KR20180097419A - Method and system for managing smart farm based on network - Google Patents

Abstract

The present invention relates to a method and system for managing a smart farm based on a network. The method for managing a smart farm based on a network includes a step of allocating each of a plurality of smart farm communication devices on a plurality of sub smart farm regions included in a smart farm region, a step of setting each of the plurality of smart palm communication devices as a non-base station smart farm communication device or a base station smart farm communication device, and a step of allowing a smart farm server to receive smart farm information generated by the non-base station smart farm communication device through the base station smart farm communication device. It is possible to build a stable network on a smart farm at low power.

Description

[0001] The present invention relates to a network-based smart farm management method and system,

The present invention relates to a network-based smart farm management method and system. And more particularly, to a smart farm management method and system for more accurately managing the status of crops / livestock and the like growing on the farm based on a plurality of communication devices installed in the smart farm.

Recently, agriculture in Korea has been worsening due to rising labor costs, materials costs and distribution channels. Especially in agricultural fields, it is very difficult to obtain specialized labor, and as a result, the actual added value of agricultural products is stagnating or declining.

Recently, there is a strong interest in smart farms to improve the added value of agricultural products. Smart Farm maintains proper growing environment of crops and livestock through remote control based on information of soil information and growing environment obtained by combining information communication technology (ICT) with vinyl house, barn, orchard, rice field, field and horticultural crop / Farms that can be managed.

More specifically, Smart Farm is able to check the growth environment of crops and livestock at any time, based on precise data on crop growth information and environmental information, and to make timely prescriptions for less labor, energy and nutrients, And an agricultural form capable of improving quality.

At present SmartParm is the introduction. There is a need for a method for managing the growth environment of crops / livestock based on a simple network that is more accurate and stable in Smart Farm.

It is an object of the present invention to solve all the problems described above.

It is another object of the present invention to provide a stable network on a smart farm at a lower power than a conventional network through beacon-based bridge communication.

Another object of the present invention is to transmit smart farm information generated to a base station with high reliability even when an error occurs between a plurality of smart-phone communication devices installed in a smart-farm area in a redundant manner.

In addition, the present invention can be used to manage agricultural / livestock products more conveniently by new agricultural and livestock farmers who carry out agricultural activities based on the smart farm network created through the combination of existing agricultural technology and ICT (information communication technology) technology It is another purpose to make it possible.

In order to accomplish the above object, a representative structure of the present invention is as follows.

According to one aspect of the present invention, a network-based smart farm management method comprises the steps of: allocating, on each of a plurality of lower smart farm areas included in a smart farm area, each of a plurality of smart farm communication devices; Each of the smart palm communication devices is set as a non-base station smart palm communication device or a base station smart palm communication device, and the step of setting the smart pal communication device to transmit the smart palm information generated by the base station smart palm communication device And receiving the data.

According to another aspect of the present invention, a smart farm system for managing network-based smart farms is allocated on each of a plurality of sub-smart farm areas included in a smart farm area, Device or a base station smart-palm communication device and a smart-palm server that receives smart-palm information generated by the non-base-station smart-palm communication device through the base station smart-palm communication device .

According to the present invention, a stable network can be realized on a smart farm at a lower power than a conventional network through beacon-based bridge communication.

In addition, even if an error occurs between a plurality of SmartPharm communication devices installed in the SmartPharm zone by the redundancy method, the generated SmartPharm information can be transmitted with high reliability.

In addition, new agricultural and livestock farmers who conduct agricultural activities through the Smart Farm network created through the combination of existing agricultural technology and ICT technology can more conveniently manage crops / livestock products.

1 is a conceptual diagram illustrating a method for transmitting smart farm information using a smart palm communication apparatus according to an embodiment of the present invention.
2 is a conceptual diagram illustrating a network for transmitting smart farm information according to an embodiment of the present invention.
3 is a conceptual diagram illustrating redundant bridge communication between smart palm communication devices according to an embodiment of the present invention.
4 is a conceptual diagram illustrating a redundant bridge communication method according to an embodiment of the present invention.
5 is a conceptual diagram showing a smart palm communication apparatus according to an embodiment of the present invention.
6 is a conceptual diagram illustrating a communication method between smart palm communication devices according to an embodiment of the present invention.
7 is a conceptual diagram illustrating a method for determining a base station smart palm communication device according to an embodiment of the present invention.
FIG. 8 is a conceptual diagram illustrating a structure of a smart farm information frame including smart farm information according to an embodiment of the present invention.
9 is a conceptual diagram illustrating a method of processing smart farm information in a smart farm according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, the specific shapes, structures, and characteristics described herein may be implemented by changing from one embodiment to another without departing from the spirit and scope of the invention. It should also be understood that the location or arrangement of individual components within each embodiment may be varied without departing from the spirit and scope of the present invention. Therefore, the following detailed description is not to be taken in a limiting sense, and the scope of the present invention should be construed as encompassing the scope of the appended claims and all equivalents thereof. In the drawings, like reference numbers designate the same or similar components throughout the several views.

