KR20190095583A - LoRa Gateway system based on renewable energy for orchard - Google Patents

Abstract

The present invention relates to a data collecting apparatus using renewable energy and a long range (LoRa) wireless communication technology. More specifically, the present invention relates to development of a LoRa gateway system based on renewable energy which allows growing crops using smart farm technology without building an electrical and communicational infrastructure on farms with outdoor culture, such as an orchard, etc., having difficulties in building the electrical and communicational infrastructure.

Description

LoRa Gateway system based on renewable energy for orchard

The present invention relates to a data collection device using renewable energy and Laura wireless communication technology, more specifically smart farm technology without the construction of electricity and communication infrastructure in the farm for farming orchards, such as orchards difficult to build electricity and communication infrastructure The present invention relates to the development of a renewable energy-based Laura Gateway system that allows crops to be cultivated.

Renewable energy is not classified as coal, petroleum, nuclear power and natural gas but solar energy, biomass, wind power, hydropower, fuel cells, coal liquefaction, gasification, marine energy, waste energy and other geothermal, It means the fluid fuel which mixed the substance by hydrogen and coal. However, in the technology behind this outbreak, it means solar and wind energy.

LoRa (LoRa) is an abbreviation of Long Range, low standby power consumption and low module price, large-scale low-power long-range wireless communication that can perform the Internet of Things implementation in smart cities and smart farms (smart farm), etc. Technology.

This Laura communication technology is a high-speed, high-speed, broadband network unlike the existing smart device connection environment requires a separate base station or relay equipment without a chip set on the device to send and receive small data at low power, security two-way It provides seamless interoperability for users and developers with the goal of meeting the needs of the Internet of Things, such as communication and mobility localization services.

This smart farm technology is an intelligent farm technology made by combining information technology (ICT) in farming technology using a network (network) and IoT (IoT, Internet of Things) sensor and utilize the collected data analysis It is to be used for crop cultivation.

On the other hand, the domestic agricultural sector has been steadily increasing by introducing smart farm technology to increase the yield of cultivated crops and produce high quality crops.

However, the existing smart farm technology is mainly utilized in farms growing crops by snow cultivation, especially in farms that are open-cultivated in a large area such as orchards, the cost and the limitation of communication technology in the construction of electricity and communication infrastructure It is difficult to utilize smart farm technology.

The present invention has been devised to solve the above-described problems, the object of the present invention is a renewable energy-based lorra for orchards that can use smart farm technology in open-farm cultivation farms, such as orchards without a separate electrical and communication infrastructure To develop a gateway system.

In order to achieve the above object, the present invention is installed in an orchard in the orchard to measure the growth environment of the crop or control the off-site facility (IoT Node); The IOT nodes are connected to the LoRa network, receive data (hereinafter, referred to as 'sensor data') from the IOT nodes, and receive the received sensor data in oneM2M format data ( IoT gateway (hereinafter referred to as 'one M to M data'); And an OneM2M server (oenM2M server) connected to the IoT gateway through a wired / wireless trunk network and receiving the OneM2M data and transmitting the OneM2M data through an Internet network, a Wi-Fi network, or a telephone communication network. Solar gateways are used to power the growing environment (weather and soil) instruments (hereinafter referred to as sensors) and IOT nodes to orchards that do not have an electrical and communications infrastructure. Provides a renewable energy-based Laura gateway system for orchards, characterized in that it comprises a renewable energy device for producing the energy used.

In a preferred embodiment, it functions to query the energy charge and discharge amount and usage of the new renewable energy device for the stable power supply of the Ioty node device.

In a preferred embodiment, it further comprises a database server that is connected through the communication network with the one M2M server, and provides a web page for inquiry of the database to receive and store the oneM2M data in a database.

In a preferred embodiment, the one M2M server is connected to a smart device through a communication network, when there is a control request from the smart device, by controlling the IOT node through the IOT gateway to the noji facility To control.

In a preferred embodiment, the database server functions to be able to query the database by providing the web page when the smart device is accessible through the communication network, when there is a data inquiry request from the smart device.

