmitted from an environmental sensor unit installed on the farm, dividedly determines the farm's production environment by referring to an evaporation environment determination table in which data on moisture deficiency in different temperature and relative humidity conditions is stored in a leveled state to indicate the adequacy of each step of the evaporation environment. Also, the farm operation information providing server transmits information on moisture deficiency of the farm and evaporation environment information for each step through the user terminal. According to the present invention, it is possible to maximize crop productivity on a farm built at a low cost, and it is possible to find an environment suitable for increasing evaporation for each farm on the basis of an environment of each individual farm.

Description

Farm operating information provision system {FARM OPERATING INFORMATION PROVIDING SYSTEM}

The present invention relates to a farm operation information providing system. More specifically, the present invention is a customized farm operation information providing system capable of maximizing crop productivity in a farm constructed at low cost and finding an environment suitable for increasing production activity for each farm based on the environment of each individual farm. It is about.

A so-called smart farm uses information and communication technology (ICT) to properly maintain and manage the growing environment of crops and automatically manage facilities remotely with a PC or smartphone, so it is not only efficient in production but also convenient. You can also increase your sexuality.

Using ICT technology, such a smart farm enables precise management and prediction for each stage of growth based on accurate data on environmental information (eg, temperature, relative humidity, light quantity, carbon dioxide, soil, etc.) and growth information, so that the yield and quality can be measured. By improving it, you can increase your profitability.

In addition, it is possible to reduce production costs by efficiently managing labor and energy. For example, in the past, when watering crops, a person had to open a valve and operate a motor, but in a smart farm, the solenoid valve automatically irrigates according to the set value. In addition, the smart farm can manage the history of detailed production information of crops, thereby increasing consumer confidence.

However, in order to build a fully-formed smart farm, a considerable cost is incurred, so a large part of the incomplete smart farm is widely distributed.In reality, approximately 90% of the facilities referred to as smart farms include air conditioning systems, valves, and There is no drive system for automatically controlling windows, irrigation devices, and the like.

Despite the government's support for the distribution of smart farms, the capital power of the business entity that runs agriculture is very weak, so it is difficult to expect an increase in agricultural productivity through a complete smart farm.

Despite such a realistic environment, a technical means for increasing agricultural productivity is required, but there is a problem in that the prior art known to date is mainly concentrated in the aspect of improving the completeness of the automation equipment constituting the smart farm.

Republic of Korea Patent Publication No. 10-2019-0063200 (Publication date: June 07, 2019, name: Smart Farm Operation System) Korean Patent Publication No. 10-2019-0100541 (Publication date: August 29, 2019, name: Smart farm management system using data analysis techniques)

Technical problem of the present invention, even if the farm operated by the farmer is not a farm sufficiently equipped with all the machines and electronic devices for cultivation of agricultural crops at the level of a normal smart farm, the farm owner provides all the information for cultivation of crops, that is, lack of moisture, By providing information including the recommended temperature, recommended humidity, ventilation availability, initial ventilation recommended time, initial irrigation recommended time, temperature difference between day and night corresponding to temperature simulation, and/or proper maintenance time for increased production, the farmer built at low cost. It is to provide a system for providing farm operation information to maximize the productivity of crops on their farms.

In addition, the technical problem of the present invention is that the environment of the leading farm (temperature, humidity, etc.), which is excellent in productivity but incurs a high cost for equipment construction, is not applied to other farms as it is, and each farm is based on the environment of each individual farm. It is to provide a customized farm operation information providing system that can find an environment suitable for each production activity.

The farm operation information providing system according to the present invention for solving these technical problems includes a user terminal that is a terminal of a person operating a farm and a farm operation information providing server that provides farm operation information to the user terminal, and the farm operation information The providing server calculates the moisture deficit (HD) of the farm through the temperature and relative humidity transmitted from the environmental sensor unit installed in the farm, and the data on the moisture deficit under different temperature and relative humidity conditions are stored. With reference to the escalation environment determination table stored in a leveled state to indicate the appropriateness of the cultivation environment, the escalation environment of the farm is determined step by step, and the information on the water shortage of the farm and the escalation environment by step are displayed in the user terminal. Transmit information.

In the farm operation information providing system according to the present invention, the user terminal quantifies the moisture shortage information transmitted from the farm operation information providing server and displays it in the moisture shortage information window, and increases the stepwise production transmitted from the farm operation information providing server. The environmental information is visualized in color and displayed in the escalation environment information window along with the environment control button, and moisture shortage information and step-by-step increased production environment information received from the farm operation information providing server for a set time range based on the current time are visualized by time. It is characterized in that it is displayed on the information window of the increase environment history.

In the farm management information providing system according to the present invention, the farm management information providing server compares the current moisture shortage calculated through the current temperature and the current relative humidity of the farm with the increase environment determination table to increase the current increase of the farm. When the environmental level is determined and the current increase environment level is not a suitable level, the moisture shortage included in the suitable level is extracted from the increase environment determination table while minimizing temperature change and relative humidity change, and from the increase environment determination table The temperature and relative humidity corresponding to the extracted moisture shortage are calculated as recommended values and transmitted to the user terminal together with the current temperature and the current relative humidity, and the user terminal includes the recommended temperature received from the farm operation information providing server. It is characterized in that the recommended relative humidity is displayed together with the current temperature and the current relative humidity.

