KR20170033164A - Smart fish farm Server and Method for fish farm management using the same - Google Patents

Abstract

The present invention relates to a smart fish farm server and a method of managing a fish farm using the same. According to the present invention, the smart fish farm server comprises: a communication unit receiving water quality data or risk factor detection data from a water quality measurement device installed in each of a plurality of water tanks; a storage unit storing water tank information including at least one among the size of a water tank, a kind of fish, a growth level of fish, a phone number of a user terminal associated with the water tank, and an address the water tank, and classifying the received water quality data or risk detection data into each kind of fish to store the classified data; and a control unit transferring an alarm signal to a user terminal corresponding to the water tank when a variance of the water quality data received from any one among the water quality measurement devices mounted in the plurality of water tanks is greater than a reference value or danger factor detection data is received. According to the present invention, average water quality data of persons cultivating the identical kind of fish, so anxiety of users having insufficient fish farm management experience can be solved and the persons cultivating the identical kind of fish make a community to provide information about a fish farm. Moreover, when the water quality data measured through the water quality measurement device is out of a predetermined range, an alarm is issued, so effect of making the user take proper measures is provided.

Description

Technical Field [0001] The present invention relates to a smart farm server and a method for managing the farm using the same,

The present invention relates to a smart farm server and a farm management method using the same, and more particularly, to a smart farm server for providing information and a notification service to a user so as to efficiently manage the farm, and a farm management method using the same.

In recent years, with the development of aquaculture technology, aquaculture has been developed by expanding aquaculture production base, but there is an increasing demand for safer aquaculture production and improvement of aquaculture environment.

Safe Aquaculture Water quality management is crucial for an aquatic environment. The elements of water quality of the farm are dissolved oxygen concentration, water temperature, pH (PH), ammonia concentration, nitrogen compound concentration, nitrite concentration, turbidity. On the other hand, there are fish excrements and carcasses that are cultivated as main pollutants that deteriorate the water quality of the farm, and remained feeds left over. That is, the pollution source is fundamentally difficult to block, and it is necessary to take measures to improve the quality of water and to remove contaminants in a timely manner while monitoring the water quality continuously.

However, it is difficult to maintain the quality of water in the management of aquaculture, because it is difficult to depend on empirical knowledge or to apply expert knowledge in actual field. Even if it becomes bad, there are few methods that the administrator or the user can understand, and it is difficult to immediately improve the state of the water tank with poor water quality.

Since the appropriate water quality temperature, dissolved oxygen concentration, and acidity increasing water quality are different according to the fish species cultured by the user, it is necessary to manage the related fish species separately. However, when managing various kinds of farms, it is difficult to manage the water quality of each farm . Especially, in case of users with short farm management experience, it is difficult to improve mistakes and problems caused by lack of actual management experience by acquiring expert knowledge.

Therefore, it provides water quality management information with multiple farms of the same species to provide information such as guidelines to the short-term users, and to measure the water quality in a customized manner, Technology is needed.

The technique which is the background of the present invention is described in Korean Patent Registration No. 10-0682127 (published on Feb. 15, 2007).

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a smart farm server for providing information and a notification service to a user so as to efficiently manage the farm, and a farm management method using the same.

According to an aspect of the present invention, there is provided a communication system including a communication unit for receiving water quality data or risk element sensing data from a water quality measuring device installed in each of a plurality of water tanks, a size of the water tank, A storage unit for storing water tank information including at least one of a telephone number and an address of a user terminal associated with the water tank and sorting the received water quality data or the risk detection data by the fish species; And a controller for transmitting a notification signal to the user terminal corresponding to the water tank when the variation amount of the water quality data received from any one of the water quality measuring devices is larger than the reference value or the risk element sensing data is received.

Wherein the water quality data includes at least one of PH, temperature, dissolved oxygen, nutrients, turbidity, residual, and total dissolved solids (TDS) And can be sensed based on the activity of the captured fish.

Wherein the control unit analyzes the water quality data corresponding to the plurality of water tanks to calculate an average range of the water quality data according to the fish species and stores the average range in the storage unit and stores the received water quality data in the water quality data If the average range is exceeded, the notification signal may be transmitted to the corresponding user terminal.

The control unit may further include a deficiency element of water quality data in the notification signal.

According to another embodiment of the present invention, there is provided a method for managing a farm site using a smart farm, comprising the steps of: receiving water quality data or risk element detection data from a water quality measuring device installed in each of a plurality of water tanks; Storing water tank information including at least one of a type, a degree of growth of a fish, a telephone number of an user terminal associated with a water tank, and an address, and classifying and storing the received water quality data or the risk sensing data for each fish species, And transmitting the notification signal to the user terminal corresponding to the water tank when the variation amount of the water quality data received from any one of the water quality measurement devices installed in the water tank of the water tank is greater than the reference value or the risk element detection data is received .

