KR101098867B1 - System for providing stable management and method therefor - Google Patents

Abstract

The present invention relates to a barn management technology suitable for collecting livestock growth information and providing a management and operating environment for the barn. Conventionally, the technology that can simply monitor the environment inside the livestock house and operate the livestock facility according to the result to remove the hazards that prevent the livestock growth or control the livestock environment remotely. There is a problem that accurate management / measurement is difficult. Therefore, the present invention, by monitoring the internal and external environment and livestock growth status and control the livestock livestock house by using the environmental information collection unit and the mobile measuring unit installed in the livestock barn, it is possible to maintain the optimum livestock growth environment To provide a livestock house management environment. According to the present invention, it is possible to promptly inform the producer when an emergency occurs in the livestock farming environment to maintain the optimal growth condition of the livestock, and to cope with disease and mating time appropriately, to increase the production of the livestock farms and the convenience of the producers. Can increase.

Barn, Sensor, Livestock, Monitoring, Environment, Mobile Measuring Device

Description

Livestock management system and management method {SYSTEM FOR PROVIDING STABLE MANAGEMENT AND METHOD THEREFOR}

The present invention relates to a barn management technology, and in particular, by monitoring the internal and external environment information, livestock information and livestock image of the livestock, and control the livestock facilities to maintain the optimal livestock environment and adapt to disease and mating time It relates to a housing management system and management method suitable for coping with the enemy.

In general, the house has two functions: streamlining herd management and protecting livestock from natural weather. Therefore, the requirements of the house should be well-positioned, directional, ventilated, mined, ventilated, and insulated, and equipped with facilities suitable for feeding, cleaning, and sanitation.

Since the barn system changes dynamically according to the internal and external environment, many efforts are made to create an environment inside the facility suitable for livestock growth. However, it is practical to continuously manage temperature and humidity inside the barn with the weakness of space. It is a very difficult problem.

In connection with recent barn systems, techniques for monitoring the internal environment of such barns have been proposed. Typically, a technique for monitoring the temperature inside and outside of the barn to maintain a uniform temperature inside the barn has been proposed. Can be mentioned.

However, in the conventional barn environment system, most of the technologies that can simply monitor the environment inside the barn and run the barn facility according to the result to remove the hazards that interfere with the livestock growth or to remotely control the livestock environment. However, there is a problem that it is difficult to cope with livestock diseases and to accurately manage / measure them. Although the existing system can improve productivity to some extent, there is a problem of production efficiency due to difficulties in coping with livestock diseases and accurate timing of mating.

Therefore, in the present invention, by installing an environmental information collection device that can collect the livestock environmental information in the house / outside the house to monitor the environment inside / outside the house to maintain the optimal environment necessary for the livestock growth, fire It is intended to provide a livestock barn environment monitoring and a barn management technology that can control the barn facilities to monitor and respond to the external environment from external risk factors such as theft and theft.

In addition, in the present invention, livestock management information that monitors livestock biometric information such as weight, temperature, and activity of livestock through a mobile measuring device and livestock weight information collection device installed in the livestock house, and can determine the presence of disease and mating time in advance to cope with it. To prepare.

In addition, in the present invention, it is possible to check the livestock environment data, livestock biometric data, video information measured by the livestock environment information collection device and the mobile measuring device anytime, anywhere, and control the livestock facility in real time and livestock environment The company intends to develop a barn management technology that can automatically control the rearing environment by updating livestock and livestock growth information.

According to one aspect for solving the problems of the present invention, the environment information collection unit for collecting the internal and external environmental information of the barn, the information on the domestic animal and the information on the facilities used in the barn An identification unit, a livestock weight information collection unit installed inside the livestock house to measure the weight of the livestock, a mobile measurement unit mounted on a moving unit to measure information about the livestock house and the livestock, and the environmental information collection A control server configured to process and database the information collected from the mobile measurement unit and the database, and provide the databased information to a user terminal through a wired / wireless network or to control the facility according to request information from the user terminal. Provides a barn management system.

According to another aspect for solving the problems of the present invention, the process of monitoring the internal and external environmental information of the plurality of barn, and the process of controlling the housing facilities of the plurality of barn according to the result of the monitoring process of the environmental information And monitoring the biometric information of the livestock through a mobile measuring unit measuring information on the individual livestock of the plurality of livestock houses through a moving means and a weight information collecting unit measuring the weight of the livestock for the individual livestock houses. It provides a barn management method comprising the step of analyzing the amount of activity of the livestock according to the image taken inside the individual barn using a mobile measuring unit.