In the farm operation information providing system according to the present invention, the farm operation information providing server, when a user input through an environment control button displayed on the user terminal is received, calculates the recommended temperature and the recommended relative humidity in real time, The current temperature and the current relative humidity are transmitted to the user terminal, and the user terminal pops up the recommended temperature and the recommended relative humidity together with the current temperature and the current relative humidity through a real-time temperature/humidity recommendation window. It is characterized by (pop-up).

In the farm operation information providing system according to the present invention, the farm operation information providing server matches the recommended temperature and the recommended relative humidity with the current temperature and the current relative humidity by time in response to a request from the user terminal. To generate recommended daily temperature/humidity information and transmit it to the user terminal, and the user terminal displays the daily recommended temperature/humidity recommendation window for the daily recommended temperature/humidity information received from the farm operation information providing server. It is characterized by pop-up through.

In the farm operation information providing system according to the present invention, the farm operation information providing server calculates the dew point temperature of the farm through the temperature and relative humidity transmitted from the environmental sensor unit installed in the farm, and the dew point temperature of the farm By comparing the external temperature of the area near the farm received from the external weather information providing server and generating ventilation availability information indicating whether condensation occurs at the time of ventilation at the present time, and transmitting it to the user terminal, the user terminal , Visualizing and displaying the ventilation availability information transmitted from the farm operation information providing server.

In the farm operation information providing system according to the present invention, the farm operation information providing server, the external temperature gradually rising after the sunrise time of the nearby farm area transmitted from the weather information providing server is the same as the dew point temperature of the farm. It characterized in that the timing of the sunset is calculated as the initial ventilation recommended time of the day and transmitted to the user terminal.

In the farm operation information providing system according to the present invention, the user terminal visualizes and displays today's initial ventilation recommended time transmitted from the farm operation information providing server together with yesterday's initial ventilation recommended time.

In the farm operation information providing system according to the present invention, the operation information providing server includes a preset moisture shortage reference value in which the moisture shortage of the farm gradually increases after the sunrise time of the nearby farm area transmitted from the weather information providing server. It is characterized in that a time point equal to and is calculated as today's initial recommended watering time and transmitted to the user terminal.

In the farm management information providing system according to the present invention, the user terminal visualizes and displays today's first recommended irrigation time received from the farm operation information providing server along with yesterday's initial recommended irrigation time.

In the farm management information providing system according to the present invention, the farm management information providing server receives a temperature simulation request for controlling the maximum and minimum temperatures of the farm through a temperature simulation support page displayed on the user terminal. If so, the temperature difference between the day and night of the farm, which varies in response to the maximum temperature and the minimum temperature adjusted according to the temperature simulation request, and/or control to display on the user terminal a suitable maintenance time for increased production maintained at the farm. It is done.

In the farm operation information providing system according to the present invention, the farm operation information providing server comprises: a weekly average temperature, a night average temperature of the farm that varies in response to a maximum temperature and a minimum temperature adjusted according to the temperature simulation request, It characterized in that the control so that the information including the daily average temperature is displayed through the temperature simulation support page.

According to the present invention, even if the farm operated by the farmer is not a farm sufficiently equipped with all mechanical and electronic devices for cultivation of crops at the level of a conventional smart farm, all information for cultivating crops, that is, moisture shortage, and recommendations to the farmer By providing information including temperature, recommended humidity, ventilation availability, initial ventilation recommended time, initial irrigation recommended time, temperature difference between day and night corresponding to temperature simulation, and/or proper maintenance time for increased production, the farmer built himself at low cost. There is an effect of providing a system for providing farm operation information to maximize the productivity of crops in the farm.

In addition, the environment (temperature, humidity, etc.) of the leading farm, which is excellent in productivity but incurs a high cost for equipment construction, is not applied to other farms as it is, and is an environment suitable for increasing production activities for each farm based on the environment of each individual farm. There is an effect of providing a customized farm operation information providing system that can find.