According to the present invention, it is possible to provide an average water quality data of people who cultivate the same fish species, thereby relieving the anxiety of the users lacking management experience of the farm, and to form a community among the farmers of the same fish species, have.

Further, when the water quality data is out of a predetermined range through the water quality measuring device, an alarm is generated so that the user is informed to take appropriate measures.

1 is a diagram for explaining a smart form system according to an embodiment of the present invention.
2 is a configuration diagram of a smart farm server according to an embodiment of the present invention.
3 is a flowchart illustrating a method of managing a farm site using a smart farm server according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

1 is a diagram for explaining a smart form system according to an embodiment of the present invention. 1, the smart form system includes a smart farm server 100, water quality measuring apparatuses 200: 200-1,..., 200-n mounted on the respective tanks, and a user terminal 300. [ The smart farm server 100 is connected to the water quality measuring apparatuses 200: 200-1,..., 200-n and the user terminal 300, which are installed in a water tank of a plurality of farms.

Such a network may be connected to the water quality measuring apparatus 200 by wire or wireless. In the case of wireless communication, the wireless network may be connected to a network such as Bluetooth, NFC, Zigbee, Wi-Fi, and WAVE (Wireless Access in Vehicular Environment) Communications, or telecommunications such as mobile communication networks such as 3G, 4G, LTE, LTE-A, and the like.

The water quality measuring apparatus 200 shown in the embodiment of the present invention can measure at least one of the respective sensors or devices measuring PH, temperature, dissolved oxygen, nutrients, turbidity, residual, total dissolved solids (TDS) However, the present invention is not limited thereto. Hereinafter, each sensor or apparatus for measuring water quality is referred to as a water quality measuring apparatus 200 for convenience of explanation.

A plurality of water quality measuring devices 200 mounted on one water tank may respectively transmit measured water quality data to a smart farm server 100 or one water quality measuring device 200 may measure the water quality measured by a plurality of water quality measuring devices 200 The water quality data can be collected and transmitted to the smart farm server 100. One water quality measuring device 200 transmits the water quality data received from each water quality measuring device 200 connected by wire or wirelessly to the smart aquaculture server 100 in real time and can be easily changed It is possible to set. Each of the water tanks does not necessarily have to be equipped with the water quality measuring device 200 of the same kind, and different kinds of water quality measuring devices 200 can be installed according to conditions and conditions of the water tanks.

First, the water tank information such as the size of the water tank managed by the user or the manager, the type of the fish, the degree of growth of the fish, the telephone number of at least one user terminal associated with the water tank, the address, (100), and can receive and set GPS information from the water quality measuring device (200) mounted on the water tank. In addition, the type or the number of the water quality measuring apparatuses 200 installed in each water tank can be set.

Upon receipt of the measured water quality data from the water quality measuring device 200 installed in each water tank, the smart farm server 100 maps the stored water tank information to the previously stored water tank information, and stores the classified water according to the same species. At this time, the water quality data and the water tank information received from each water tank can store the serial number or link number of each water quality measuring device together.

Then, the smart farm server 100 can map each information using the corresponding serial number or link number, and generate the list using the search option.

The user can confirm the water quality data for the user's tank and the water quality data for the same fish species using the user terminal 300 or a web browser (not shown).

For example, the user can execute the dedicated application of the user terminal 300 or can confirm the water quality data whose water tank changes by quarter, month, day and time through a web browser (not shown) The average range of the water quality data measured in a plurality of water tanks that feed the fish species can be confirmed.

Then, the smart farm server 100 transmits a notification signal to at least one user terminal 300 corresponding to the water tank when the measured water quality data suddenly changes to a reference value or more and receives the risk element detection data.

On the other hand, in addition to the water quality measuring apparatus 200, a separate imaging device (not shown) can be mounted in each water tank. An imaging device (not shown) captures the activity amount of fish in real time, and the captured image data can be stored in the imaging device or transmitted to the smart farm server 100.

2 is a configuration diagram of a smart farm server according to an embodiment of the present invention.

The smart farm server 100 includes a communication unit 110, a storage unit 120, and a control unit 130.

First, the communication unit 110 receives the measured water quality data or the danger detection data from the water quality measuring apparatus 200 installed in each of the plurality of water tanks. The communication unit 110 transmits a notification signal to at least one user terminal corresponding to the water tank in which the data is transmitted from the controller 130.

The communication unit 110 is connected to the water quality measuring apparatus 200 through a wired or wireless network. In the case of wireless communication, the communication unit 110 may include a Bluetooth, an NFC, a Zigbee, a Wi-Fi, a Wireless Access in Vehicular Environment (WAVE) , Or long distance communications such as 3G, 4G, LTE, LTE-A, and other mobile communication networks.

