KR20130118101A - Remote domestication system for poultry - Google Patents

Abstract

PURPOSE: A remote poultry farming system is provided to monitor equipment required for poultry farming by using a camera and transmit information about the equipment to a remote management server through wireless data. CONSTITUTION: A remote management server (100) monitors equipment in accordance with a schedule inputted in advance. A camera (200) monitors a water container (400) and a feed container (410), which are installed at poultry farming facilities, and outputs an information signal to the remote management server. A radio frequency identification (RFID) tag (300) is attached to an object farmed at the poultry farming facilities. A mobile terminal remotely communicates with the remote management server. A control terminal outputs the operating status of environment control devices, which are installed at agricultural and livestock facilities, on a screen. [Reference numerals] (100) Server (remote management); (200) Camera (CCTV); (210) Ventilator; (300) Chicken (an RFID tag is attached); (400) Water container; (410) Feed container; (AA) Production/distribution history management; (BB) Input a schedule where a manager is inputted

Description

Poultry remote breeding system {REMOTE DOMESTICATION SYSTEM FOR POULTRY}

The present invention monitors the equipment necessary for poultry farming with a camera and transmits it to a remote management server as a wireless data to effectively carry out poultry farming, and to perform the contents necessary for poultry farming according to a predetermined schedule of a pre-input manager. To a poultry remote breeding system.

With the development of information and communication, there are many attempts to shift from the traditional labor-intensive agricultural form to the technology-intensive agricultural form. As part of these attempts, a remote breeding system has been proposed that combines biological and engineering knowledge to artificially control the various environments required for breeding animals to reliably raise poultry in a desired state independently from the influence of the surrounding environment. .

On the other hand, the rapidly developing information and telecommunications industry has brought significant changes throughout the industry, and the sharing, storage, and movement of information has greatly improved due to the development of the Internet, mobile communication networks, and hardware. Information is shared and circulated. In particular, the third generation mobile communication represented by UMTS, CDMA2000, WiBro, etc. provides data transmission speeds of several Mb to several tens of Mb, and in the fourth generation mobile communication represented by WiMAX, LTE, etc. Can be transmitted. In addition, the spread of wireless communication devices such as ZigBee, Wi-Fi, Bluetooth, CDMA, M2M is expanding, and wireless Internet services using such mobile communication terminals are also rapidly increasing.

In recent years, researches and attempts have been actively made to apply networks such as the Internet to agriculture, but at the level of remotely grasping the environmental information of agricultural sites with the second generation mobile communication such as CDMA, which has significantly reduced data transmission function. It has not escaped yet, and has not yet effectively combined the advantages of 3rd generation and 4th generation mobile communication for remote breeding systems.

On the other hand, some of the Internet sites are operating sites that can virtually carefully nurture animals or grow plants. However, these sites allow users to raise virtual pets or livestock. Moreover, some of these services are provided only through wired Internet sites, and services using wireless communication have not yet been made.

Therefore, even if you receive the environment information on the mobile phone, you can only check the simple information such as text messages, and due to the limitation of the second generation mobile communication, only the user interface with a simple configuration can be displayed on the screen of the mobile phone, so the confirmation and automation of the environment There is a risk of malfunction due to the inability to control the device intuitively, and the range of control is limited.

The present invention has been proposed to solve the above problems, an object of the present invention is to monitor the equipment necessary for poultry farming with a camera to transmit the wireless data to the remote management server as a wireless data to effectively perform poultry farming It is to provide a poultry remote breeding system that can perform the contents necessary for poultry farming according to the manager's designated schedule.

Poultry remote breeding system according to the present invention for achieving the above object, the remote management server 100 for monitoring in accordance with a pre-input schedule, the remote management server 100 in the poultry breeding facility installed in the water tank (400) And it is characterized in that it comprises a camera 200 for monitoring the feed container 410 and outputting the information signal and the IFID tag 300 attached to the object to be raised in the poultry breeding facility.

