KR20210066616A - Method and service server for managing livestock breeding via smart farm - Google Patents

Abstract

According to one embodiment of the present invention, provided is a method for managing the breeding of livestock in a service server. A livestock breeding management method through a smart farm comprises the steps of: receiving livestock health information and egg production information measured for each zone; determining whether there is an abnormality in livestock for each zone based on the health information and the production information; and transmitting livestock abnormality notification information to a manager terminal of the zone where the abnormal livestock is located, when determined that there is an abnormality in the livestock.

Description

Livestock breeding management method and service server through smart farm {METHOD AND SERVICE SERVER FOR MANAGING LIVESTOCK BREEDING VIA SMART FARM}

The present invention relates to a livestock breeding management method and a service server through a smart farm, and more specifically, by monitoring the health and egg status of livestock for each zone, and checking whether there is an abnormality with the livestock and eggs for each zone, It relates to a livestock breeding management method and service server for controlling the environment of the livestock house.

Most domestic poultry farms are operating in the form of maximizing profits by producing eggs from chickens raised in a dense breeding environment called factory livestock, so-called battery cage.

In these factory farms, it is almost impossible to obtain healthy eggs, and two chickens have been strategized as a spawning machine without squeezing out of an A4 paper size. Numerous harms resulting from such an environment have to be dealt with by consumers alone. became a share.

The problems in factory farming are innumerable. As chickens are raised in a stressful environment, cortisol, the stress hormone, is detected in eggs, and insecticides are sprayed to artificially remove ticks in an environment where earth bathing is not possible. Antibiotics for immune deficiency due to stress, a stimulant for spawning, a coloring agent that gives the color of the yolk, a non-chang chicken that blocks sunlight for the color of the eggshell (vitamin D deficiency), and a lighting program that limits the sleeping time to increase the spawn rate , GMO feed, omega-6-rich corn feed, etc. The problem of factory livestock is a serious condition.

As the problem becomes so serious, advanced countries have banned factory battery breeding and are shifting to animal welfare breeding, and this breeding of animal welfare is already an international trend.

Accordingly, the demand for animal welfare smart farms, which is a small-scale farming method rather than factory-style livestock farming, is increasing.

However, in order to separate and breed livestock, there is a problem in that it is difficult to create an optimal environment for breeding livestock for each zone, and there is also a problem in that time and cost are generated accordingly.

Therefore, there is a need for a technology for easily managing livestock and eggs separated for each zone by automatically controlling the environment for each zone by grasping not only the livestock separated for each zone but also the state of eggs produced in the livestock.

The present invention is to solve the problems of the prior art described above, by monitoring the health and egg status of livestock for each zone, and checking whether there is an abnormality with the livestock and eggs for each zone, thereby controlling the environment of the livestock for each zone It aims to provide a breeding management method and service server.

Objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood from the description below.

According to an embodiment of the present invention for achieving the above object, there is provided a method for managing the breeding of livestock in a service server, the method comprising: receiving health information of livestock and egg production information measured for each area; determining whether there is an abnormality in livestock for each zone based on the health information and the production information; And when it is determined that there is an abnormality in the livestock, transmitting the livestock abnormality notification information to the manager terminal of the area where the abnormal livestock is located, the livestock breeding management method through the smart farm is provided.

The step of determining whether there is an abnormality in the livestock may include determining whether there is an abnormality in the livestock for each zone by comparing the number of livestock producing eggs set for each zone and the number of eggs measured for each zone. .

The livestock breeding management method may further include analyzing the number of eggs produced for each zone based on at least one of weight information measured in the egg production area and image information photographed in the egg production area.

The livestock breeding management method includes determining whether there is an abnormality in eggs for each zone based on at least one of weight information measured in the egg production area, image information photographed in the egg production area, and the number of eggs produced step; and if it is determined that there is an abnormality in the egg, transmitting the egg abnormality notification information to the manager terminal of the area where the abnormal egg is located.

The livestock breeding management method may further include the step of controlling the door of the normal area to be opened if, as a result of comparing the number of animals and the number of eggs produced, it is confirmed that there is no abnormality in the livestock, the door of the normal area is opened .

The step of determining whether the livestock is abnormal may include determining whether there is an abnormality in the livestock for each zone based on weight information measured in the feed supply area.

The livestock breeding management method further includes processing so that the environment of the livestock breeding area is controlled for each zone through the health information of the livestock, and processing so that the environment of the egg production area is controlled for each zone through the egg production information can do.