The storage unit 120 stores the tank information including one of the size of the water tank for the plurality of water tanks, the type of the fish, the degree of growth of the fish, the telephone number of the user terminal associated with the water tank, and the address. The storage unit 120 may receive and store the type or related information of the water quality measuring apparatus 200 installed in each water tank from the user.

The storage unit 120 stores the water quality data or the danger detection data received from the water quality measuring apparatus 200 installed in each water tank. At this time, it may be stored together with the serial number of each water quality measuring device, or may be stored together with a link number for connecting each water tank information.

The storage unit 120 may store an average range of the water quality data estimated for each fish species from the controller 130.

When the variation amount of the water quality data received from the water quality measuring apparatus 200 installed in a plurality of water tanks is greater than the reference value or the risk element sensing data is received, the control unit 130 controls the operation of the user corresponding to the received water quality measuring apparatus 200 And transmits a notification signal to the terminal.

Also, the controller 130 can calculate the average range of the water quality data received from the water quality measuring apparatus of the same type of fish species by mapping the water quality data received from each water quality measuring apparatus 200 and the stored water tank information.

If the received water quality data is out of the average range of the water quality data calculated for the fish species, the controller 130 can transmit the notification signal to the corresponding at least one user terminal. Here, the notification signal may indicate the change of the water quality data, the fact that the risk element is detected, and the notification signal may further include a deficiency element of the water quality data.

3 is a flowchart illustrating a method of managing a farm site using a smart farm server according to an embodiment of the present invention.

First, the smart farm server 100 receives the water quality data or the risk element detection data from the water quality measuring apparatus 200 installed in each of the plurality of water tanks (S310).

Here, the water quality measuring apparatus 200 is an apparatus for measuring at least one water quality data, and includes both sensors or devices. As described above, the water quality measuring apparatus 200 includes, but is not limited to, a sensor or an apparatus for measuring at least one of PH, temperature, dissolved oxygen, nutrients, turbidity, residual, and total dissolved solids It is not.

One water quality measuring apparatus 200 may collect at least one measured water quality data in real time and transmit the same to the smart farm server 100 and each water quality measuring apparatus 200 may transmit the same to the smart farm server 00 .

Here, the risk element detection data may indicate a case where the variation amounts of the plurality of water quality data received from the water quality measuring apparatus 200 are changed more than the reference value simultaneously or the water quality data is not received from the water quality measuring apparatus 200 in real time But the present invention is not limited to this and can be easily changed and set later by an administrator.

In addition, the risk element detection data may indicate data for detecting a risk element based on the activity amount of a fish taken by an imaging device (not shown) installed in the water tank.

First, an image pickup device (not shown) can transmit an image screen photographed in real time to the smart form server 100 together with the water quality data of the water quality measuring apparatus 200. When the real-time image screen is transmitted to the smart form server 100, the smart form server 100 measures the activity amount of the fish by analyzing the real-time image screen. If the activity amount of the fish is less than the reference value or less than the average value, And it can be assumed that the risk element detection data has been received.

Alternatively, a dangerous element can be detected by analyzing an image screen shot in real time using a sensing module included in the image sensing device. That is, the sensing module measures the activity of the fish by analyzing the image of the image taken in real time by the imaging device, and when the activity of the fish is less than the reference value or less than the average value, Element detection data can be transmitted to the smart form server 100.

Here, the reference value or the average value can be calculated based on the activity amount of the fish in the corresponding tank, or the average range derived by analyzing the movement of the same fish measured in the plurality of water tanks. If the imaging device determines a risk factor, the imaging device may receive the motion average range of the fish from the smart form server 100 and set it as a reference value or an average value.

The smart form server 100 can transmit the danger detection data to the user terminal 300 more urgently and repeatedly than the general notification signal.

Next, the smart farm server 100 stores each of the water tank information for a plurality of water tanks, and stores the water quality data or the danger sensing data received from the plurality of water tanks according to the type of fish and stores the classified water quality data or the risk sensing data.

The smart farm site server 100 stores the water tank information including at least one of the size of the water tank, the type of fish, the growth rate of the fish, the telephone number of the user terminal 300 associated with the water tank, and the address. Here, the water tank information is inputted and stored by the user or the manager, and the water tank information is stored in the water tank such as the type of the water quality sensor installed in the water tank, the water type in the water tank, the number of fish, the type of food, And may further include information that may affect the environment of the fish.

The smart farm site server 100 can classify and store the water quality data or the risk detection data received from the water quality measuring device 200 installed in each water tank by using the water tank information, Can be classified and stored based on the size of the water tank or the type of food or a separate item.