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

Smart agriculture technologies are being developed to combine existing agriculture with advanced information communication technology (ICT) technology to improve and modernize agricultural productivity. However, the convergence of ICT technology and agricultural technology is not simple, so merely combining the two technologies is not expected to produce synergistic effects.

Therefore, in the embodiment of the present invention, the farmer and the aged population in the city and general app developers can easily and simply implement the smart farm, (Do it yourself) open platform technology and Smart Palm communication device (or IOT (internet of things) sensor device).

According to the embodiment of the present invention, various information (for example, amount of sunshine, rainfall, temperature, humidity, soil acidity) required for agriculture can be obtained based on the open ICT DIY platform and smart pet communication device (or IOT Etc.) can be collected and utilized. The collected information may be transmitted to the smart farm server over the wireless network and analyzed and provided to a manager device (e.g., a smart phone) of the administrator of the smart farm.

Hereinafter, in the embodiment of the present invention, the smart farm is capable of appropriately maintaining / managing the growing environment of crops and livestock by remotely / automatically linking information communication technology (ICT) to a vinyl house, It can mean farm. More specifically, smart farms can collect data necessary for growing crops / livestock, and can monitor and manage crop / livestock growth environments to make timely prescriptions. Therefore, the productivity and quality of crops / livestock can be improved even though the labor force, energy, nutrients, etc. are injected less than before.

1 is a conceptual diagram illustrating a method for transmitting smart farm information using a smart palm communication apparatus according to an embodiment of the present invention.

FIG. 1 illustrates a method for transmitting smart farm information to a smart farm server based on redundant bridge communication between smart farm communication devices.

Smart farm information can include information for the growth of the growing crops in smart farms such as crops / livestock.

At least one smart farm communication device can be installed in a smart farm to sense smart farm information (such as crop environment information) in a smart farm, and to transfer smart farm information to another smart farm communication device or smart farm server . For example, a smart IoT dongle for a sensor network can be used as a smart-palm communication device to implement a smart-farm communication network at a lower cost / lower power.

Smart IoT dongles for sensor networks can have a coverage of about 100M and can perform bi-directional data communication and bridge communication with low power. The bridge communication may be a method capable of communicating with a power consumption lower than a mesh protocol having a relatively high power consumption. In addition, bridging communication can have high communication reliability as a redundant communication in which communication failure is relatively low compared to a mesh protocol having a relatively high communication failure and communication failure occurs with a neighboring device, and communication is attempted with another neighboring device.

Referring to FIG. 1, the entire area of the smart farm may be divided into a plurality of sub-smart farm areas, and each of the plurality of sub-smart farm areas may include a plurality of smart-phone communication devices 110, 120, have. Redundant bridging communication can be performed between each of the plurality of smart palm communication devices 110, 120, and 130.

At least one of the plurality of smart-phone communication apparatuses 110, 120, and 130 may be connected to the smart-palm server 100. The smart farm server 100 is a server that manages the environment of crop growth in a smart farm (or a plurality of lower smart farm areas) based on smart farm information collected by each of the plurality of smart farm communication devices 110, 120, and 130 installed in the smart farm And manage smart farms.

Hereinafter, at least one smart palm communication device 100 that is directly connected to the smart palm server 100 and collects smart palm information generated by the other smart palm communication devices 110 and 120 and transmits the collected information to the smart palm server 100 (130) may be represented by the term base station smart palm communication device (150). The smart palm communication device 110 (120, 130), which is indirectly connected to the smart palm server 100 through another smart palm communication device, except for the base station smart palm communication device 130 among the plurality of smart palm communication devices 110, , 120) may be represented by the term non-base station smart palm communication device.

For example, the non-base station smart palm communication device may be a Smart Palm IoT (internet of things) sensor terminal, and the base station smart palm communication device may be a terminal including a LoRa (long range) IoT and a BLE .

A non-base station smart farm communication device can generate smart farm information for a sub-smart farm area where a non-base station smart farm communication device is located. The non-base station smart palm communication device may include a sensor module. The sensor module may include a temperature / humidity measurement module, a sunlight measurement module, an acidity measurement module, and other measurement modules for SmartPharm. That is, the non-base station smart palm communication device can generate information about temperature / humidity, sunshine amount, and acidity of the sub smart farm area as smart farm information by measuring temperature / humidity, sunshine amount and acidity.