1 is a view showing a farm operation information providing system according to an embodiment of the present invention,
FIG. 2 is a diagram showing an exemplary operation configuration in which a farm operation information providing server provides a farm-specific moisture deficit (HD) and corresponding step-by-step increased production environment information to a user terminal in an embodiment of the present invention. ,
3 is a diagram showing an exemplary screen configuration displayed on a user terminal in the process of performing the operation configuration illustrated in FIG. 2;
FIG. 4 is a diagram showing an exemplary operation configuration in which a farm operation information providing server provides a recommended temperature and a recommended relative humidity to a user terminal in order to improve the current increase environment of the farm, according to an embodiment of the present invention.
5 and 6 are diagrams showing exemplary screen configurations displayed on a user terminal in the process of performing the operation configuration illustrated in FIG. 4;
7 is a diagram showing an exemplary configuration of an increase environment determination table in an embodiment of the present invention,
FIG. 8 is a diagram showing an exemplary configuration for calculating a recommended temperature and a recommended relative humidity by using an increase environment determination table in an embodiment of the present invention,
9 is a diagram showing an exemplary operation configuration in which a farm operation information providing server provides information on whether ventilation per farm is possible to a user terminal according to an embodiment of the present invention;
10 is a diagram showing an exemplary operation configuration in which a farm operation information providing server provides information on an initial ventilation recommended time for each farm to a user terminal in an embodiment of the present invention;
FIG. 11 is a diagram showing an exemplary operation configuration in which a farm operation information providing server provides information on an initial recommended irrigation time for each farm to a user terminal, according to an embodiment of the present invention.
12 is a diagram showing an exemplary screen configuration displayed on a user terminal in the process of providing information on whether ventilation is possible for each farm, the initial ventilation recommended time, and the initial irrigation recommended time, according to an embodiment of the present invention.
13 is a diagram showing an exemplary screen configuration displayed on a user terminal in a process in which a farm operation information providing server supports a farm-specific temperature simulation function to a user terminal according to an embodiment of the present invention.
14 is a diagram conceptually showing an exemplary environmental analysis that changes when the maximum temperature and the minimum temperature are adjusted in a temperature simulation process for each farm, according to an embodiment of the present invention.
15 is a diagram illustrating an exemplary screen configuration displayed on a user terminal in a process in which a temperature simulating function for each farm is provided through a web according to an embodiment of the present invention.

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in the present specification are only exemplified for the purpose of describing the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention are in various forms. And is not limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention can apply various changes and have various forms, the embodiments will be illustrated in the drawings and described in detail in the present specification. However, this is not intended to limit the embodiments according to the concept of the present invention to specific disclosed forms, and includes all changes, equivalents, or substitutes included in the spirit and scope of the present invention.

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

1 is a diagram showing a system for providing farm operation information according to an embodiment of the present invention.

Referring to FIG. 1, a system for providing farm operation information according to an embodiment of the present invention includes a user terminal 10, an environment sensor unit 20, and a farm operation information providing server 30.

The user terminal 10 is a terminal of a person who runs a farm.

For example, the user terminal 10 may be a generally known mobile terminal such as a smart phone, but the user terminal 10 is not limited thereto. For example, if the user terminal 10 is a mobile terminal such as a smart phone, the user may use a dedicated application for providing farm operation information installed in the user terminal 10 from the farm operation information providing server 30 to the farm operation related to the farm operation. Various services can be provided, and in the following, an embodiment of the present invention will be described by taking this case as an example.

For example, as illustrated in FIG. 3, the user terminal 10 quantifies the moisture shortage information transmitted from the farm operation information providing server 30 and displays it on the moisture shortage information window 120, and provides farm management information. The time set based on the current time from the farm operation information providing server 30 by visualizing the step-by-step increase-production environment information transmitted from the server 30 in color and displaying it on the increase-production environment information window 140 together with the environment control button 130 It may be configured to visualize the moisture shortage information and step-by-step increase environment information transmitted during the range by time and display it on the increase environment history information window 150.

For example, the farm operated by the user may be a farm equipped with all kinds of machinery and electronic devices for growing crops known as a smart farm, but the farm to which an embodiment of the present invention is applied is such a complete form. It is not limited to smart farms. In order to build a fully-formed smart farm, a considerable cost is incurred, so a large part of incomplete smart farms are widely distributed.In reality, approximately 90% of facilities referred to as smart farms include heating and cooling devices, valves, windows, etc. There is no drive system for automatically controlling irrigation (watering) devices, etc.

An embodiment of the present invention is derived in consideration of such a realistic environment, and according to an embodiment of the present invention, a farm operated by a farmer is sufficiently equipped with all mechanical and electronic devices for cultivation of crops at the level of a conventional smart farm. Even if it is not a farm, the farm owner provides all the information for cultivation of crops provided by the farm operation information providing server 30 to the farmer through the user terminal 10, that is, moisture shortage, recommended temperature, recommended humidity, whether ventilation is possible, You can maximize the productivity of crops in your own farm built at low cost by utilizing information including the initial ventilation recommended time and initial irrigation recommended time.

The environmental sensor unit 20 is a component that collects environmental information of a farm and transmits it to the farm operation information providing server 30, and may be, for example, a collection of sensors that collect temperature, relative humidity, and amount of carbon dioxide. .

The farm operation information providing server 30 calculates the moisture deficit (HD) of the farm through the temperature and relative humidity transmitted from the environmental sensor unit 20 installed on the farm, and refers to the increase environment determination table 110 Thus, the farm's increased production environment is determined by step-by-step, and the information on the farm's moisture shortage and step-by-step increased production environment information is transmitted to the user terminal 10. In the transpiration environment determination table 110, data on the moisture shortage under different temperature and relative humidity conditions are stored in a leveled state to indicate the appropriateness of the transpiration environment in stages.

For example, the farm operation information providing server 30 includes a step-by-step increase environment information providing unit 100, a temperature/humidity recommendation unit 200, a ventilation information recommendation unit 300, an irrigation information recommendation unit 400, and a temperature simulator. It may be configured to include a rating support unit 500.