Here, the camera 200 further monitors the operation state of the ventilator 210 installed in the poultry breeding facility, and the mobile terminal 500 remotely communicating with the remote management server 100 is controlled through the same screen. And a sensor, a control panel, a control terminal, and a mobile terminal 500 of the poultry breeding facility, and a gateway server 520 and a remote support server 520 between the remote management server 100 and the mobile terminal 500. It is preferable to comprise.

As described above, according to the present invention, the cultivation is effectively a livestock even in areas where livestock raising is not possible by feeding and watering the live poultry, not imaginary animals and plants, in the distant places, and observing their growth. Be able to breed.

In addition, it is possible to substantially improve the productivity by minimizing the manpower required for poultry farming by monitoring the feed or water bottle actually needed for poultry farming with a camera.

1 is a schematic configuration diagram of a poultry remote breeding system according to an embodiment of the present invention;
Figure 2 is a schematic diagram of a poultry remote breeding system according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a poultry remote breeding system according to the present invention.

1 is a schematic configuration diagram of a poultry remote breeding system according to an embodiment of the present invention, Figure 2 is a schematic configuration diagram of a poultry remote breeding system according to another embodiment of the present invention.

In the drawings, the same reference numerals are given to the same elements even when they are shown in different drawings. In the drawings, the same reference numerals as used in the accompanying drawings are used to designate the same or similar elements. And detailed description of the configuration will be omitted. Also, directional terms such as "top", "bottom", "front", "back", "front", "forward", "rear", etc. are used in connection with the orientation of the disclosed drawing (s). Since the elements of the embodiments of the present invention can be positioned in various orientations, the directional terminology is used for illustrative purposes, not limitation.

Preferred poultry remote breeding system according to an embodiment of the present invention, the remote management server 100 for monitoring according to a pre-input schedule, the remote management server 100 in the poultry breeding facility installed in the poultry breeding facility and feed container A camera 200 for monitoring the output 410 and outputting an information signal, and an IFID tag 300 attached to the object to be raised in the poultry breeding facility.

The camera 200 also additionally monitors the operating state of the ventilator 210 installed in the poultry breeding facility.

A mobile terminal remotely communicating with the control terminal provides a method of operating the control panel through the same screen as the control terminal.

On the other hand, the remote breeding system comprises a sensor, a control panel, a control terminal, a mobile terminal 500 of the concentrated farming facility 310, the gateway server 520 between the control terminal 100 and the mobile terminal 500 and Remote support server 520 is provided.

In the present embodiment, the control terminal 100 outputs the operation status of the environmental control devices installed in the farming facility 310 on the screen, and provides a management management for providing a manager interface so that an administrator can control the environmental control device. The program is installed and run. The mobile terminal 500 is provided with a remote access program for accessing the control terminal 100 through a wireless communication network.

The manager executes the remote access program of the mobile terminal 500 to access the control terminal 100, and remotely control the control terminal 100 to execute the enrichment management program and then directly operate the control terminal 100. You can manage your livestock farms just as you do.

The control terminal 100 has to wait for a remote control request of the mobile terminal 500 by accessing the remote support server 510 in advance through a predetermined agent program, and the mobile terminal 500 through the remote support server 510. Remote control is performed by accessing the control terminal 100.

Hereinafter, each configuration of the remote management system for this will be described in detail.

The agricultural and livestock facility 310 corresponds to a vinyl house or barn for raising poultry.

Animals reared in the livestock farming facility 310 is provided with a variety of devices for creating an optimal environment because it brings a huge difference in growth rate or growth results depending on how appropriate the environment is maintained.

For example, a door (or door), a window (or a ventilation window), a ventilator 210, an air conditioner, a heating device, etc., is installed to adjust an internal temperature, and a door (or door) is used to control an internal humidity. In addition to windows (or ventilation windows) and fans, water pipes are installed.

They may be opened or closed / operated / stopped by manual operation of the livestock facility manager, but may be automated through a control panel with a predetermined drive means. The addition of the driving means for automation to the control devices will be referred to as door opening and closing device, window opening and closing device, ventilation device, air conditioner, heating device and watering device, respectively. These devices will be collectively referred to as environmental control devices.