The non-base station smart-palm communication device can transmit the generated smart-farm information based on the broadcast communication. Broadcast communication is a method of transmitting data without separately setting the address of a receiving device to receive smart farm information. Other non-base station smart phone communication device / base station smart phone communication devices located within the coverage can receive smart farm information . In addition, the non-base station smart-palm communication device can also receive smart-farm information transmitted on the basis of broadcast communication by other non-base-station smart-palm communication devices. In this way, smart farm information can be transmitted and collected between non-base station smart palm communication devices. The plurality of smart farm information generated by the plurality of collected non-base station smart-palm communication devices may be finally transmitted to the base station smart-palm communication device. The base station smart palm communication device can transmit the plurality of smart palm information collected by each of the plurality of non-base station smart palm communication devices and the smart pal information collected by the base station smart palm communication device to the smart palm server 100. The smart farm information may be transmitted to the smart farm server via the base station 150 (e.g., a LoRa IoT base station).

The smart farm information can be transmitted to other non-base station smart-phone communication apparatuses capable of communicating even if communication between adjacent non-base station smart-phone communication apparatuses based on the broadcast communication is impossible due to a communication error. Finally, Smart farm information can be transmitted through the communication device.

The smart farm server 100 can transmit the collected smart farm information to the user management apparatus. The user management device can be a smart phone, a tablet or a PC, and can monitor and remotely control a smart farm based on smart farm information.

2 is a conceptual diagram illustrating a network for transmitting smart farm information according to an embodiment of the present invention.

2, a redundant bridge communication network embodied in a smart farm is specifically disclosed. The division into the lower smart farm area of the smart farm area disclosed in FIG. 2 and the non-base station smart palm communication device and the base station smart palm communication device allocated to each of the divided lower smart farm areas are one example. The partitioning of the smart farm area into the lower smart farm area and the allocation of the non-base station smart palm communication device and the base station smart palm communication device can be performed in various ways. As described above, for example, the non-base station smart palm communication device may be a Smart Palm IoT sensor terminal, and the base station smart palm communication device may be a terminal including a LoRa IoT and a BLE gateway.

Referring to FIG. 2, one smart farm area may be divided into a lower smart farm area 1 210 to a lower smart farm area 9 (290). Each of the lower smart farm area 210 to the lower smart farm area 9 290 includes a base station smart palm communication device 215, 225, 235, 245, 255, 265, 285, 295 and a base station smart palm communication device 275 ) Can be located.

For example, base station smart palm communication device 275 may be located in lower smart farm area 7 270 and the remaining lower smart farm area 1 210 to lower smart farm area 6 260 and lower smart farm area 8 The non-base station smart palm communication device 215, 225, 235, 245, 255, 265, 285, 295 may be located in each of the sub-

As described above, the non-base station smart-palm communication devices 215, 225, 235, 245, 255, 265, 285, and 295 can transmit the generated smart-farm information based on the broadcast communication. The non-base station smart palm communication device 3 (235) can transmit the generated smart farm information 3 based on the broadcast communication. The smart farm information 3 may include identification information of the non-base station smart palm communication device 3 (235), crop growing information of the lower smart farm area 3, environment information, and the like. In addition, the smart farm information 3 may include the identifier information for the base station smart palm communication device. As a result, the smart pal information 3 may be transmitted to the base station smart palm communication device 275 based on the identifier information for the base station smart palm communication device. Lt; / RTI >

Smart farm information 3 is broadcast and non-base station smart pal communication apparatus 3 235 and adjacent non-base station smart pal communication apparatus 6 265 can receive broadcast smart farm information 3.

The non-base station smart palm communication device 6 (265) can transmit the smart farm information 3 received from the smart farm information 6 generated by itself and the non-base station smart pal communication device 3 (235) based on the broadcast communication. The smart farm information 3 and the smart farm information 6 transmitted based on the broadcast communication by the non-base station smart palm communication device 6 (265) are transmitted to the non-base station smart palm communication device 8 located in the lower smart farm area 9 (290) .

Similarly, the non-base station smart-palm communication device 8 (295) transmits the generated smart-farm information 8, the smart-farm information 3 and the smart information 6 to the non-base station smart-palm communication device 7 (285) Lt; / RTI >

In this manner, the smart farm information 1 except for the smart farm information 4 generated by the non-base station smart palm communication device 1 215 to the non-base station smart pal communication device 8 (295) excluding the non-base station smart palm communication device 4 (245) The smart farm information 8 may be transmitted to the non-base station smart palm communication device 4 (245). The non-base station smart palm communication device 4 (245) can transmit the smart farm information 1 to the smart farm information 8 to the base station smart palm communication device 275. The base station smart palm communication device 275 transmits the generated smart farm information 9 and the received smart farm information 1 to smart farm information 8 to the smart farm server 200 through a base station (for example, a LoRa IoT base station) . For convenience of explanation, it is assumed that smart farm information is transmitted in one direction, but smart farm information can be transmitted in various directions.

3 is a conceptual diagram illustrating redundant bridge communication between smart palm communication devices according to an embodiment of the present invention.