The increase-production environment information providing unit 100 provides information on the increase-production environment of the farm to the user terminal 10.

For example, the increased production environment information providing unit 100 calculates the moisture deficit (HD) of the farm through the temperature and relative humidity transmitted from the environmental sensor unit 20 installed in the farm, and calculates the different temperature and With reference to the escalation environment determination table 110, which is stored in a leveled state so that the data on the moisture shortage under the relative humidity condition indicates the adequacy of the transpiration environment, it is determined by dividing the cultivation environment of the farm in stages, and the user It may be configured to transmit information on the moisture shortage of the farm and information on the increased production environment by step to the terminal 10.

For example, any known method may be applied to the method of calculating the water shortage. In addition, for example, depending on the degree of water shortage, the escalation environment information can be classified into 6 levels: very little transpiration, little transpiration, suitable transpiration, many transpirations, very many transpirations, and serious transpirations. This is not limited to this.

Referring to the transpiration environment determination table 110 illustrated in FIG. 7, very little transpiration is ^{indicated in dark blue with a water shortage of less than 1.1 g/m 3} , and less transpiration has a moisture shortage of 1.1 g/m. ³ or more and less than 2.8 g/m ³ is marked in pale blue color, and suitable transpiration is indicated in pale green with a water shortage of 2.8 g/m ³ or more and less than 6 g/m ³ , and a lot of transpiration is water. The deficit is 6 g/m ³ or more and less than 11 g/m ³ and is marked in pale yellow, and very much evaporation is indicated in pale orange with a moisture shortage of 11 g/m ³ or more and less than 15 g/m ³ And severe transpiration is indicated in pale red with a water shortage of 15 g/m ^{3 or more.}

The temperature/humidity recommendation unit 200 provides a recommended temperature and a recommended relative humidity to the user terminal 10.

For example, the temperature/humidity recommendation unit 200 compares the current moisture shortage calculated through the current temperature of the farm and the current relative humidity and the escalation environment determination table 110 to determine the current escalation environment level of the farm, If the determined current escalation environment level is not a suitable level, the moisture shortage included in the suitable level is extracted from the escalation environment determination table 110 while minimizing changes in temperature and relative humidity, and extracted from the transpiration environment determination table 110. The temperature and relative humidity corresponding to the moisture shortage may be calculated as recommended values, and may be configured to be transmitted to the user terminal 10 together with the current temperature and the current relative humidity. In response, as illustrated in FIG. 3, the user terminal 10 may be configured to display the recommended temperature and the recommended relative humidity transmitted from the farm operation information providing server 30 together with the current temperature and the current relative humidity. .

Referring to FIG. 8, which shows an exemplary configuration for calculating the recommended temperature and the recommended relative humidity using the increased production environment determination table 110, it is determined that the recommended temperature is not suitable to induce a rapid temperature change, and the recommended temperature value is calculated. Therefore, if the difference is greater than 3°C from the actual temperature value, it can be configured to recommend only the change value up to 3°C and re-recommend the humidity.

As a specific example, when the current temperature is 27°C and the humidity is 45% (HD value is 14.2, a lot of transpiration, orange), the humidity is kept as it is to go toward a suitable one step (many transpiration, yellow), and the recommended temperature is If it is 22°C, there is a lot of increase, but since 27°C to 22°C shows a difference of more than 3°C, the temperature is recommended only up to 24°C, and the humidity is recommended as 50%.

For example, when a user input through an environment control button displayed on the user terminal 10 is received, the temperature/humidity recommendation unit 200 calculates the recommended temperature and the recommended relative humidity in real time to determine the current temperature and the current relative humidity. Together with the transmission to the user terminal 10, the user terminal 10, as illustrated in FIG. 5, the recommended temperature and the recommended relative humidity together with the current temperature and the current relative humidity, a real-time temperature/humidity recommendation window 160 It can be configured to pop-up through.

For example, in response to a request from the user terminal 10, the temperature/humidity recommendation unit 200 matches the recommended temperature and the recommended relative humidity with the current temperature and the current relative humidity for each time period to provide daily recommended temperature/humidity information. After creation, it is transmitted to the user terminal 10, and the user terminal 10 transmits the recommended daily temperature/humidity information received from the farm operation information providing server 30 to the recommended daily temperature, as illustrated in FIG. 6. It may be configured to pop-up through the /humidity recommendation window 170.

The ventilation information recommendation unit 300 provides ventilation information to the user terminal 10.

Due to the temperature that decreases in the evening, the humidity inside the farm increases over time after closing the window of the farm and maintains a humidity of 90% or more at night. If over-humidity persists even in the morning after that, transpiration and photosynthesis activities do not work smoothly, and in severe cases, fungal diseases, etc., increase the likelihood of occurrence.

Therefore, ventilation as early as possible when condensation does not occur is good for growing crops, but at present, farmers cannot calculate this one by one, so they work while indirectly checking whether condensation inside the farm is based on whether condensation occurs on the surface of PET bottles. have.

An embodiment of the present invention provides a solution for improving the inconvenience related to such ventilation and increasing the accuracy of an appropriate ventilation time point.

(1) Whether real-time ventilation is possible

The time when ventilation is possible is when no condensation occurs inside.