According to another embodiment of the present invention for achieving the above object, there is provided a service server for managing the breeding of livestock, comprising: a communication unit for receiving livestock health information and egg production information measured for each area; and an information analysis unit that determines whether there is an abnormality in the livestock for each zone based on the health information and the production information, wherein the communication unit, if it is determined that there is an abnormality in the livestock, is a manager of the area where the abnormal livestock is located A service server is provided that transmits livestock abnormality notification information to a terminal.

The information analysis unit may determine whether there is an abnormality in the livestock for each zone by comparing the number of eggs producing animals set for each zone and the number of eggs measured for each zone.

The information analysis unit may analyze the number of eggs produced for each zone based on at least one of weight information measured in the egg production area and image information obtained by photographing the egg production area.

The information analysis unit determines whether there is an abnormality in eggs for each zone based on at least one of weight information measured in the egg production area, image information photographed in the egg production area, and the number of eggs produced, If it is determined that there is an abnormality in the egg, the communication unit may transmit egg abnormality notification information to the manager terminal of the area in which the abnormal egg is located.

The service server may further include an environment control unit so that the door of the normal area is opened when, as a result of comparing the number of livestock and the number of eggs produced, it is confirmed that there is no abnormality in the livestock.

The information analysis unit may determine whether there is an abnormality in the livestock for each zone, further based on the weight information measured in the feed supply area.

The service server may further include an environment control unit that processes the environment of the livestock breeding area to be controlled for each zone through the health information of the livestock, and processes the environment of the egg production area to be controlled for each zone through the egg production information can

According to an embodiment of the present invention, by controlling the environment for each zone by checking whether there is an abnormality with the livestock and eggs for each zone, livestock and eggs separated for each zone can be easily managed, and the livestock environment control system can be efficiently It has the effect that it can be operated as

It should be understood that the effects of the present invention are not limited to the above-described effects, and include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 is a diagram schematically showing the configuration of a livestock breeding management system according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of a service server according to an embodiment of the present invention.
3 is a view for explaining a process of controlling the environment for each zone according to the state of livestock and eggs according to an embodiment of the present invention.
4 is a view showing an egg production area, a livestock breeding area, and a feed supply area divided by zones according to an embodiment of the present invention.

Prior to the detailed description of the present invention, the terms or words used in the present specification and claims described below should not be construed as being limited to their ordinary or dictionary meanings, and the inventors should develop their own inventions in the best way. For explanation, it should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be appropriately defined as a concept of a term. Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so various equivalents that can replace them at the time of the present application It should be understood that there may be water and variations.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this case, it should be noted that the same components in the accompanying drawings are denoted by the same reference numerals as possible. In addition, detailed descriptions of well-known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some components are exaggerated, omitted, or schematically illustrated in the accompanying drawings, and the size of each component does not fully reflect the actual size.

First, a system for managing the breeding of livestock according to an embodiment of the present invention will be described. 1 is a diagram schematically showing the configuration of a livestock breeding management system according to an embodiment of the present invention.

Referring to FIG. 1 , the livestock breeding management system according to an embodiment of the present invention includes a device installed in a first zone 100 , a device installed in a second zone 200 , a gateway 300 , a service server 400 and It may include a plurality of manager terminals 500 .

First, the first zone 100 and the second zone 200 may be set as spaces necessary for breeding livestock by group.

For example, when the ratio of hens to roosters is 15:1, 100% fertilized eggs can be produced. For this, 15 hens and 1 rooster are grouped, and the space for rearing each chicken group is set to 1 The zone 100 and the second zone 200 may be divided and set.

In the present specification, for convenience of explanation, a part of the barn is set to be divided into the first zone 100 and the second zone 200, but it is not limited thereto, and may be divided into three or more zones depending on the size of the barn. of course there is

The device installed in the first zone 100 or the second zone 200 may be implemented in various forms, including a sensor mounted on livestock, a sensor installed inside a livestock shed, a camera, and the like.

When the device installed in the first zone 100 or the second zone 200 is a sensor mounted on the livestock, health information of the livestock may be measured through the sensor.

For example, the livestock health information may be measured by sensing the temperature of the livestock through a temperature sensor mounted on the livestock located in the first zone 100 .

When the device installed in the first zone 100 or the second zone 200 is a sensor installed inside the livestock house, egg production information may be measured through the sensor.