According to the operation and method of the livestock growth information collection device and livestock management system according to the present invention, it is possible to maintain the livestock growth environment by monitoring the livestock environment information in real time and also to monitor the status information of the livestock It is possible to know in advance whether the livestock is ill or when mating occurs. In addition, by maintaining the optimal livestock growth environment, the livestock grows well, reducing feed costs and improving productivity, and monitoring the condition of the livestock to identify diseases in advance to minimize disease damage and increase production through appropriate mating. I can let you. In addition, not only can inform the house environment from the remote site, the producer can directly control the livestock facilities, but also provides an automatic control function to automatically maintain the house environment even if the producer is difficult to monitor.

The barn management technology in the present invention is suitable for livestock livestock information collection and livestock management, and it is possible to monitor livestock livestock and control livestock facilities through mobile measuring devices as well as livestock environment monitoring through collection of environmental information around the livestock house. It features.

In addition, the barn management technology in the present invention, by providing the automatic control and manual control function for the livestock facilities to enhance the convenience of the producers, and immediately to the producers in the case of the internal and external environment and livestock changes of the livestock It can be noticed.

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

1 is a block diagram illustrating the overall configuration of the barn management system according to an aspect of the present invention, the environment information collecting unit 100, identification unit 200, livestock weight information collecting unit 300, mobile measuring unit 400, the barn facility 500, the control server 600, the database 700, the wired and wireless network 800, the user terminal 900 and the like.

As illustrated in FIG. 1, the environmental information collecting unit 100 may include internal / external environmental information of the livestock house 10 and the livestock house and equipment, for example, illumination, temperature, humidity, inside / outside the house 10. It collects environmental information such as ammonia specific gravity.

The identification unit 200 may be installed inside the barn 10, specifically, at the entrance of an individual barn, and recognizes information about livestock in the barn 10 and information on facilities used in the barn 10. The mobile measuring unit 400 to be described later serves to store in real time. The identification unit 200 may retrieve the stored information in response to the request for information from the mobile measurement unit 400.

Livestock weight information collection unit 300 is installed inside the barn 10, serves to temporarily measure the weight of the livestock.

The mobile measuring unit 400 measures information about the barn 10 and the livestock, for example, livestock information such as the image information of the barn and the weight and body temperature of the livestock, and the information on the barn 10 and the livestock thus measured. May be stored in the identification unit 200 or the information stored in the identification unit 200 may be requested. In addition, the mobile measurement unit 400 serves to transmit the information collected through the identification unit 200 to the control server 600.

The barn facility unit 500 may include facilities that may affect the environment of the barn 10, for example, CCTV, lighting, temperature controllers (air conditioners, hot air fans, etc.), fans, humidifiers, feeders, water feeders, and the like. In addition, the above-described facilities may be operated or stopped according to a wired or wireless control signal transmitted from the control server 600 to be described later.

The control server 600 processes the information collected from the environmental information collecting unit 100 and the mobile measurement unit 400 to store in the database 700, the information stored in the database 700 through the wired or wireless network 800 Provided to the user terminal 900 or serves to control the livestock facility unit 500 according to the information.

The database 700 identifies and identifies the domestic and external environment information of the livestock house 10 collected from the environment information collection unit 100, image information collected from the mobile measurement unit 400, and livestock biometric information such as body temperature / weight of the livestock. Recognition information of the unit 200, and stores the information of the various facilities of the livestock livestock facility 500, and stores the environmental reference value for the automatic control and notification services of the livestock livestock facility (500). The database 700 may be managed by the control server 600, and the information stored in the database 700 may be selected according to a request of the control server 600.

The wired / wireless network 800 connects the control server 600 to the user terminal 900. In the wired / wireless network 800, the wireless network serves to guarantee the mobility of the user terminal 900. It may include a broadband wireless network that supports resource management.