Determination of condensation is to compare the external temperature and the internal dew point temperature, and when the internal dew point temperature is less than the external temperature, the user terminal 10 displays "ventilable", and when the internal dew point temperature is higher than the external temperature, " Condensation during ventilation is marked.

(2) Recommended first ventilation time

The recommended first ventilation time starts every day based on the sunrise time in the area for each farm location.

The first ventilation time = the recommended first ventilation time by comparing the external temperature and the internal dew point temperature after the sunrise time, and if ventilation is possible immediately at the sunrise time, the first recommended ventilation time is the sunrise time.

For example, the ventilation information recommendation unit 300 calculates the dewpoint temperature of the farm through the temperature and relative humidity received from the environmental sensor unit 20 installed in the farm, and calculates the dewpoint temperature of the farm and the external It can be configured to generate ventilation availability information indicating whether condensation occurs during ventilation at the current time by comparing the external temperature of the area near the farm received from the weather information providing server 40 and transmitting it to the user terminal 10. have. In response to this, the user terminal 10 may be configured to visualize and display the ventilation availability information transmitted from the farm operation information providing server 30.

For example, the ventilation information recommendation unit 300 is the first ventilation of the day when the external temperature gradually rising after the sunrise time in the area near the farm transmitted from the weather information providing server 40 becomes equal to the dew point temperature of the farm. The recommended time is calculated and transmitted to the user terminal 10, and the user terminal 10 visualizes and displays today's initial recommended ventilation time transmitted from the farm operation information providing server 30 along with yesterday's initial recommended ventilation time. Can be configured.

The irrigation information recommendation unit 400 provides irrigation information to the user terminal 10.

The crop begins to work by absorbing water from the roots and transpiration.

In an excessively humid environment, since the transpiration function is not well performed, so that water may not be properly absorbed even if moisture is supplied, an embodiment of the present invention recommends the irrigation time to the farmer so that moisture can be supplied to an environment suitable for transpiration.

The transpiration environment is judged according to the moisture shortage (HD), and moisture can be supplied in advance immediately before the HD value becomes an environment suitable for transpiration (eg, HD=2.8~6 in a suitable transpiration environment).

For example, the recommended first irrigation time may be when the HD value becomes 2.3 for the first time after sunrise.

The HD value can be configured to be changeable by setting, so that it can be supplied early to wet the badge in advance or supplied or selected after the production environment is suitably equipped.

For example, the irrigation information recommendation unit 400 determines the point in time when the moisture shortage of the farm gradually rising after the sunrise time in the vicinity of the farm transmitted from the weather information providing server 40 becomes equal to the preset moisture shortage reference value. Today's initial recommended watering time is calculated and transmitted to the user terminal 10, and the user terminal 10 determines the recommended watering time of the day received from the farm operation information providing server 30 for the first time of yesterday. It can be configured to visualize and display along with the recommended irrigation time.

When a temperature simulation request for adjusting the maximum and minimum temperatures of the farm is received through a user input through the temperature simulation support page displayed on the user terminal 10, the temperature simulation support unit 500 simulates the temperature. Control to display on the user terminal 10 the temperature difference between day and night of the user farm that is adjusted according to the request, that is, fluctuates in response to the maximum temperature and the minimum temperature controlled by the user, and/or the proper maintenance time for increased production maintained at the user farm. do.

Hereinafter, the operation of the farm operation information providing system according to an embodiment of the present invention will be described in detail and exemplarily with additional reference to FIGS. 2 to 12.

FIG. 2 is an exemplary diagram in which the farm operation information providing server 30 provides a farm-specific moisture deficit (HD) and corresponding step-by-step increase environment information to the user terminal 10 in an embodiment of the present invention. FIG. 3 is a diagram illustrating an operation configuration, and FIG. 3 is a diagram illustrating an exemplary screen configuration displayed on the user terminal 10 in the process of performing the operation configuration illustrated in FIG. 2.

With additional reference to FIGS. 2 and 3, in step S10, a process in which the environmental sensor unit 20 installed in the farm measures the current temperature and the current relative humidity inside the farm and transmits it to the farm operation information providing server 30 Performed.

In step S20, the stepwise production environment information providing unit 100 constituting the farm operation information providing server 30 determines the current moisture shortage of the farm through the current temperature and current relative humidity of the farm received from the environment sensor unit 20. The process of calculating is carried out.

In step S30, the step-by-step increase environment information providing unit 100 compares the calculated current moisture shortage and the increase-growth environment determination table 110 to classify and determine the increase-growth environment of the farm step by step. For example, in the transpiration environment determination table 110, data on the moisture shortage under different temperature and relative humidity conditions are stored in a leveled state to indicate the appropriateness of the transpiration environment in stages.

In step S40, the step-by-step increase environment information providing unit 100 transmits the calculated moisture shortage information and step-by-step increase environment information to the user terminal 10.

In step S50, as illustrated in FIG. 3, a process in which the user terminal 10 numerically displays and displays the moisture shortage information through the moisture shortage information window 120, and displays the incremental environment information step by step in the increase environment information window 140. This is done.