For example, egg production information may be measured by sensing the weight of an egg through a weight sensor installed in a space set as an egg production area in the first zone 100 .

When the device installed in the first zone 100 or the second zone 200 is a camera, image information of the corresponding zone may be acquired in real time or periodically through the camera.

The devices installed in the first zone 100 or the second zone 200 are connected to each other through the gateway 300 and a wireless communication network to perform communication, and the gateway 300 provides health information of livestock and production information of eggs. , and video information of the area can be transmitted.

According to an embodiment of the present invention, the plurality of devices installed in the first zone 100 and the second zone 200 individually transmits livestock health information, egg production information, image information of the zone, etc. to the gateway 300 ) can be transmitted.

According to another embodiment of the present invention, a representative device among a plurality of devices installed in the first zone 100 may integrate information measured in the first zone 100 and transmit it to the gateway 300, and the second zone ( A representative device among a plurality of devices installed in 200 may integrate information measured in the second zone 200 and transmit it to the gateway 300 .

The gateway 300 may be connected to the service server 400 and communicate with each other through various communication networks. Here, the communication network may be configured regardless of its communication mode, such as wired and wireless, and includes a local area network (LAN), a metropolitan area network (MAN), a wide area network (WAN), It may be composed of various communication networks such as Ethernet.

The gateway 300 may transmit information received for each zone, such as the first zone 100 and the second zone 200 , to the service server 400 .

The service server 400 may be implemented as a network server, and may store and manage livestock health information, egg production information, area image information, and the like in a database.

The service server 400 may transmit the state information including the health information of livestock, the production information of eggs, image information of the area, etc. received from the gateway 300 to each of the plurality of manager terminals 500 for each area.

For example, when the manager managing the first zone 100 is the first manager, the service server 400 may transmit the state information of the first zone 100 to the first manager terminal 510, When the manager managing the second zone 200 is the second manager, the service server 400 may transmit status information of the second zone 200 to the second manager terminal 520 .

Each of the plurality of manager terminals 500 is a mobile phone, a smart phone, a PDA (Personal Digital Assistant), a PMP (Portable Multimedia Player), any type of handheld that can be connected to an external server through a wireless communication network, such as a tablet PC (Handheld) It may include a wireless communication device based on it, and may include a communication device that can be connected to an external server through a network, such as a desktop PC, a tablet PC, a laptop PC, and an IPTV including a set-top box, and wearable (Wearbale). It may also include a wireless communication device based on it.

The plurality of manager terminals 500 are terminals used by managers who want to manage each area of the livestock house, and are used by the first manager designated as the manager of the first area 100 , the first manager terminal 510 , and the second area 200 . ) may include a second manager terminal 520 and the like used by a second manager designated as the manager.

Hereinafter, for convenience of explanation, the operation of the first manager terminal 510 will be mainly described, but of course, the operation of the first manager terminal 510 may be performed in another manager terminal such as the second manager terminal 520 . .

As described above, the first zone 100 may be managed by a first administrator, and the second zone 200 may be managed by a second administrator, but in addition, a plurality of zones may be managed by one administrator, A single zone may be managed by a plurality of managers.

For example, when only the first manager is designated as the manager of the first zone 100 and the second zone 200 , the service server 400 is configured for the first zone 100 and the second zone 200 . The state information may be transmitted to the first manager terminal 510 , and when the first manager and the second manager are designated as the managers of the first zone 100 , the service server 400 is the first zone 100 . The state information may be transmitted to the first manager terminal 510 and the second manager terminal 520 .

2 is a block diagram illustrating a configuration of a service server 400 according to an embodiment of the present invention.

Referring to FIG. 2 , the service server 400 according to an embodiment of the present invention may include a communication unit 410 , an information analysis unit 420 , and an environment control unit 430 .

First, the communication unit 410 may include a communication module that enables communication between each component of the service server 400 and is connected to an external network to enable communication with other devices.

The communication unit 410 may receive the livestock health information and egg production information measured for each zone. In receiving the information measured for each zone, the communication unit 410 may receive it through the gateway 300 and from a device installed for each zone. You can also receive it directly.

For example, the communication unit 410 receives the livestock health information and egg production information measured in the first area 100 through the gateway 300 , and the livestock health information measured in the second area 200 . And egg production information may be received through the gateway 300 .