The broadband wireless network includes a base station and a base station controller, and can support both synchronous and asynchronous. Here, in the case of synchronous, the base station will be a base transceiver station (BTS), the base station controller will be a base station controller (BSC), in the case of asynchronous, the base station is a Node B (Node B), and the base station controller is a Radio Network Controller (RNC). Will be. Of course, the wireless network is not limited thereto, and may include a Global System for Mobile Communication (GSM) network, not a CDMA network, and an access network of all mobile communication systems to be implemented in the future.

Such a wireless network may also include a local area network, for example, WLAN, Bluetooth, Zigbee, Infrared Communication (IrDA), Radio Frequency Identification (RFID), Radio Frequency (RF), Ultra It may include a wireless network that supports broadband communication (UWB) and the like.

Meanwhile, in the wired / wireless network 800, the wired network is, for example, the Internet, and various services existing in the TCP / IP protocol and its upper layers, namely, HTTP (HyperText Transfer Protocol), Telnet, FTP (File Transfer Protocol) and DNS. It is a global open computer network structure that provides (Domain Name System), Simple Mail Transfer Protocol (SMTP), Simple Network Management Protocol (SNMP), Network File Service (NFS), and Network Information Service (NIS). It is possible to provide an environment that allows 900 to be connected to control server 600.

Such wired networks may include other local area networks besides the Internet, such as Ethernet (IEEE 802.3), Home PNA, Power Line Carrier (PLC), IEEE 1394, Universal Serial Bus (USB), Digital Visual Interface (DVI), HDMI ( High Definition Multimedia Interface) and the like may include a wired network.

The user terminal 900 may be a wired or wireless terminal, for example, a PC, a mobile phone, a PDA, a netbook, etc., which may be connected to the control server 600 through the wired / wireless network 800, the environment information of the livestock house 10, Image information, livestock information, etc. may be received from the control server 600 and displayed to the user, and the user may transmit a signal for controlling the livestock facility unit 500 from a remote location to the control server 600.

In this case, the user terminal 900 illustrated in FIG. 1 is illustrated as being connected to the environment information collecting unit 100, the mobile measuring unit 400, the livestock facility unit 500, etc. via the control server 600, which will be described later. As can be seen from the description, since separate communication means are provided in the environmental information collecting unit 100, the mobile measuring unit 400, and the livestock facility unit 500, the user terminal 900 does not pass through the control server 600. It should be noted that the components inside the livestock house 10 may be directly controlled without using the same.

In addition, although the user terminal 900 is represented as a single user terminal connected to the wired / wireless network 800 in FIG. 1, this is for convenience of description only and is configured inside the wired / wireless network 800 or the livestock house 10. A plurality of user terminals connected to the elements may be configured as needed, and this fact will be easily understood by those skilled in the art.

2 is a block diagram illustrating a detailed configuration of the environment information collecting unit 100 of FIG. 1, and may include an environment information measuring unit 102, a storage unit 104, a communication unit 106, and the like.

As illustrated in FIG. 2, the environmental information measuring unit 102 may be installed inside and / or outside the livestock house 10, and when installed inside the livestock house 10, illuminance affecting livestock growth, It may include a function of measuring temperature, humidity, ammonia, and the like, and when installed outside the barn 10, infrared, heat detection, vibration, etc. may be used to measure changes in the external environment such as fire, external intrusion, theft, and the like. It may include the ability to measure.

The storage unit 104 may serve to temporarily store internal / external environmental information of the livestock house 10 measured by the environmental information measuring unit 102 or transmit the information to the communication unit 106.

The communication unit 106 is a means for transmitting the internal / external environment information of the livestock house 10 measured by the environment information measuring unit 102 to the control server 600 or the user terminal 900. It may be implemented by a wireless transmission means.

In this case, the wired transmission means may be, for example, Ethernet (IEEE 802.3), Home PNA, PLC, IEEE 1394, USB, DVI, HDMI, etc., the wireless transmission means, for example, wireless LAN, Bluetooth, Zigbee, infrared communication (IrDA) ), RFID, radio frequency (RF), ultra wideband (UWB), and the like may be applied. Here, the RF may include UHF (Ultra High Frequency) and VHF (Very High Frequency).

3 is a block diagram illustrating a connection configuration between the mobile measurement unit 400, the livestock weight information collection unit 300, the identification unit 200 of FIG.