3, a redundant bridge communication method of a smart palm communication apparatus is disclosed. A redundant bridge communication method for securing the reliability of a communication network when an error occurs in communication between smart-phone communication apparatuses is disclosed in detail.

3, when the non-base station smart palm communication apparatus 1 310 is unable to transmit the smart farm information to the nearest non-base station smart palm communication apparatus 2 320, the non-base station smart pal communication apparatus / Smart farm information can be transferred to the Palm communication device.

For example, when non-base station smart palm communication device 1 310 transmits smart farm information to the nearest non-base station smart palm communication device 310, And can receive an acknowledgment (ACK) signal for smart farm information from the palm communication device 2 (320). The ACK signal may be a signal indicating normal reception of smart farm information.

If the non-base station smart palm communication device 1 310 does not receive the ACK signal for the smart palm information from the non-base station smart palm communication device 2 320, The smart farm information can be transmitted on the basis of broadcast communication to a range that can reach up to the non-base smart pet communication device 3 which is another non-base smart pet communication device by broadening the information transmission coverage. The non-base station smart palm communication apparatus 3 (330) receiving the smart pal information can transmit an ACK signal to the non-base station smart pal communication apparatus 310 (310).

The setting for the redundant communication target Smart Palm communication device can be performed in advance for this redundant bridge communication.

Specifically, the non-base station smart palm communication device 1 310 may be configured to transmit smart farm information primarily in a first coverage range 315 in a broadcast manner. When the non-base station smart palm communication device 1 (310) fails to receive the ACK signal for the smart farm information from the adjacent non-base station smart palm communication device 2 (320), the non-base station smart palm communication device Lt; / RTI > Thereafter, when the non-base station smart palm communication device 1 310 fails to receive the ACK information for the smart palm information from the non-base station smart palm communication device 330 located on the second coverage area 325, The smart farm information can be transmitted over a wider range than the range 325.

In this manner, when the non-base station smart-palm communication device fails to receive the ACK signal for the smart-palm communication device from the receiving target smart-palm communication device, the non-base station smart-palm communication device transmits the transmission range of the smart- Can be expanded.

4 is a conceptual diagram illustrating a redundant bridge communication method according to an embodiment of the present invention.

4, a method of performing redundant bridge communication between a plurality of smart-palm communication devices is disclosed. 4 illustrates a method for performing redundant bridge communication without changing the communication coverage. 4, four non-base station smart-phone communication devices 410, 420, 430, and 440 and one base station smart-phone communication device 450 are assumed, And can be variously set.

4, four non-base station smart palm communication devices (non-base station smart palm communication device 1 410 (ID 1), non-base station smart palm communication device 2 420 (ID 2), non-base station smart palm communication device 3 (ID3), the non-base station smart palm communication device 4 (440) (ID4), and one base station smart palm communication device 450 can transmit smart farm information based on the bridge communication.

A smart farm information frame including at least one smart farm information may have a frame structure for including smart farm information generated by a plurality of smart farm communication devices. For example, the smart farm information frame may include a lower smart farm information field 1, a lower smart farm information field 2, a lower smart farm information field 3, ..., and a lower smart farm information field n.

Each of the plurality of lower smart farm information fields may include smart farm information collected by each of a base station smart palm communication device and a base station smart palm communication device installed in the smart farm area.

Specifically, non-base station smart palm communication device 1 410, non-base station smart palm communication device 2 420, non-base station smart palm communication device 3 430, non-base station smart palm communication device 4 440, It is assumed that the smart farm information is transmitted through the redundant bridge communication in the order of the device 450.

The non-base station smart palm communication device 1 410 includes a smart farm information frame 1 (smart farm information 1) 415 including the smart farm information 1 generated by the non-base station smart palm communication device 1 in the lower smart farm information field 1, Can be transmitted based on the broadcast communication.

The non-base station smart palm communication device 2 420 can receive the smart farm information frame 1 (smart farm information 1) 415 from the non-base station smart palm communication device 1 (410). The non-base station smart palm communication device 2 420 includes a smart farm information frame 2 (smart farm information 1 (1)) further including the smart farm information 2 generated by the non-base station smart palm communication device 2 (420) , And smart farm information 2) 425 based on the broadcast communication.

Of the smart farm information frames transmitted by the various non-base station smart palm communication devices based on the broadcast communication, only specific smart farm information frames can be processed in a specific non-base station smart palm communication device. For example, non-base station smart-palm communication device 2 420 may be configured to process only smart-pal information frames transmitted by a particular non-base station smart-palm communication device (e.g., non-base station smart-palm communication device 1 410) Can be set. This processing scheme can prevent the load of the communication network due to the smart farm information frame transmitted based on the broadcast.