In addition, the communication unit 410 receives the livestock health information and egg production information measured in the first area 100 through the communication device installed in the first area 100 , and the second area 200 Livestock health information and egg production information may be received through a communication device installed in the second zone 200 .

The information analysis unit 420 may determine whether there is an abnormality in the livestock for each area based on the health information and production information received from the communication unit 410 .

Specifically, the information analysis unit 420 determines whether there is an abnormality in the health of the livestock for each zone using the health information of the livestock measured through various sensors (temperature sensor, activity meter sensor, movement detection sensor, etc.) mounted on the livestock. It can be determined whether or not the livestock has properly produced eggs for each area by using egg production information measured through a weight sensor installed in the egg production area.

In the process of determining whether the livestock is abnormal, the information analysis unit 420 compares the number of livestock producing eggs set for each zone and the number of eggs measured for each zone, and determines whether there is an abnormality in the livestock for each zone. can judge

For example, if 5 are registered as the number of livestock producing eggs in the first zone 100 , the information analysis unit 420 determines whether the number of eggs produced in the first zone 100 is 5 By checking, it can be determined whether there is an abnormality in the livestock of the first zone 100 .

In the process of analyzing the number of eggs produced, the information analysis unit 420 analyzes the number of eggs produced for each zone based on at least one of weight information measured in the egg production area and image information photographed in the egg production area. can

Specifically, the first zone 100 and the second zone 200 are divided into a livestock breeding area and an egg production area, respectively, and the information analysis unit 420 measures the measured in the egg production area of the first area 100 . The number of eggs produced in the first zone 100 can be analyzed using the weight information, and the eggs produced in the first zone 100 are produced using image information of the egg production area of the first zone 100 . The number of eggs can be analyzed.

For example, when the information analysis unit 420 analyzes the weight information measured in the egg production area of the first zone 100 and determines that it is 1 kg and the average weight of the eggs is set to 100 g, the first zone The number of eggs produced in (100) can be analyzed as 10.

In addition, the information analysis unit 420 may analyze the number of eggs produced in the first zone 100 by analyzing the image information of the egg production area of the first zone 100 and recognizing each egg. have.

The information analysis unit 420 may determine whether there is an abnormality in eggs for each zone based on at least one of weight information measured in the egg production area, image information photographed in the egg production area, and the number of eggs produced.

For example, the information analysis unit 420 analyzed the image information of the egg production area of the first area 100 , and as a result, the number of eggs produced in the first area 100 was analyzed as 10. Since the weight is set to 100 g, the weight measured in the egg production area of the first zone 100 should be 1 kg, but as a result of analyzing the weight information measured in the egg production area of the first zone 100, it is confirmed that 950 g , it may be determined that there is an abnormality in at least one of the eggs produced in the first zone 100 .

According to an embodiment, the information analysis unit 420 may determine whether there is an abnormality in the livestock for each zone based on the weight information measured in the feed supply area.

Specifically, the first zone 100 and the second zone 200 are each divided into a livestock breeding area, an egg production area, and a feed supply area. The information analysis unit 420 analyzes the weight information measured in the feed supply area. By using this, it is possible to determine whether there is an abnormality in the livestock for each zone by checking whether the livestock is properly eating the feed. Detailed description of the livestock breeding area, egg production area, and feed supply area will be described later with reference to FIG. 4 .

As a result of determining whether the livestock is abnormal for each zone in the information analysis unit 420, if it is determined that there is an abnormality in the livestock, the communication unit 410 may transmit livestock abnormality notification information to the manager terminal of the area in which the abnormal livestock is located.

For example, if the information analysis unit 420 determines that there is an abnormality in the livestock located in the first area 100 , the communication unit 410 sends the first manager terminal 510 to manage the first area 100 . Livestock abnormality notification information can be transmitted.

As a result of determining whether the egg is abnormal for each zone in the information analysis unit 420 , if it is determined that there is an abnormality in the egg, the communication unit 410 may transmit egg abnormality notification information to the manager terminal of the area in which the abnormal egg is located.

For example, if the information analysis unit 420 determines that there is an abnormality in the egg located in the second area 200 , the communication unit 410 sends the second manager terminal 520 to manage the second area 200 . It is possible to transmit egg abnormality notification information.

The environment control unit 430 may output a control signal to control the environment of the livestock to drive various devices installed in the livestock.