As illustrated in FIG. 3, the mobile measurement unit 400 includes a control unit 402, a management unit 404, an image collection unit 406, a livestock data collection unit 408, a power unit 410, and a storage unit ( 412, a communication unit 414, and the like.

Here, the controller 402 manages and controls the manager 404, the image collector 406, the livestock data collector 408, the power unit 410, the storage unit 412, and the communication unit 414. It serves to convert the information collected from the collection unit 406, livestock data collection unit 408, etc. into a form that can be transmitted.

The management unit 404 collects livestock information and livestock information from the identification unit 200 installed in the individual barn, or stores the changed information in the identification unit 200.

The image collecting unit 406 collects image information of the livestock house 10, image information of the livestock, and thermal image information of the livestock.

The livestock data collecting unit 408 collects the weight information of the livestock collected from the livestock weight information collecting unit 300.

The power unit 410 serves to provide a power source for the mobile measuring unit 400 to move.

Storage unit 412 is the information of the identification unit 200 collected through the management unit 404, image information collected through the image collection unit 406, weight information of the livestock collected through the livestock data collection unit 408 This is a temporary storage space.

The communication unit 414 transmits the information, the image information, the thermal image information, and the weight information of the identification unit 200 collected through the mobile measurement unit 400 to the control server 600, and the changed identification from the control server 600. It serves to receive the information and control signals of the unit 200. In this case, the communication unit 414 may also be implemented by wired transmission means and wireless transmission means similar to the communication unit 106 of FIG. 2.

On the other hand, livestock weight information collection unit 300 to communicate with such a mobile measuring unit 400 may be composed of a communication unit 302, the control unit 304, the weight information measuring unit 306.

Here, the weight information measuring unit 306 serves to measure the weight of the livestock, and the control unit 304 transmits the information measured through the weight information measuring unit 306 to the communication unit 302, or the measured information According to the role that controls the livestock weight information collection unit (300).

The communication unit 302 is responsible for transmitting the weight information of the livestock measured by the weight information measuring unit 306 to the mobile measuring unit 400 or the control server 600 or the user terminal 900. In this case, the mobile measurement unit 400 and the user terminal 900 may use a wireless communication method, and the control server 600 may use both wired and wireless communication methods.

Figure 4 is an installation example of such a livestock weight information collection unit 300, it is installed in the bottom of the barn 10 may be able to measure and collect the weight of livestock living in the barn (10).

In FIG. 3, the identification unit 200 may include a communication unit 202, a control unit 204, and a storage unit 206.

Here, the communication unit 202 serves to transmit the information stored in the storage unit 204 to the mobile measurement unit 400 or the user terminal 900, the transmission may be a wireless communication method.

When the control unit 204 collects the information of the identification unit 200 from the mobile measurement unit 400, the control unit 204 transmits the information stored in the storage unit 206 to the communication unit 202, and receives the changed information. It serves to store in the storage unit 206.

The storage unit 206 may store the information of the livestock raised in each individual barn and the information of the barn 10.

5 is a diagram illustrating an installation configuration of the identification unit 200, livestock weight information collection unit 300, the mobile measurement unit 400.

As illustrated in FIG. 5, the identification unit 200 is installed at an entrance to an individual barn to recognize information on livestock in the barn 10 and information on equipment used in the barn 10, and collects livestock weight information. Part 300 is installed on the bottom surface of the individual barn serves to measure the weight of the livestock.

The movable measuring unit 400 may be moved using a moving means 40, for example, a wheel, a caterpillar, a rail, a conveyor belt, or the like. In the case of a wheel or a caterpillar, control and information can be transmitted and received through a wireless communication method, and in a fixed movement such as a rail or a conveyor belt, both wired and wireless communication methods can be used. In addition, the rail and the conveyor belt may be installed on the ceiling, wall, etc. as well as the bottom of the barn 10.

6 is a block diagram illustrating a detailed configuration of the livestock livestock facility unit 500 of FIG. 1.

As illustrated in FIG. 6, the livestock farm facility unit 500 may supply power to the facility environment unit 502 and the facility environment unit 502 that may make changes in the livestock environment, or may control a power thereof. ), A communication unit 506 for transmitting and receiving a control signal from the user terminal 900 or the control server 600 or transmits the status information of the facility. In this case, the communication unit 506 may also be embodied by wired transmission means and wireless transmission means similar to the communication unit 106 of FIG. 2.