4 is an exemplary operation configuration in which the farm operation information providing server 30 provides the recommended temperature and the recommended relative humidity to the user terminal 10 in order to improve the current increase environment of the farm in an embodiment of the present invention. 5 and 6 are diagrams showing an exemplary screen configuration displayed on the user terminal 10 in the process of performing the operation configuration illustrated in FIG. 4, and FIG. 7 is a diagram showing an exemplary screen configuration according to an embodiment of the present invention. , Is a diagram showing an exemplary configuration of the escalation environment determination table 110, and FIG. 8 is an exemplary configuration for calculating a recommended temperature and a recommended relative humidity using the escalation environment determination table 110 in an embodiment of the present invention It is a view showing.

With additional reference to FIGS. 4 to 8, in step S110, a process of receiving a user input through an environment control button displayed on the user terminal 10 by the farm operation information providing server 30 is performed.

In step S120, the step-by-step increase environmental information providing unit 100 constituting the farm operation information providing server 30 includes the current moisture shortage calculated through the current temperature and the current relative humidity of the farm received from the environment sensor unit 20. A process of determining the current increase environment level of the farm by comparing the increase environment determination table 110 and transmitting the result to the temperature/humidity recommendation unit 200 is performed.

In step S130, when the temperature/humidity recommendation unit 200 constituting the farm operation information providing server 30 is not the appropriate level, the moisture shortage included in the suitable level while minimizing the temperature change and the relative humidity change A process of extracting from the escalation environment determination table 110 is performed.

In step S140, the temperature/humidity recommendation unit 200 constituting the farm operation information providing server 30 calculates the temperature and relative humidity corresponding to the moisture shortage extracted from the increase environment determination table 110 as recommended values. A process of transmitting the temperature and the current relative humidity to the user terminal 10 is performed.

In step S150, as illustrated in FIG. 5, the user terminal 10 determines the recommended temperature and the recommended relative humidity transmitted from the temperature/humidity recommendation unit 200 constituting the farm operation information providing server 30 to the current temperature and A pop-up process is performed through the real-time temperature/humidity recommendation window 160 together with the current relative humidity. In addition, for example, in response to a request from the user terminal 10, the farm operation information providing server 30 matches the recommended temperature and the recommended relative humidity with the current temperature and the current relative humidity for each time period, and the recommended daily temperature/humidity After the information is generated, it is transmitted to the user terminal 10, and the user terminal 10 transmits the recommended daily temperature/humidity information received from the farm operation information providing server 30 on a day, as illustrated in FIG. 6. A process of pop-up through the recommended temperature/humidity recommendation window 170 may be additionally performed.

9 is a diagram showing an exemplary operation configuration in which the farm operation information providing server 30 provides information on whether ventilation per farm is possible to the user terminal 10 in an embodiment of the present invention, and FIG. 12 is In one embodiment of the present invention, a diagram showing an exemplary screen configuration displayed on the user terminal 10 in the process of providing information on whether ventilation is possible for each farm.

With additional reference to FIGS. 9 and 12, in step S210, the ventilation information recommendation unit 300 constituting the farm operation information providing server 30 is The process of calculating the dew point temperature of is carried out.

In step S220, the ventilation information recommending unit 300 constituting the farm operation information providing server 30 receives the external temperature in the vicinity of the farm from the weather information providing server 40 from the outside.

In step S230, the ventilation information recommendation unit 300 constituting the farm operation information providing server 30 compares the dew point temperature of the farm and the external temperature of the nearby farm to indicate whether condensation occurs during ventilation at the present time. A process of generating ventilation availability information and transmitting it to the user terminal 10 is performed.

In step S240, as illustrated in FIG. 12, a process of visualizing and displaying the ventilation availability information transmitted from the farm operation information providing server 30 by the user terminal 10 is performed. For example, in step S240, the user terminal 10 may visualize and display today's initial ventilation recommended time transmitted from the farm operation information providing server 30 together with yesterday's initial ventilation recommended time, and the current time If condensation is expected during ventilation in the farm, it can be highlighted and marked so that the farmer can easily recognize it.

FIG. 10 is a diagram showing an exemplary operation configuration in which the farm operation information providing server 30 provides information on the initial ventilation recommended time for each farm to the user terminal 10 in an embodiment of the present invention, and FIG. 12 Is a diagram showing an exemplary screen configuration displayed on the user terminal 10 in the process of providing information on the initial ventilation recommended time according to an embodiment of the present invention.

With additional reference to FIGS. 10 and 12, in step S310, the ventilation information recommending unit 300 constituting the farm operation information providing server 30 is The process of calculating the dew point temperature of is carried out.

In step S320, the ventilation information recommending unit 300 constituting the operation information providing server receives the sunrise time in the vicinity of the farm from the weather information providing server 40.

In step S330, the ventilation information recommendation unit 300 constituting the farm operation information providing server 30 determines a point in time when the external temperature gradually rising after the sunrise time becomes equal to the dew point temperature of the farm as the initial ventilation recommended time of the day. A process of calculating and transmitting the recommended initial ventilation time of the day to the user terminal 10 is performed.