For example, the environment control unit 430 outputs a control signal to open and close the doors, windows, etc. installed for each zone, outputs a control signal to control whether or not the amount of feed supplied to each zone is supplied, and the temperature for each zone. , a control signal may be output to adjust the amount of light irradiation.

That is, the environment control unit 430 may control the driving of various types of control devices for adjusting the environment of the livestock house for each zone.

According to an exemplary embodiment, when the information analysis unit 420 compares the number of livestock and the number of eggs produced, if it is confirmed that a normal area in which there is no abnormality in the livestock is confirmed, the environment control unit 430 opens the door of the normal area. can be controlled as much as possible.

For example, five eggs are registered as the number of livestock producing eggs in the first zone 100 , and the information analysis unit 420 checks whether the number of eggs produced in the first zone 100 is 5 By doing so, 5 livestock located in the first zone 100 normally produce 5 eggs, so that it can be confirmed whether the first zone 100 is a normal zone where there is no abnormality in the livestock, and the environment control unit 430 is the first When the zone 100 is identified as a normal zone, by controlling the door of the first zone 100 to be opened, livestock that normally produce eggs can be processed so that they can leave the first zone 100 .

The environment controller 430 may process the environment of the livestock breeding area to be controlled for each zone through the health information of the livestock, and process the environment of the egg production area to be controlled for each zone through the egg production information.

For example, the information analysis unit 420 may determine that there is an abnormality in the health of livestock located in the first zone 100 , and in this case, the environment control unit 430 may control the livestock breeding area of the first zone 100 . It is possible to control the environment to be adjusted according to the health status of the livestock.

Also, the information analysis unit 420 may confirm that eggs are produced in the egg production area of the second zone 200 , and in this case, the environment control unit 430 controls the environment for the egg production area of the second zone 200 . It can be controlled to be adjusted according to the number of eggs produced.

3 is a view for explaining a process of controlling the environment for each zone according to the state of livestock and eggs according to an embodiment of the present invention.

First, in step S301, the service server 400 may monitor the state of livestock and eggs for each zone.

In monitoring the status of livestock and eggs, the service server 400 may receive livestock health information and egg production information measured for each zone, and monitor the status of livestock and eggs for each zone.

According to an embodiment, the service server 400 may integrally receive the livestock health information and egg production information measured in the first zone 100 and the second zone 200 through the gateway 300 . .

According to another embodiment, the service server 400 receives the livestock health information and egg production information measured in the first zone 100 from the communication device installed in the first zone 100, and the second zone 200 ) may receive health information of livestock and egg production information measured in the second zone 200 from the communication device installed in the .

In monitoring the status of livestock and eggs, the service server 400 may receive image information photographed for each zone, and monitor the status of livestock and eggs for each zone.

For example, the service server 400 may receive image information from a camera that captures the livestock breeding area of the first zone 100 to monitor the livestock status of the first zone 100, and the second zone ( 200), by receiving image information from a camera that captures the egg production area, it is possible to monitor the egg status of the second area 200 .

Thereafter, in step S302 , the service server 400 may check whether there is an abnormality in livestock and eggs for each zone through the monitoring result for each zone on the state of livestock and eggs performed in step S301 .

Specifically, the service server 400 may determine whether there is an abnormality in livestock and eggs for each zone based on health information and production information measured for each zone, for example, measured in the first zone 100 . Based on the obtained health information and production information, it may be determined whether there is an abnormality in the livestock and eggs located in the first zone 100 .

In determining whether the livestock is abnormal, the service server 400 compares the number of livestock producing eggs set for each zone and the number of eggs measured for each zone to determine whether there is an abnormality in the livestock for each zone. can

For example, if 5 is set as the number of livestock producing eggs in the first zone 100, the service server 400 compares whether the number of eggs measured in the first zone 100 is 5. , by checking whether all five livestock normally produce eggs, it is possible to determine whether there is an abnormality in the livestock in the first zone 100 .

In order to analyze the number of eggs produced, the service server 400 may analyze the number of eggs produced for each zone based on at least one of weight information measured in the egg production area and image information photographed in the egg production area. .

For example, the service server 400 may analyze the number of eggs produced in the first zone 100 through weight information measured in the egg production zone of the first zone 100 , ), it is also possible to analyze the number of eggs produced in the first area 100 through the image information of the egg production area.

The service server 400 may determine whether there is an abnormality in eggs for each zone based on at least one of weight information measured in the egg production area, image information photographed in the egg production area, and the number of eggs produced.