7 is a block diagram illustrating a detailed configuration of the control server 600 of FIG.

The control server 600 is the information collected from the environment information collecting unit 100, livestock weight information collecting unit 300, mobile measuring unit 400, livestock barn facility unit 500, for example, inside / outside environment barn. And processing the livestock biometric information, image information, thermal image information, livestock facility information, etc. in the database 700 and provide it to the user terminal 900 or control of the livestock facility unit 500 by the user terminal 900 This enables the automatic control of the livestock house 10. It also provides a situation notification service.

As illustrated in FIG. 7, the control server 600 includes a server manager 602, a control manager 604, a database manager 606, a user terminal manager 608, a communication unit 610, and an image manager 612. ), The identification information manager 614 and the environment information manager 616.

Here, the server manager 602 stores the related information in the control manager 604, the database manager 606, the user terminal manager 608, the communication unit 610, the video manager 612, the identification information manager 614, and the environment information. It delivers to the management unit 616 or manages and controls them.

The control manager 604 converts the control signal received from the user terminal 900 into a signal capable of controlling the livestock facility 500 and the mobile measurement unit 400.

The database manager 606 converts each of the managers 602, 604, 608, 610, 612, and 614 into a form that can be stored in the database 700. It stores the image information, thermal image information, livestock facility information, etc. in the database 700, or stores and manages it in the database 700 when changing or updating the environmental reference value, the user wants from the database 700 It is responsible for getting information.

The user terminal manager 608 converts and provides the livestock information in accordance with the terminal and the communication method used by the user or converts the signal from the terminal into a form suitable for the system and manages it.

The communication unit 610 is responsible for communication between the control server 600 and the mobile measurement unit 400, environmental information collection unit 100, livestock weight information collection unit 300, livestock facility unit 500. In this case, the communication unit 610 may also be implemented as a wired transmission means and a wireless transmission means similar to the communication unit 106 of FIG. 2.

The image management unit 612 stores the video information collected from the CCTV in the livestock facility unit 500 and the mobile measurement unit 400 in the form of a video and transmits it to the server management unit 602. In addition, the image management unit 612 serves to stream the image information to the user in real time, and serves to derive and manage the body temperature information of the animal through the thermal image information. In addition, the image management unit 612 serves to analyze the amount of activity through the image information and transmits the livestock state information obtained through this to the server management unit 602.

The identification information management unit 614 converts the information of the identification unit 200 collected from the mobile measurement unit 400 into a form that can be stored in the database 700. If the information of the identification unit 200 changes, this information is changed. It changes and manages the format in a form that can be stored in the identification unit 200 and transmits it to the server management unit 602.

The environment information management unit 616 changes and manages the house environment information collected from the environment information collection unit 100 installed in / outside of the livestock house 10 into a form that can be stored in the database 700.

FIG. 8 is a block diagram illustrating a detailed configuration of the user terminal 900 of FIG. 1. The control unit 902, the data collection unit 904, the display unit 906, the livestock facility management unit 908, and the communication unit ( 910), and the like.

The user terminal 900 may be a PC, a mobile phone, a PDA, a netbook, etc., and communicate with the control server 600 using the wired or wireless network 800, or the environmental information collection unit 100 installed in the barn 10 The wireless communication may be performed without passing through the control unit 600, the identification unit 200, the livestock weight information collection unit 300, the mobile measurement unit 400, the livestock facility unit 500, and the like.

As illustrated in FIG. 8, the control unit 902 controls and manages the data collection unit 904, the display 906, the livestock facility management unit 908, the communication unit 910, and the like that constitute the user terminal 900. It plays a role.

The data collector 904 transmits a signal for collecting information transmitted from the environment information collector 100, the identifier 200, and the livestock weight information collector 300, or displays the collected information 906. It converts the format into a form that can be expressed in.

The display unit 906 serves to show the livestock environment information, the information of the identification unit 200, the weight information, and the image information under the control of the controller 902.

The barn facility management unit 908 serves to generate a control signal of the barn facility unit 500 directly through the user terminal 900.

The communication unit 910 transmits a signal for collecting information and a barn control signal and receives the collected information. In this case, the communication unit 910 may also be implemented by wire transmission means and wireless transmission means similar to the communication unit 106 of FIG. 2.