In the same manner, the non-base station smart palm communication device 3 430 can receive the smart farm information frame 2 (smart farm information 1, smart farm information 2) 425 from the non-serving station smart palm communication device 2 (420). The non-base station smart palm communication device 3 430 includes a smart farm information frame 3 (smart farm information 1) further including the smart farm information 3 generated by the non-base station smart palm communication device 3 430 in the lower smart farm information field 3 , Smart farm information 2, and smart farm information 3) 435 can be transmitted based on the broadcast communication.

Similarly, only certain smart farm information frames among smart farm information frames transmitted by various non-base station smart palm communication devices based on broadcast communication can be processed in a specific non-base station smart palm communication device. For example, the non-base station smart-palm communication device 3 430 may communicate with a particular non-base station smart-palm communication device (e.g., non-base station smart-palm communication device 1 410, Lt; RTI ID = 0.0 > information frame. ≪ / RTI > For example, non-base station smart palm communication device 3 430 may receive not only smart farm information frame 2 425 from only the nearest non-base smart palm communication device 2 420, It is possible to receive the smart farm information frame 1 415 also from the smart farm information frame 410. If the non-base station smart-phone communication apparatus 2 420 can not communicate with the non-base station smart-palm communication apparatus 1 (410) in this reception mode, the information generated by the non-base station smart- To the base station smart palm communication device 450. [

In the same manner, the non-base station smart palm communication device 440 receives the smart farm information frame 3 (smart farm information 1, smart farm information 2, and smart farm information 3) 435 from the non-serving station smart farm communication device 3 430 . The non-base station smart palm communication device 4 440 includes a smart farm information frame 4 (smart farm information 1 (1)) further including the smart farm information 4 generated by the non-base station smart palm communication device 4 (440) , Smart farm information 2, smart farm information 3, and smart farm information 4) 445 can be transmitted on the basis of broadcast communication.

Similarly, only certain smart farm information frames among smart farm information frames transmitted by various non-base station smart palm communication devices based on broadcast communication can be processed in a specific non-base station smart palm communication device. For example, the non-base station smart palm communication device 440 may communicate with a particular base station smart palm communication device (e.g., non-base station smart palm communication device 2 420, non-base station smart pal communication device 3 430) Lt; RTI ID = 0.0 > information frame. ≪ / RTI > The non-base station smart palm communication device 4 can receive the smart farm information frame 2 from the non-base station smart palm communication device 2 as well as receive only the smart pal information frame 3 from the nearest non-base station smart palm communication device 3. If the non-base station smart-palm communication device 3 can not communicate with this reception mode, information generated by the non-base-station smart-palm communication device 2 is also transmitted to the base station smart-palm communication device 4 through the non- .

The base station smart palm communication device can receive the smart farm information frame 4 (smart farm information 1, smart farm information 2, smart farm information 3, and smart farm information 4) from the non-issuing smart farm communication device 4. The base station smart palm communication device includes a smart farm information frame 5 including smart farm information 1, smart farm information 2, smart farm information 3, and smart farm information 5, which further include smart farm information 5 generated by the base station smart farm communication device 5, Smart farm information 4, smart farm information 5) to the base station.

In this manner, the smart farm information generated by the non-base station smart-palm communication devices 1 to 4 and the base station smart-palm communication device can be delivered to the base station.

In other words, the sub-smart information field of the _first smart information may transmit the smart farm information of the non-base station smart-palm communication device of ID ₁ , the sub-smart information field of the second smart information may transmit the non- ₂ < / RTI > non-base smart-phone communication device. Smart the lower n-1 second smart information in this way information field ID ₁ to ID _n may transmit the information of the non-smart Palm Palm smart base station communication device of _1, an n-th base station in the smart farm communication device ID ₁ to The smart farm information of the ID _{n -1} non-base station smart farm communication device and the smart farm information of the base station smart farm communication device of ID _n can be transmitted.

If the SmartPharm communication device to receive the SmartPharm information is set as described above, additional ACK information may not be transmitted as a response signal to the SmartPharm information after receiving the SmartPharm information.

5 is a conceptual diagram showing a smart palm communication apparatus according to an embodiment of the present invention.

5 illustrates a smart palm communication device for generating and transmitting smart farm information.

5A, the smart palm communication device includes a smart farm information generating unit 500, a power source unit 510, an energy harvest unit 520, a communication unit 530, a storage unit 540, and a processor 550 ).

The smart farm information generation unit 500 may be implemented to generate smart farm information based on the information generated by the sensor unit 560. [ The smart farm information generating unit 500 and the sensor unit 560 may be one module. The smart farm information generating unit 500 may include a temperature / humidity measuring module (or sensor), a sunlight amount measuring module (or sensor), an acidity measuring module (or sensor) (Or a sensor) based on the sensing information generated based on the smart palm information can be implemented.

For example, a temperature / humidity measurement module (or sensor) may be implemented for measuring the temperature / humidity of the area in which the smart palm communication device is installed. The sunshine measurement module can be implemented to measure the amount of sunshine in the area where the smart palm communication device is installed. The acidity measurement module may be implemented to measure the acidity of the area where the smart palm communication device is installed.