In step S340, the user terminal 10 visualizes and displays today's initial recommended ventilation time transmitted from the farm operation information providing server 30 together with yesterday's initial recommended ventilation time.

11 is a diagram showing an exemplary operation configuration in which the farm operation information providing server 30 provides information on the initial irrigation recommended time for each farm to the user terminal 10 in an embodiment of the present invention, and FIG. 12 Is a diagram showing an exemplary screen configuration displayed on the user terminal 10 in the process of providing information on the initial irrigation recommended time according to an embodiment of the present invention.

With additional reference to FIGS. 11 and 12, in step S410, a process in which the irrigation information recommendation unit 400 constituting the operation information providing server receives the sunrise time of the farm neighborhood from the weather information providing server 40 is performed. do.

In step S420, the irrigation information recommendation unit 400 constituting the operation information providing server determines the time when the water shortage of the farm gradually rising after the sunrise time becomes equal to the preset water shortage reference value. ) The process of calculating at the recommended time is carried out.

In step S430, the irrigation information recommendation unit 400 constituting the operation information providing server transmits the calculated today's initial irrigation recommended time to the user terminal 10.

In step S440, as illustrated in FIG. 12, the process of visualizing and displaying today's initial recommended irrigation time received from the farm operation information providing server 30 by the user terminal 10 together with yesterday's initial recommended irrigation time is performed. Performed.

13 is a diagram showing an exemplary screen configuration displayed on a user terminal in a process in which a farm operation information providing server supports a farm-specific temperature simulation function to a user terminal according to an embodiment of the present invention. In an embodiment of the present invention, a diagram conceptually shows an exemplary environmental analysis that changes when the maximum temperature and the minimum temperature are adjusted in a temperature simulation process for each farm. A diagram showing an exemplary screen configuration displayed on a user terminal while a temperature simulation function is provided through a web (WEB).

13 to 15 additionally, the temperature simulation support unit 500 constituting the farm operation information providing server 30 is a farm through a user input through a temperature simulation support page displayed on the user terminal 10. When a temperature simulation request to control the maximum and minimum temperatures of is received, the temperature difference between the day and night of the user's farm, which is adjusted according to the temperature simulation request, that is, fluctuates in response to the maximum and minimum temperatures directly controlled by the user. And/or control to display on the user terminal 10 the suitable maintenance time for increased production maintained in the user farm.

For example, the temperature simulation support unit 500 constituting the farm operation information providing server 30 is the maximum temperature adjusted according to the temperature simulation request, the average daytime temperature of the farm that changes in response to the minimum temperature, and the average nighttime temperature. , The information including the daily average temperature may be controlled to be displayed through the temperature simulation support page of the user terminal 10.

Through this temperature simulation support function, users, that is, farmers of each individual farm, can directly control the maximum and minimum temperatures of their farms to understand temperature changes and environmental information that changes depending on the temperature change as a whole. And, such information can be usefully utilized when the farmer sets the temperature in the temperature controller. In particular, the farmer can grasp the temperature difference between the day and night of his farm and/or the time change in which the environment suitable for increasing production in his farm is maintained through temperature control simulation.

The usefulness of this temperature simulation function will be described in more detail as follows.

As generally known, plant growth includes reproductive growth, which is a process of producing flowers and fruits, and vegetative growth, which is a process of producing leaves and roots, and it is good that the two growths grow in a balanced manner.

If vegetative growth is strong, it is converted to reproductive growth, and if reproductive growth is strong, it is necessary to convert to vegetative growth. In order to do this, temperature control is a representative method among several methods, and in particular, it can be converted while reducing or increasing the temperature difference between day and night. However, farmers currently do not know how to adjust the temperature to reduce or increase the temperature difference between day and night. The temperature simulation function provided by the temperature simulation support unit 500 is to solve this problem, and farmers can receive help for temperature setting through the temperature simulation function.

As described in detail above, according to the present invention, even if the farm operated by the farmer is not a farm sufficiently equipped with all the machines and electronic devices for cultivating crops at the level of a conventional smart farm, the farm owner provides all information for cultivating crops, In other words, by providing information including moisture shortage, recommended temperature, recommended humidity, ventilation availability, initial ventilation recommended time, initial irrigation recommended time, temperature difference between day and night corresponding to temperature simulation, and/or suitable maintenance time for increased production, farmers There is an effect of providing a farm operation information providing system that enables the maximization of the productivity of crops in their farms built at low cost.

In addition, the environment (temperature, humidity, etc.) of the leading farm, which is excellent in productivity but incurs a high cost for equipment construction, is not applied to other farms as it is, and is an environment suitable for increasing production activities for each farm based on the environment of each individual farm. There is an effect of providing a customized farm operation information providing system that can find.