Hereinafter, the house management method according to another aspect of the present invention together with the above-described configuration will be described in detail with reference to the flowcharts of FIGS. 9 to 11.

As can be seen in Figures 9 to 11, the barn management method according to another aspect of the present invention, the barn facilities in accordance with the result of the process of monitoring the environmental information of the interior and exterior of the barn 10, and the process of monitoring the environmental information The process of controlling, the process of monitoring the biological information of the livestock through the mobile measuring unit 400 and the weight information collecting unit 300 installed inside the barn 10, and the livestock barn using the mobile measuring unit 400 Including the process of analyzing the activity of the livestock according to the internal image taken.

First, FIG. 9 is a flowchart illustrating a livestock house management method, specifically, a livestock house environment monitoring service and a livestock house control service process.

As illustrated in FIG. 9, the barn environment data is collected and transferred to the control server 600 through the environment information collecting unit 100, and the control server 600 stores the collected barn environment data in the database 700. (S100).

At this time, the control server 600 checks whether the current house management system is in an automatic control mode or a manual control mode (S102). When the current house management system is in a manual control mode, the user terminal 900 displays livestock environment data in real time. (S104), thereby allowing the user to control the livestock facility unit 500 and the like through the user terminal 900 (S106).

On the other hand, when the current house management system is in the automatic control mode, the control server 600 calls the environmental reference value (previously collected environmental value) for the automatic control stored in the database 700 (S108), It is determined whether the barn environment value exceeds the called environment reference value (S110).

If the environmental reference value is exceeded, the control server 600 analyzes the environmental element exceeding the environmental reference value (S112), facilities in the livestock facility unit 500 that may affect the analyzed environmental element, eg For example, driving the lighting (S114).

Thereafter, the control server 600 notifies the producer of such a control result (S116), and if the livestock environment is normal through driving of the livestock facilities, the control server 600 may repeat the process of monitoring the livestock environment data again.

On the other hand, Figure 10 is a flow chart illustrating a livestock management method, specifically, livestock biometric information monitoring service and situation notification service process according to the present embodiment.

As illustrated in FIG. 10, in the case of livestock condition monitoring (S200), the control server 600 operates and controls the mobile measurement unit 400 (S202).

If the mobile measuring unit 400 passes the individual barn, the data of the identification unit 200 installed in front of the barn 10 is called to grasp the characteristics of the individual barn (S204).

At this time, the weight information and image information of the livestock is collected, the weight information may be measured through the livestock weight information collection unit 300 installed in the barn 10, the measured weight information through the mobile measuring unit 400 The control server 600 is transferred to the control server 600, and the control server 600 stores the weight information transmitted through the mobile measurement unit 400 in the database 700 (S206).

The image information may be collected through the image collecting unit 406 of the mobile measuring unit 400 (S212), and the collected image information is transmitted to the control server 600 through the mobile measuring unit 400.

Accordingly, the control server 600 analyzes the image information transmitted from the mobile measurement unit 400, and derives the body temperature, activity amount, etc. of the livestock according to the analysis result and stores the result in the database 700 (S214).

Meanwhile, the collected livestock state information may be compared with the measured weight by calling the stored weight information of the previously stored livestock from the database 700 (S208).

If the weight change amount exceeds or falls below the reference value stored in the database 700, the control server 600 may call the user through the user terminal 900 and inform the current situation (S218).

In addition, even when the body temperature and activity derived from the collected image exceed or fall below the reference value stored in the database 700 (S216), the control server 600 calls the user through the user terminal 900 and reports the current situation. It may be informed (S218).

On the other hand, Figure 11 is a flow chart illustrating a livestock management method according to the present embodiment, specifically, the activity analysis of livestock.

As illustrated in FIG. 11, the control server 600 obtains an image of a livestock in the barn 10 through a barn facility in the barn facility unit 500, for example, a CCTV, and stores the obtained image in the database 700. (S300). At this time, the CCTV, which is a livestock facility, may be mounted on the mobile measuring unit 400 according to the present embodiment.

Thereafter, the control server 600 applies a sampling technique to the image stored in the database 700 and converts the image into a photo form (S302).

In addition, the control server 600 filters the sampled image converted into the photo form. For example, the control server 600 separates the livestock and the livestock area by performing filtering through a technique such as black and white inversion (S304).