The power supply unit 510 may be implemented to supply power to the smart palm communication device.

The energy harvesting unit 520 may be connected to the power source unit 510 to charge the power source unit. For example, the energy harvesting unit 520 may convert solar energy into electrical energy to store power. The presence of sunlight can be detected by the optical sensor, the charge / charge current due to sunlight can be monitored, and the power consumption of the smart palm communication device can also be monitored. In addition to this, information on the remaining battery power of the smart palm communication device can be checked, and an alarm for the low voltage can also be performed.

The communication unit 530 may be implemented to transmit smart farm information to another smart farm communication device or a smart farm server. A communication module (for example, a LoRa communication module) for communication with the Smart Palm server via the base station may be implemented in the base station smart palm communication device. The base station smart palm communication device may also be implemented with a communication module (e.g., a BLE communication module) for communication with other non-base station smart palm communication devices.

A non-base station smart palm communication device may be implemented with a communication module (e.g., a BLE communication module) for communication with other non-base station smart palm communication device / base station smart palm communication device.

The storage unit 540 may be implemented to store smart farm information generated periodically or aperiodically.

The processor 550 may be implemented to control and manage the operations of the smart farm information generator 500, the power unit 510, the energy harvest unit 520, the communication unit 530, and the storage unit 540.

Fig. 5 (b) more specifically discloses the configuration of the base station smart palm communication device.

Referring to FIG. 5B, the base station smart palm communication device may be implemented with an MCU2 580 and a communication unit 2 585 for performing BLE-based communication with a non-base station smart palm communication device. In addition, the base station smart palm communication device can also implement the MCU1 570 and the communication unit 1 575 for performing BLE-based communication with the base station smart palm communication device. That is, a separate processing device and communication module can be implemented for communication between the base station and each of the non-base station smart palm communication devices.

6 is a conceptual diagram illustrating a communication method between smart palm communication devices according to an embodiment of the present invention.

FIG. 6 discloses a method for determining a location of a base station smart palm communication device connected to a server among a plurality of smart palm communication devices installed in a plurality of lower smart farm areas.

Referring to FIG. 6, the smart farm server may divide the smart farm area into a plurality of lower smart farm areas based on information on the smart farm area (step S610).

The Smart Farm Server determines the area of the sub-Smart Farm to which the Smart Farm communication device is to be allocated, taking into account the coverage of the Smart Farm communication device, the crops grown in the Smart Farm, the utilization plan of the user's Smart Farm, and the geographical environment of the Smart Farm area. Smart farm areas can be divided into multiple sub-Smart Farm areas.

Specifically, if the user intends to grow crop 1 and crop 2 in SmartPharm, the smart farm server for partitioning the SmartPharm zone will have information about the cultivation area of crop 1 and the cultivation area of crop 2, Can be transmitted as utilization plan information. In addition, information on Crop 1 and Crop 2 can be transmitted as information on crops grown in SmartParm. In addition, the geographical environment information of the smart farm area may include information on the estimated amount of sunshine, rainfall, slope, and soil based on the existing map information. Or the geographical environment information of the smart farm area may be determined based on the image information (photo information, moving image information) of the smart farm image taken by the user.

The smart farm server may determine a location where a plurality of smart farm communication devices are to be installed on the plurality of lower smart farm areas (step S620).

The smart farm server may further provide information on where to place the smart-farm communication device in each of the plurality of sub-smart-farm areas for smooth communication between the smart-farm communication devices, taking into account the coverage of the smart-farm communication device . The user (or manager) can install the smart palm communication device at a specific location on the lower smart farm area in consideration of the map information provided through the user device (or administrator device).

The smart farm server can determine the base station smart palm communication device among the plurality of smart palm communication devices (step S630).

The smart farm server can determine the base station smart palm communication device among the plurality of smart palm communication devices considering the coverage of the plurality of smart palm communication devices. One smart palm communication device can be determined as a base station smart palm communication device considering the ease of smart farm information collection and the ability to collect smart farm information directly or indirectly from the entire smart palm communication device. For example, the transport coverage for smart farm information for each of a plurality of smart farm communication devices is simulated and the sub-smart farm area where the smart farm information can be easily collected is finally set as a sub-smart farm area for the base station smart farm communication device Can be determined. The base station smart palm communication device can be an area in which the redundant bridge communication between the non-base smart palm communication device and the non-base smart palm communication device and the base station smart palm communication device can be configured in a short and effective manner.

7 is a conceptual diagram illustrating a method for determining a base station smart palm communication device according to an embodiment of the present invention.

7, a method for determining a base station smart palm communication device is disclosed.

Referring to FIG. 7, a smart farm area is divided into five sub-smart farm areas, and five smart farm communication devices (smart farm communication device 1 to the smart palm communication device 5) is installed.