The agricultural and livestock facility 310 is equipped with various sensors for measuring the growth environment. With these sensors a temperature sensor (not shown) for measuring the temperature of the interior, exterior and / or strata of the enrichment plant 310, measuring the humidity of the interior, exterior and / or strata of the enrichment plant 310 Humidity sensor (not shown in the drawing), a wind direction sensor (not shown in the drawing), and a wind speed sensor for measuring the wind direction and the wind speed of the inside and / or outside of the concentrated farming facility 310. In particular, in the case of temperature, since the meaning may vary depending on the altitude even inside the enrichment facility 310, a plurality of temperature sensors may be installed for each height.

In particular, the present invention attaches the RFID tag 300 is mounted on the poultry.

The control unit periodically drives the sensing unit to measure environmental information or transmits the measured value to the control panel through a communication interface.

The communication interface is a suitable port to support serial wireless communication such as Bluetooth, ZigBee, infrared communication (IrDA), RF communication for RFID, or serial wired communication such as RS-232C or UART. To provide.

Next, the control panel selects a sensor to instruct the sensor to measure environmental information, or selects an environmental control device to command the environmental control device to open / close / move / stop. In addition, when a measurement value is received from the sensor, it is transmitted to the control terminal 100, and when a control command of the sensor or the environmental control device is received from the control terminal 100 controls the corresponding sensor or the environmental control device accordingly.

Next, the control terminal 100 receives the measured values of the sensors from the control panel and outputs them to the screen, and instructs the control panel to drive the specific sensor or the specific environmental control device according to the operation of the administrator, the mobile terminal remotely connected According to the remote control of 500, the control panel commands the driving of a specific sensor or a specific environmental control device.

In this case, the communication interface is a passage for communicating with the control panel, and a passage for communicating with the mobile terminal 500. The communication interface is a suitable port to support serial wireless communication such as Bluetooth, ZigBee, infrared communication (IrDA), RF communication for RFID, or serial wired communication such as RS-232C or UART. To provide. In addition, it provides a suitable type of port to support wired Internet, or supports wireless Internet protocols such as Wibro, HSDPA, Wimax, IEEE 802.11a ~ n, IEEE 1394, and Long Term Evolution (LTE). It includes a communication module.

The memory is a concept including a secondary memory for storing at least one of a livestock management program / agent program / business management program / accounting management program and the main memory is loaded with a core file for the execution of these programs.

The agricultural and livestock management program outputs various environmental information such as temperature, humidity, wind speed, and wind direction collected through sensors installed in the agricultural and livestock facility 310, and outputs the operating status of the environmental control devices of the agricultural and livestock facility 310, A user interface may be selected to select a specific sensor to input a driving command, and a user interface may be selected to select a specific environmental control device to input one of opening / closing / operating / stopping. In addition, a login process may be additionally provided to authenticate the legitimate user of the farm management program.

The agent program connects to the remote support server and waits for a remote control request of the mobile terminal 500, and if there is a remote control request from the mobile terminal 500, connects a communication session with the mobile terminal 500, and the remote support server 510 Send and receive various control information for the remote control with the mobile terminal 500. To this end, the agent program may perform peer-to-peer communication (P2P) with the remote control program of the mobile terminal 500 or may perform semi-equal-layer communication via an intermediate remote support server 510.

In this case, the mobile terminal 500 may remotely execute programs while viewing the same screen as the control terminal 100 when the peer communication is performed. On the other hand, when the quasi-equivalent layer communication, the screen information and the remote control information transmitted by the control terminal 100 via the remote support server 510 while the resolution, screen size, After adjusting to the screen configuration, the mobile terminal 500 is transferred to the mobile terminal 500. Therefore, in this case, the mobile terminal 500 can remotely execute the programs while watching a simplified screen compared to the screen of the control terminal 100.

Meanwhile, the agent program may provide a login process for authentication of an administrator when accessing the remote support server 510.