In addition, the control server 600 analyzes the filtered image to determine the center point of the livestock (S306), and calculates the moving distance of the center point by using the image that has undergone the timely sampling and filtering through the above-described process (S308).

When the moving distance is calculated, the image collection time and the image sampling time are calculated (S310), and based on this, the amount of activity of the livestock can be determined (S312).

12 is a diagram illustrating a process of analyzing the activity of the livestock of FIG. 11 described above.

As illustrated in FIG. 12, after the livestock image is initially sampled, the image filtering and the center point may be determined, and the moving distance of the livestock may be calculated using the determined center point.

As described above, according to the present embodiment, it is possible to maintain the optimal livestock growth environment by monitoring the livestock environment information in real time, and to monitor the livestock status information so as to determine whether the livestock disease and mating time in advance. Can be. In addition, by maintaining the optimal livestock growth environment, the livestock grows well, reducing feed costs and improving productivity, and monitoring the condition of the livestock to identify diseases in advance to minimize disease damage and increase production through appropriate mating. I can let you. In addition, not only can inform the house environment from the remote site, the producer can directly control the livestock facilities, but also provides an automatic control function to automatically maintain the house environment even if the producer is difficult to monitor.

The foregoing embodiments are intended to illustrate, not limit, the invention, and those skilled in the art should note that many other embodiments can be designed without departing from the scope of the invention as defined by the appended claims. do. In the claims, any reference signs placed between parentheses shall not be construed to limit the invention. The expression “comprising”, “comprising” and the like does not exclude the presence of elements or steps other than those listed in all the claims or the specification as a whole. The singular references of components do not exclude a plurality of references of such components, and vice versa. The invention may be practiced by means of hardware comprising several distinct components and by means of suitably programmed computer means. In the claims enumerating several means, some of these means may be embodied by the same item of hardware. The simple fact that certain means are described in different dependent claims does not indicate that a combination of these means cannot be used.

1 is a block diagram illustrating a house management system according to an aspect of the present invention;

2 is a detailed block diagram of the environment information collecting unit 100 of FIG. 1;

3 is a block diagram illustrating a connection configuration between the mobile measuring unit 400, the livestock weight information collecting unit 300 and the identification unit 200 of FIG.

Figure 4 is an installation example of the livestock weight information collection unit 300 of Figure 1 and Figure 3,

5 is an example of installation of the identification unit 200, livestock weight information collection unit 300, the mobile measurement unit 400 of Figures 1 and 3,

FIG. 6 is a detailed block diagram of the livestock barn facility 500 of FIG. 1;

7 is a detailed block diagram of the control server 600 of FIG.

8 is a detailed block diagram of the user terminal 900 of FIG.

9 is a barn management method according to another aspect of the present invention, an exemplary flowchart of a barn environment monitoring and a barn control process;

10 is a barn management method according to another aspect of the present invention, an exemplary flowchart of a livestock biometric information monitoring process;

11 is a barn management method according to another aspect of the present invention, an exemplary flowchart of a process of analyzing livestock activity,

12 is an exemplary view for each process of FIG. 11.

<Description of the symbols for the main parts of the drawings>

100: environmental information collection unit 200: identification unit

300: livestock weight information collection unit 400: mobile measurement unit

500: barn facility department 600: control server

700: Database 800: Wired and Wireless Network

900: user terminal

Claims (19)