For example, the service server 400 analyzes the total weight of eggs produced in the first area 100 through weight information measured in the egg production area of the first area 100 , and the first area 100 . Analyzes the number of eggs produced in the first zone 100 through image information captured in the egg production area of , and abnormalities in eggs produced in the first zone 100 based on the number of eggs produced and the total weight of eggs It can be determined whether there is

In determining whether the livestock is abnormal, the service server 400 may determine whether there is an abnormality in the livestock for each zone based on weight information measured in the feed supply area.

For example, the service server 400 compares the weight before feeding and the weight after feeding through the weight information measured in the feeding area of the first zone 100 to determine whether the feed is reduced by a predetermined weight. Through the process, it may be determined whether there is an abnormality in the livestock located in the first zone 100 .

In step S302, if it is confirmed that there is an abnormality as a result of checking whether there is an abnormality in livestock and eggs for each region, in step S303, the service server 400 may transmit abnormality notification information to the manager terminal in charge of the abnormal region.

For example, if it is determined that there is an abnormality in the livestock in the first zone 100 , the service server 400 sends the abnormal livestock notification information to the first manager terminal 510 in the first zone 100 in which the abnormal livestock is located. can be transmitted.

In addition, if it is determined that there is an abnormality in the egg in the second zone 200 , the service server 400 transmits egg abnormality notification information to the second manager terminal 520 in the second zone 200 in which the abnormal egg is located. can

In step S302, if it is confirmed that there is an abnormality as a result of checking whether there is an abnormality in livestock and eggs by zone, the service server 400 transmits abnormal notification information to the manager terminal in charge of the abnormal zone, and at the same time, in step S304, the service The server 400 may control the environment of the abnormal zone.

Specifically, the service server 400 may process the environment of the livestock breeding area to be controlled for each zone through the health information of the livestock, and process the environment of the egg production area to be controlled for each zone through the egg production information.

For example, the service server 400 analyzes the health information of the livestock located in the first zone 100 , and when it is confirmed that there is an abnormality in the livestock, the first zone 100 according to the health condition of the livestock. The environment for the livestock breeding area can be treated to be controlled.

In addition, when the service server 400 analyzes the state of the eggs located in the second zone 200 and it is confirmed that the eggs have been produced, the environment for the egg production area of the second zone 200 is suitable for egg storage. It can be processed to be controlled.

In step S302, if it is confirmed that there is no abnormality as a result of checking whether the livestock and eggs are abnormal in each zone, in step S304, the service server 400 may control the environment of the normal zone.

Specifically, the service server 400 may compare the number of livestock and the number of eggs produced by analyzing the number of eggs and the number of eggs produced by each zone, and as a result of the comparison, there is no abnormality in the livestock. If it is identified as a normal area, the door to the normal area can be controlled to open.

For example, the service server 400 compares the number of livestock producing eggs in the first zone 100 with the number of eggs produced in the first zone 100 , When all the located livestock normally produce eggs and the first zone 100 is confirmed to be a normal zone, the door of the first zone 100 may be controlled to be opened.

4 is a view showing an egg production area, a livestock breeding area, and a feed supply area divided by zones according to an embodiment of the present invention.

Referring to FIG. 4 , the first zone 100 may be divided into a first egg production zone 110 , a first livestock breeding zone 120 , and a first feed supply zone 130 , and a second zone 200 . ) may be divided into a second egg production area 210 , a second livestock breeding area 220 , and a second feed supply area 230 .

The first egg production area 110 and the second egg production area 210 are areas in which eggs are produced, and a weight sensor for measuring the weight of eggs may be installed for each zone, and a weight sensor installed for each zone is used to produce eggs. The weight of eggs produced in the first egg production area 110 and the second egg production area 210 may be measured for each zone.

The first livestock breeding area 120 and the second livestock breeding area 220 are areas in which livestock live, and livestock located in the first livestock breeding area 120 and the second livestock breeding area 220 includes the health of livestock. Various sensors for measuring the state may be mounted.

The first feeding area 130 and the second feeding area 230 are areas in which livestock eat feed when feed is supplied, and a weight sensor for measuring the weight of feed may be installed for each zone, and installed for each zone. The weight sensor can measure the weight before and after feeding.