10: user terminal
20: environmental sensor unit
30: Farm operation information provision server
40: weather information providing server
100: step-by-step increased production environment information provision department
200: temperature/humidity recommendation unit
300: ventilation information recommendation unit
400: irrigation information recommendation unit
500: temperature simulation support
110: increase production environment judgment table
120: Moisture Insufficient Information Window
130: environment control button
140: Increased production environment information window
150: information window for environmental history of increased production
160: Real-time temperature/humidity recommendation window
170: Recommended daily temperature/humidity window

Claims (12)

As a farm operation information providing system,
A user terminal that is a terminal of a person operating a farm; And
Includes a farm operation information providing server that provides farm operation information to the user terminal,
The farm operation information providing server,
Calculate the moisture deficit (HD) of the farm through the temperature and relative humidity transmitted from the environmental sensor unit installed in the farm,
The transpiration environment of the farm is classified and determined step by step by referring to the transpiration environment determination table, which is stored in a leveled state so that the data on the moisture shortage under different temperature and relative humidity conditions is leveled to indicate the appropriateness of the transpiration environment. ,
A system for providing farm operation information for transmitting information on the water shortage of the farm and information on the increased production environment by step to the user terminal.
The method of claim 1,
The user terminal,
The moisture shortage information received from the farm operation information providing server is converted into a numerical value and displayed in the moisture shortage information window,
The step-by-step increase-production environment information transmitted from the farm operation information providing server is visualized in color and displayed in the increase-production environment information window together with an environment control button,
A system for providing farm operation information, characterized in that the water shortage information and step-by-step increased production environment information received from the farm operation information providing server during a set time range based on the current time are visualized by time and displayed in the production environment history information window.
The method of claim 2,
The farm operation information providing server,
Comparing the current moisture shortage calculated through the current temperature and the current relative humidity of the farm and the escalation environment determination table to determine the current escalation environment level of the farm,
When the current escalation environment level is not a suitable level, the moisture shortage included in the suitable level is extracted from the transpiration environment determination table while minimizing changes in temperature and relative humidity,
The temperature and the relative humidity corresponding to the water shortage extracted from the increase environment determination table are calculated as recommended values and transmitted to the user terminal together with the current temperature and the current relative humidity,
The user terminal, characterized in that to display the recommended temperature and the recommended relative humidity received from the farm operation information providing server together with the current temperature and the current relative humidity, farm operation information providing system.
The method of claim 3,
The farm operation information providing server,
When a user input through an environment control button displayed on the user terminal is received, the recommended temperature and the recommended relative humidity are calculated in real time and transmitted to the user terminal together with the current temperature and the current relative humidity,
The user terminal,
The system for providing farm operation information, characterized in that pop-up of the recommended temperature and the recommended relative humidity together with the current temperature and the current relative humidity through a real-time temperature/humidity recommendation window.
The method of claim 4,
The farm operation information providing server,
In response to a request from the user terminal, the recommended temperature and the recommended relative humidity are matched with the current temperature and the current relative humidity for each time period to generate daily recommended temperature/humidity information, and then transmitted to the user terminal,
The user terminal,
A system for providing farm operation information, characterized in that pop-up of daily recommended temperature/humidity information transmitted from the farm operation information providing server through a daily recommended temperature/humidity recommendation window.
The method of claim 1,
The farm operation information providing server,
Calculate the dewpoint temperature of the farm through the temperature and relative humidity received from the environmental sensor unit installed in the farm,
By comparing the dew point temperature of the farm with the external temperature in the vicinity of the farm received from the external weather information providing server, ventilation availability information indicating whether condensation occurs during ventilation at the present time is generated and transmitted to the user terminal. ,
The user terminal,
A system for providing farm operation information, characterized in that visualizing and displaying information on whether ventilation is possible received from the farm operation information providing server.
The method of claim 6,
The farm operation information providing server,
A point in time at which the external temperature gradually rising after the sunrise time in the vicinity of the farm received from the weather information providing server is equal to the dew point temperature of the farm is calculated as the initial recommended ventilation time for today and transmitted to the user terminal. The farm operation information provision system.
The method of claim 7,
The user terminal,
A system for providing farm operation information, characterized in that the first ventilation recommended time of the day transmitted from the farm operation information providing server is visualized and displayed together with the first ventilation recommended time of yesterday.
The method of claim 1,
The operation information providing server,
The time when the water shortage of the farm, which gradually rises after the sunrise time in the area near the farm transmitted from the weather information providing server, becomes equal to the preset water shortage reference value, is calculated as the recommended time for watering for the first time today. It characterized in that the transmission to the user terminal, farm operation information providing system.
The method of claim 9,
The user terminal,
A system for providing farm operation information, characterized in that the first recommended irrigation time of the day received from the farm operation information providing server is visualized and displayed together with yesterday's first recommended irrigation time.
The method of claim 1,
The farm operation information providing server,
When a temperature simulation request for adjusting the maximum and minimum temperatures of the farm is received through a temperature simulation support page displayed on the user terminal,
Farm operation, characterized in that controlling the temperature difference between the day and night of the farm that fluctuates in response to the maximum temperature and the minimum temperature adjusted according to the temperature simulation request, or the proper maintenance time for increasing production maintained in the farm to be displayed on the user terminal Information provision system.
The method of claim 11,
The farm operation information providing server,
Controls to display information including the farm's weekly average temperature, nightly average temperature, and daily average temperature that varies in response to the maximum and minimum temperatures adjusted according to the temperature simulation request, through the temperature simulation support page. Characterized in that, farm operation information providing system.

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