delete delete delete delete delete delete delete delete An environmental information collection unit for collecting internal and external environmental information of the house, An identification unit for recognizing information on domestic animals and the facilities used in the livestock, A livestock weight information collection unit installed inside the livestock house and measuring the weight of the livestock; A mobile measuring unit mounted on a moving unit and measuring information on the livestock house and livestock; Process and database the information collected from the environment information collection unit and the mobile measurement unit, and provide the database information to the user terminal through a wired or wireless network or to control the facility according to the request information from the user terminal Including the control server, The livestock weight information collection unit, A weight information measuring unit for measuring the weight of the livestock; A control unit for transmitting the measured information through the weight information measuring unit or controlling the livestock weight information collecting unit according to the measured information; It includes a communication unit for transmitting the weight information of the livestock measured in the weight information measuring unit to the mobile measuring unit or the control server or the user terminal. Barn management system. An environmental information collection unit for collecting internal and external environmental information of the house, An identification unit for recognizing information on domestic animals and the facilities used in the livestock, A livestock weight information collection unit installed inside the livestock house and measuring the weight of the livestock; A mobile measuring unit mounted on a moving unit and measuring information on the livestock house and livestock; Process and database the information collected from the environment information collection unit and the mobile measurement unit, and provide the database information to the user terminal through a wired or wireless network or to control the facility according to the request information from the user terminal Including the control server, The mobile measuring unit, A management unit which collects the information of the livestock and the information of the livestock, or stores the changed information in the identification unit; An image collecting unit collecting image information of the livestock, image information of the livestock, and thermal image information of the livestock; A livestock data collecting unit for collecting the weight information of the livestock collected from the livestock weight information collecting unit; A power unit providing a power source for moving through the moving unit; A storage unit for temporarily storing information of the identification unit collected through the management unit, image information collected through the image collection unit, and weight information of the livestock collected through the livestock data collection unit; A communication unit which transmits information of the identification unit, the image information, the thermal image information, and the weight information collected through the mobile measurement unit to the control server, and receives the changed identification unit information and control signals from the control server; Manage and control the management unit, the image collecting unit, the livestock data collecting unit, the power unit, the storage unit and the communication unit, and converts the information collected from the image collecting unit and the livestock data collecting unit into a form that can be transmitted. Containing a control unit Barn management system. delete delete An environmental information collection unit for collecting internal and external environmental information of the house, An identification unit for recognizing information on domestic animals and the facilities used in the livestock, A livestock weight information collection unit installed inside the livestock house and measuring the weight of the livestock; A mobile measuring unit mounted on a moving unit and measuring information on the livestock house and livestock; Process and database the information collected from the environment information collection unit and the mobile measurement unit, and provide the database information to the user terminal through a wired or wireless network or to control the facility according to the request information from the user terminal Including the control server, The control server, A server manager for managing the control server; A control manager converting the control signal received from the user terminal into a signal capable of controlling the mobile measuring unit; A database manager for managing the databased information; A user terminal manager for converting the livestock information with the user terminal and converting a signal received from the user terminal into a signal that can be processed by the livestock management system; A communication unit responsible for communication between the control server, the mobile measuring unit, the environment information collecting unit, and the livestock weight information collecting unit; An image manager for storing the image information of the facility and the image information collected from the mobile measuring unit in a video format and transmitting the image information to the server manager; Converting the information of the identification unit collected from the mobile measurement unit into information capable of being databased, and if the information of the identification unit is changed, converts the changed information into a form that can be stored in the identification unit and transmits the changed information to the server manager. Identification information management unit, It includes an environment information management unit for changing the barn environment information collected from the environment information collection unit into a database formable Barn management system. The method of claim 13, The image management unit, Livestock management system for real-time streaming service to the user terminal image information and the image information collected from the mobile measuring unit. The method of claim 13, The image management unit, Livestock management system for analyzing the amount of activity through the image information, and transmits the livestock status information obtained through the activity amount analysis to the server management unit. delete Monitoring the internal and external environmental information of a number of houses, Controlling the barn facilities of the plurality of barns according to a result of the monitoring of the environmental information; Monitoring biometric information of the livestock through a mobile measuring unit which measures information on the individual pens of the plurality of pens through a moving means and a weight information collecting unit which measures the weight of the livestock for the individual pens; Including the process of analyzing the amount of activity of the livestock according to the captured image of the inside of the individual barn using the mobile measuring unit, The process of monitoring the biometric information of the livestock, When the mobile measuring unit passes the individual barn through the moving unit, photographing the individual barn through the mobile measuring unit, and measuring the weight of the livestock through the weight information collecting unit; Analyzing the photographed image and the measured weight; Measuring the amount of change and the amount of activity of the livestock according to the result of the analysis process; How to manage your house. The method of claim 17, The method, If the weight change amount or the amount of activity does not match the reference value further comprising the step of notifying the user of the current situation. The method of claim 17, The process of analyzing the activity amount, Sampling the livestock and then sampling the livestock; Filtering the sampled image; Determining a center point of the livestock by analyzing the filtered image; The livestock management method comprising the step of determining the amount of activity of the livestock by calculating the moving distance of the determined center point.

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