According to an embodiment, a plurality of cameras are installed inside the barn, so that the first egg production area 110 , the first livestock breeding area 120 , the first feed area 130 , and the second egg production area 210 . ), image information for each of the second livestock breeding area 220 and the second feed supply area 230 may be acquired in real time or periodically.

As such, according to an embodiment of the present invention, by controlling the environment for each zone by checking whether there is an abnormality with the livestock and eggs for each zone, livestock and eggs separated for each zone can be easily managed, and the livestock environment control It has the advantage of being able to operate the system efficiently.

The above description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

100: first zone
110: first egg production area
120: first livestock breeding area
130: first feeding area
200: second zone
210: second egg production area
220: second livestock breeding area
230: second feeding area
300 : gateway
400 : service server
410: communication department
420: information analysis unit
430: environment control
500: a plurality of manager terminals
510: first manager terminal
520: second manager terminal

Claims (14)

In the method for managing the breeding of livestock in the service server,
receiving livestock health information and egg production information measured for each zone;
determining whether there is an abnormality in livestock for each zone based on the health information and the production information; and
When it is determined that there is an abnormality in the livestock, the livestock breeding management method through a smart farm comprising the step of transmitting livestock abnormality notification information to the manager terminal of the area where the abnormal livestock is located. According to claim 1,
The step of determining whether the livestock is abnormal,
A livestock breeding management method through a smart farm, comprising the step of comparing the number of livestock producing eggs set for each zone and the number of eggs measured for each zone, and determining whether there is an abnormality in the livestock for each zone. 3. The method of claim 2,
Based on at least one of the weight information measured in the egg production area and the image information photographed in the egg production area, the method further comprising the step of analyzing the number of eggs produced by each zone, livestock breeding management method through a smart farm. 4. The method of claim 3,
determining whether there is an abnormality in eggs for each zone based on at least one of weight information measured in the egg production area, image information photographed in the egg production area, and the number of eggs produced; and
If it is determined that there is an abnormality in the egg, further comprising the step of transmitting egg abnormality notification information to the manager terminal of the area where the abnormal egg is located, the livestock breeding management method through the smart farm. 3. The method of claim 2,
As a result of comparing the number of livestock and the number of eggs produced, if it is confirmed that there is no abnormality in the livestock, the method further comprising the step of controlling the door of the normal area to be opened. . According to claim 1,
The step of determining whether the livestock is abnormal,
Further based on the weight information measured in the feed supply area, the livestock breeding management method through the smart farm comprising the step of determining whether there is an abnormality in the livestock for each zone. According to claim 1,
Livestock through smart farm, further comprising: processing the environment of the livestock breeding area to be controlled for each zone through the health information of the livestock, and processing the environment of the egg production area to be controlled for each zone through the egg production information Breeding management methods. In the service server for managing the breeding of livestock,
a communication unit for receiving livestock health information and egg production information measured for each area; and
Based on the health information and the production information, including an information analysis unit for determining whether there is an abnormality in the livestock for each zone,
The communication unit,
If it is determined that there is an abnormality in the livestock, the service server for transmitting the abnormality notification information to the manager terminal of the area where the abnormal livestock is located. 9. The method of claim 8,
The information analysis unit,
A service server that compares the number of livestock producing eggs set for each zone and the number of eggs measured for each zone, and determines whether there is an abnormality in the livestock for each zone. 10. The method of claim 9,
The information analysis unit,
A service server that analyzes the number of eggs produced for each zone based on at least one of weight information measured in the egg production area and image information photographed in the egg production area. 11. The method of claim 10,
The information analysis unit,
Based on at least one of weight information measured in the egg production area, image information photographed in the egg production area, and the number of eggs produced, it is determined whether there is an abnormality in eggs for each zone,
The communication unit,
When it is determined that there is an abnormality in the egg, the service server transmits egg abnormality notification information to the manager terminal of the area where the abnormal egg is located. 10. The method of claim 9,
As a result of comparing the number of animals and the number of eggs produced, the service server further comprising an environment control unit so that the door of the normal area is opened when it is confirmed that there is no abnormality in the livestock. 9. The method of claim 8,
The information analysis unit,
A service server that further determines whether there is an abnormality in the livestock for each area based on the weight information measured in the feeding area. 9. The method of claim 8,
The service server further comprising an environment controller that processes the environment of the livestock breeding area to be controlled for each zone through the health information of the livestock, and processes the environment of the egg production area to be controlled for each zone through the egg production information.

Images