In this case, the transmission coverage of each of the smart palm communication device 1 710 to the smart pal communication device 5 750 can be simulated.

Based on the simulated transmission coverage, a Smart Palm communication device capable of collecting information from the entire Smart Palm communication device among the plurality of lower Smart Palm communication devices can be determined as a base station Smart Palm communication device.

For example, if smartphone communication device 3 730 has the largest number of overlapping areas (four) and the remaining smart phone communication devices 1 710, 2 720, 4 740 and 5 750 are relatively The smart-phone communication apparatus 3 730 can be set as a base-station smart-palm communication apparatus.

In addition, according to the embodiment of the present invention, the smart farm server can determine the base station smart palm communication device by simulating the transmission coverage between the smart pal communication devices. The smart farm server may also decide which smart farm communication device to receive smart farm information from. As described above, the smart-palm communication device can process only the smart-pal information transmitted by the specific smart-palm communication device that is set in advance among the smart-palm information to be broadcasted. The configuration of a particular Smart Palm communication device to receive such smart farm information may be performed based on simulations of transmission coverage between Smart Palm communication devices.

Assuming that all smart-phone communication devices (ie, non-base-station smart-phone communication devices) are also capable of communicating with the base station, the smart- The device can also be determined. The candidate base station smart palm communication device may be a smart palm communication device having a relatively large number of batteries while having the number of overlapping areas of the ranking base smart palm communication device.

Non-base smart-phone communication devices can also periodically communicate with smart-farm servers. If the base station smart-farm communication device fails, the smart-farm server will switch the non-base station smart-palm communication device to a base station smart-palm communication device with a good battery status and a number of overlapping areas .

In addition, the smart-farm communication device may directly request the smart-farm information not collected. For example, the smart palm communication device 3 (730) operating as a base station smart palm communication device can communicate directly with the smart palm communication device 1 (710) when the smart pal information is not collected from the smart palm communication device 1 To request smart farm information.

FIG. 8 is a conceptual diagram illustrating a structure of a smart farm information frame including smart farm information according to an embodiment of the present invention.

8, a smart farm information frame including smart farm information includes smart farm communication device identification information 800, smart farm information (crop growth environment information, etc.) 810, base station smart farm communication device identification information 820 The non-base station smart-palm communication device identification information 830, and the smart-palm information generation time information 840.

The smart-phone communication device identification information 800 may include identification information of the smart-phone communication device that transmitted the smart-phone information.

Smart farm information 810 may include crop / livestock growth environment information. For example, smart farm information 810 may include information about temperature / humidity, sunlight, acidity, etc. collected by the various sensors described above. The smart farm information may include the lower smart farm information fields 1 to n as described above.

The base station smart-phone communication device identification information 820 may include information on the base station smart-phone communication device to which the smart-phone information will ultimately be transmitted. The smart farm information broadcast based on the base station smart phone communication device identification information 820 can be finally transmitted to the smart farm server through the base station smart phone communication device.

The forwarding non-base station smart-palm communication device identification information 830 may include information about a non-base-station smart-palm communication device to receive and transmit the smart-palm information to the base station smart-palm communication device. The smart-palm communication device that receives the smart-farm information based on the identification information of the transmission-base station smart-palm communication device 830 may transmit the ACK signal.

The smart farm information generation time information 840 may include information on the time at which the smart farm information is generated. It is possible to prevent unnecessary transmission of the same smart farm information to the smart farm server based on the smart farm information generation time information 840.

9 is a conceptual diagram illustrating a method of processing smart farm information in a smart farm according to an embodiment of the present invention.

FIG. 9 illustrates a method for processing smart farm information when the same smart farm information is received a plurality of times based on broadcast communication. 9 illustrates a method for processing smart farm information when a smart pal communication device to receive smart farm information is not predetermined.

Referring to FIG. 9, a smart palm communication device transmits smart palm information based on broadcast communication. Therefore, a specific smart palm communication device can continuously receive / process smart farm information unnecessarily.

For example, if the smart farm communication device 1 (910) transmits smart farm information 1 based on the broadcast communication, the smart farm information is transmitted to the smart farm communication device 2 in the transmission range as well as the smart farm communication device 3 .

In this case, when broadcasting the smart farm information 2 directly generated by the smart pal communication apparatus 2 (920) and the received smart farm information 1, the smart palm communication apparatus 3 (930) again receives the smart farm information 2 can do.

That is, the smart-phone communication apparatus 3 (930) can receive the same smart-farm information 2 a plurality of times. In this case, the smart-palm communication device 3 can process only the information transmitted by the smart-palm communication device 2 without directly processing the smart-pal information frame transmitted by the smart-palm communication device 1. [

Thereafter, the smart-phone communication device 3 (930) can process the smart-pal information frame transmitted by the smart-phone communication device 1 (910) only when the smart-communication device 2 920 fails to receive the smart- .