Next, when the variation amount of the water quality data received from any one of the plurality of water tanks is greater than the reference value or the risk element detection data is received, the smart farm server 100 transmits a notification signal (S330).

In addition, the smart farm server 100 can separately store the average range of the water quality data classified and stored according to the fish species. Such average range estimation and storage can be performed in real time or at regular time intervals.

If the received water quality data is larger or smaller than the average range of the water quality data of the same fish species, the smart farm site server 100 can transmit the notification signal to the user terminal 300 corresponding to the water tank.

The smart farm server 100 can transmit data corresponding to a result of analyzing the water quality data of the water tank together with the notification signal, and can transmit data corresponding to the water quality data of a plurality of other water tanks Data average range can be provided together.

In addition, the smart farm site server 100 may separately calculate the average water quality data of the fish farms of the same fish farm size among the fish farms of the same fish species and provide them to the user terminal 300. In other words, it is possible to provide various data to the user by performing search options in the same species.

The smart farm environment server 100 can convert the water quality data received in real time or the result of the analyzed water quality data into various formats such as a graph, a table or an image and provide the water quality data to users corresponding to the water tank.

On the other hand, when the smart farm server 100 determines that the change amount of the water quality data has changed abruptly or has exceeded the calculated average range, received the risk element detection data, or detected the risk element, the smart farm server 100 transmits a notification signal to the user terminal 300 A simple notification signal may be transmitted or an alarm signal including a water quality data deficiency element may be transmitted in the water tank.

For example, when the dissolved oxygen is measured to be smaller than the average range of the fish species of the same species, the smart farm server 100 transmits a notification signal to the user terminal 300 corresponding to the corresponding tank, Together, you can ask for confirmation of the oxygen supply to increase dissolved oxygen, or you can send a request to increase the oxygen supply.

As described above, according to the embodiment of the present invention, it is possible to provide an average water quality data of people who cultivate the same fish species, thereby relieving the anxiety of users lacking management experience of the fish farm, Can be provided.

Further, when the water quality data is out of a predetermined range through the water quality measuring device, an alarm is generated so that the user is informed to take appropriate measures.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Smart farm site server 110:
120: storage unit 130:
200: Water quality measuring device 300: User terminal

Claims (8)

A communication unit for receiving the water quality data or the risk element detection data from the water quality measuring apparatus mounted in each of the plurality of water tanks,
The water level information including at least one of the size of the water tank, the type of the fish, the growth rate of the fish, the telephone number of the user terminal associated with the water tank, and the address, and classifies the received water quality data or the risk detection data by the fish species A storage for storing, and
A controller for transmitting a notification signal to a user terminal corresponding to the water tank when the variation amount of the water quality data received from any one of the water quality measuring devices installed in the plurality of water tanks is greater than a reference value or when the risk element detection data is received Includes a smart farm server. The method according to claim 1,
The water quality data
PH, temperature, dissolved oxygen, nutrients, turbidity, residual, total dissolved solids (TDS)
Wherein the risk element detection data is sensed based on an amount of activity of a fish taken by an imaging device mounted on the water tank. The method according to claim 1,
Wherein,
Analyzing the water quality data corresponding to the plurality of water tanks to calculate an average range of the water quality data for each fish species and storing the average range in the storage unit,
And transmits the notification signal to the corresponding user terminal when the received water quality data is out of the average range of the water quality data calculated in the same kind of water tank. 3. The method of claim 2,
Wherein,
Wherein the notification signal further includes a deficiency factor of the water quality data. A method for managing a farm site using a smart farm site,
Receiving water quality data or risk element detection data from a water quality measuring device installed in each of a plurality of water tanks,
The water level information including at least one of the size of the water tank, the type of the fish, the growth rate of the fish, the telephone number of the user terminal associated with the water tank, and the address, and classifies the received water quality data or the risk detection data by the fish species Storing, and
And transmitting the notification signal to the user terminal corresponding to the water tank when the variation amount of the water quality data received from any one of the water quality measuring devices installed in the plurality of water tanks is greater than the reference value or when the risk element detection data is received How to Manage the Farm Included. 6. The method of claim 5,
The water quality data
PH, temperature, dissolved oxygen, nutrients, turbidity, residual, total dissolved solids (TDS)
Wherein the risk element detection data is sensed based on an activity amount of a fish taken by an image pickup apparatus mounted on the water tank. 6. The method of claim 5,
The method of claim 1,
Analyzing the water quality data corresponding to the plurality of water tanks to calculate and store an average range of the water quality data for each fish species,
And transmitting the notification signal to the corresponding user terminal if the received water quality data is out of the average range of the water quality data calculated in the same kind of water tank. The method according to claim 6,
The method of claim 1,
Wherein the notification signal further includes a deficiency element of water quality data.

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