The business management program is a general term for the program that maximizes profits by processing management tasks such as production / inventory management, sales / purchase management, and personnel / salary management for ongoing projects using the agricultural and livestock facilities. It performs some or all of the functions of a management program known as (ERP).

The accounting management program may be part of the business management program, and generically refers to a program for computerized accounting tasks such as accounting, accounts receivable, bookkeeping, and tax.

The central processing unit executes at least one of the agricultural and livestock management program / agent program / management management program / accounting management program according to a manager's selection.

The operation unit allows the administrator to select and execute the programs, and input environmental conditions, operation commands of the environmental control device, management information, and accounting information to smoothly use the programs. Provide means.

The display unit outputs the execution scene of the programs, the measured values of the sensors, the operating state of the environmental control device, the management information, the accounting information, and the like on the screen.

Next, the mobile terminal 500 remotely executes at least one of the concentration management program / management management program / accounting management program of the control terminal 300 by using a remote control program. In order to smoothly execute the remote execution of the program, the mobile terminal 400 has a level of input means equivalent to that of a general PC, such as a smart phone or a PDA phone, and supports a data transfer rate of several Mb to several hundred Mb. It is preferably implemented as.

The sixth communication interface of the mobile terminal 500 (not shown) serves as a passage for performing Internet communication through the control terminal 100 and the mobile communication network, and the central processing unit of the mobile terminal 500 (in the drawing). Not shown) is connected to the control terminal to drive a remote control program for remotely controlling at least one of the livestock management program / management management program / accounting management program of the control terminal (300).

The remote control program connects to the remote support server 510 and connects a communication session with a specific control terminal 100 that is waiting in advance. And receiving the screen of the control terminal 100 in real time through the remote support server 510, and transmits the input from the mobile terminal 500 for the screen to the control terminal 100 through the remote support server 510. do. Therefore, the manager may check and operate the monitor screen of the control terminal 300 in the same manner as the liquid crystal screen of the mobile terminal 500.

In addition, the gateway server 520 converts data conforming to the protocol of the mobile communication network to conform to the Internet protocol or performs reverse conversion.

In addition, the remote support server 510 connects a communication session for P2P communication between the control terminal 100 connected through the agent program and the mobile terminal 500 connected through the remote control program. In addition, when quasi-P2P communication is performed between the control terminal 100 and the mobile terminal 500, the remote support server 510 performs the screen information and remote control information transmitted from the control terminal 100 in the mobile terminal 500. After adjusting to the possible resolution, screen size, screen configuration, etc., the mobile terminal 500 may be responsible for the function of delivering.

In addition, the remote support server 510 provides a process for authenticating the administrator by requesting a login ID and login password for the access of the agent program, and requesting the login ID and login password for the access of the remote control program as well. Provide a process for authenticating. Therefore, the administrator executes the agent program in the control terminal 100 and then logs in to the remote support server 510 and executes a remote control program in the mobile terminal 500 to remotely control the control terminal 100. After going through the process of logging in to the remote support server 510 once more.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention if they are apparent to those skilled in the art.

100: remote management server 110: security center
200: camera 210: ventilator
300: RFID tag (chicken) 310: Livestock facility
400: bucket 410: feed bucket
500: mobile 510: remote support server
520: gateway server 530: short text server

Claims (2)

A remote management server 100 for monitoring according to a previously input schedule;
A camera (200) for monitoring the bucket (400) and feed container (410) installed in the poultry breeding facility on the remote management server (100) to output information signals; And
Poultry remote breeding system, characterized in that it comprises an IFID tag (300) attached to the individual raised in the poultry breeding facility.
The method according to claim 1,
The camera 200 further monitors the operation state of the ventilator 210 installed in the poultry breeding facility,
The mobile terminal 500 remotely communicating with the remote management server 100 is controlled through the same screen,
The poultry breeding facility includes a sensor, a control panel, a control terminal, a mobile terminal 500,
Poultry remote breeding system, characterized in that further comprises a gateway server (520) and a remote support server (520) between the remote management server (100) and the mobile terminal (500).

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