In this way, an optimal smart farm information network can automatically be set up between smart farm communication devices installed in the smart farm area, and transmission of redundant smart farm information may be restricted unnecessarily.

The embodiments of the present invention described above can be implemented in the form of program instructions that can be executed through various computer components and recorded in a computer-readable recording medium. The computer-readable recording medium may include program commands, data files, data structures, and the like, alone or in combination. The program instructions recorded on the computer-readable recording medium may be those specifically designed and configured for the present invention or may be those known and used by those skilled in the computer software arts. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROM and DVD, magneto-optical media such as floptical disks, medium, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code, such as those generated by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware device may be modified into one or more software modules for performing the processing according to the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the scope of the present invention.

Accordingly, the spirit of the present invention should not be construed as being limited to the above-described embodiments, and all ranges that are equivalent to or equivalent to the claims of the present invention as well as the claims .

Claims (11)

A network-based smart farm management methodology,
Assigning each of the plurality of smart-phone communication devices to each of a plurality of sub-smart-farm areas included in the smart-farm area;
Setting each of the plurality of smart palm communication devices as a non-base station smart palm communication device or a base station smart palm communication device; And
The smart farm server receiving smart farm information generated by the non-base station smart palm communication device via the base station smart palm communication device. The method according to claim 1,
Wherein the non-base station smart-palm communication device is configured to transmit the smart-palm information based on a broadcast communication,
The base station smart palm communication device is configured to transmit the smart palm information to the smart palm server based on a unicast communication,
Wherein the smart farm information includes information for growth of a growing subject growing in the smart farm area. 3. The method of claim 2,
The non-base station smart-palm communication device includes a first non-base station smart-palm communication device and a second non-base-station smart-palm communication device,
The first non-base station smart palm communication apparatus generates first smart palm information, transmits the first smart palm information on a Bluetooth low energy (BLE) network based on broadcast communication,
The second non-base station smart palm communication device generates second smart farm information, receives the first smart farm information, and transmits the first smart farm information and the second smart farm information to the base station smart palm communication device Based on the broadcast communication on the BLE network,
The base station smart palm communication apparatus transmits the first smart pal information and the second smart pal information received from the second non-base station smart pal communication apparatus to a LoRa IoT (internet of things) base station on a LoRa (long range) network To the smart farm server. The method of claim 3,
The non-base station smart palm communication device further comprises a third non-base station smart palm communication device,
Wherein the first non-base station smart palm communication device transmits the first smart palm information through the third non-base station smart palm communication device when a communication failure occurs with the second non-base station smart palm communication device Way. 5. The method of claim 4,
Wherein the second non-base station smart palm communication device and the third non-base station smart palm communication device are set based on transmission coverage with the first non-base station smart palm communication device,
Wherein the plurality of smart palm communication devices are powered on an energy harvest module that generates power by solar light. Smart farm systems, which perform network-based smart farm management,
A plurality of smart palm communication devices, each of which is assigned to each of a plurality of lower smart farm areas included in a smart farm area, and is set as a non-base station smart palm communication device or a base station smart palm communication device; And
And a smart farm server for receiving the smart farm information generated by the non-base station smart palm communication device through the base station smart palm communication device. The method according to claim 6,
The non-base station smart palm communication device is configured to generate the smart palm information and transmit the generated smart palm information based on a broadcast communication,
The base station smart palm communication device is configured to transmit the smart palm information to the smart palm server based on a unicast communication,
Wherein the smart farm information includes information for growth of a growing target grown in the smart farm area. 8. The method of claim 7,
The non-base station smart-palm communication device includes a first non-base station smart-palm communication device and a second non-base-station smart-palm communication device,
The first non-base station smart palm communication apparatus generates first smart palm information, transmits the first smart palm information on a Bluetooth low energy (BLE) network based on broadcast communication,
The second non-base station smart palm communication device generates second smart farm information, receives the first smart farm information, and transmits the first smart farm information and the second smart farm information to the base station smart palm communication device Based on the broadcast communication on the BLE network,
The base station smart palm communication apparatus transmits the first smart pal information and the second smart pal information received from the second non-base station smart pal communication apparatus to a LoRa IoT (internet of things) base station on a LoRa (long range) network To the smart-farm server. 9. The method of claim 8,
The non-base station smart palm communication device further comprises a third non-base station smart palm communication device,
Wherein the first non-base station smart palm communication device transmits the first smart palm information through the third non-base station smart palm communication device when a communication failure occurs with the second non-base station smart palm communication device Smart Farm Server. 10. The method of claim 9,
Wherein the second non-base station smart palm communication device and the third non-base station smart palm communication device are set based on transmission coverage with the first non-base station smart palm communication device,
Wherein the plurality of smart palm communication devices are powered by an energy harvest module that generates power by solar light. A computer program for executing the method according to any one of claims 1 to 5.

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