In one preferred embodiment, the one M to M server, if there is a data inquiry request from the smart device, transmits the data stored in the smart device, or the web page provided by the database server the smart Provided to the device to function the smart device to query the data of the database server through the one M to M server.

The present invention has the following excellent effects.

First, according to the oracle renewable energy-based Laura gateway system for an orchard according to an embodiment of the present invention, it is possible to effectively use smart farm technology through the Lora network to orchards that are not built with electrical and communication infrastructure.

In addition, according to the Laura gateway system according to an embodiment of the present invention, by integrating the Laura gateway, network server and OneM2M gateway in one IT gateway to simplify the configuration of the network and reduce the construction cost There is an advantage.

1 is a view showing a Laura gateway system according to an embodiment of the present invention,
2 is a diagram illustrating a system hierarchy diagram of a Laura gateway system according to an exemplary embodiment of the present invention.
3 is a view showing the configuration of a renewable energy device according to an embodiment of the present invention.

Terminology used in the present invention was selected as a general term widely used as possible, but in certain cases there is also a term arbitrarily selected by the applicant, in which case it is described or used in the detailed description of the invention rather than a simple name of the term The meaning should be grasped in consideration of the meaning.

Hereinafter, with reference to the preferred embodiments shown in the accompanying drawings will be described in detail the technical configuration of the present invention.

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Like numbers refer to like elements throughout the specification.

1 is a view showing a Laura gateway system according to an embodiment of the present invention, Figure 2 shows a system hierarchy diagram of a Laura gateway system according to an embodiment of the present invention, Figure 3 is the present invention Figure is a view showing the durable configuration of the renewable energy device according to an embodiment of the.

Referring to the drawings, Laura gateway system 100 according to an embodiment of the present invention is an IoT node 110, IoT Node, IoT gateway 120 and one M2M server 130, oenM2M server).

The Ioty node 110 is installed in the cultivated crop growth environment and open field cultivation facilities of the orchard to measure or control the state of things.

For example, the thing is an open field crop growth environment sensor and the open field facility, the Ioty node 110 is installed in the growing environment measurement position and the open field facility.

In addition, the Ioty node 110 measures the growth environment state of the cultivated crops through various sensors such as humidity sensor, temperature sensor, light quantity, temperature, humidity, EC sensor, switchboard or lighting, sprinkler, etc. By controlling the humidity of the orchard soil, etc.

The IoT gateway 120 is connected to the Ioty nodes 110 and Lora network (LoRa network) via a Laura communication modem 111, cultivated crops from the Ioty nodes 110 Receive data on the growth environment of the (hereinafter referred to as 'sensor data').

In addition, the IOT gateway 120 converts the sensor data into data of one M2M (oneM2M) format (hereinafter referred to as 'one M2M data'), and the one M2M server through a wired / wireless trunk network. Send to 130.

In other words, the IOT gateway 120 includes the functions of the Laura gateway 121 and the OneM to M Gateway 122.

Therefore, since the IoT gateway 120 can implement the functions of the conventional Laura gateway, network server and one M2M gateway as a single device there is an advantage that can easily build a network and reduce the cost .

The onem to m server 130 is connected to the IoT gateway 120 and a wired / wireless trunk network, and receives and stores the onem tom data, the stored onem to m data internet network, WiFi network or Transmit to outside via telephone network such as 4G.

In addition, the one to m server 130 is an external application 20, such as a smart device is accessible, when there is a control request from the application 20, the I through the gateway 120 The IOT node 110 transmits a control signal to control the field cultivation facility.

In addition, the Laura gateway system 100 according to an embodiment of the present invention receives the one-m-to-m data of the one-m to m server 130 and stores it in a database, and provides a web page that can query the stored database It may further include a database server 140.

In addition, the application 20 can directly access the database server 140 to query the database stored through the web page, the database server 140 through the one M to M server 130 You can query the database by accessing.

However, the application 20 has to access the one M2M server 130 in order to make a control request to the IOT node 110.

Therefore, according to the Laura gateway system 100 according to an embodiment of the present invention, the system can be configured by integrating the conventional Laura gateway, network server, and OneM2M gateway in one IOT gateway 120. The configuration is simple and the network construction cost can be reduced.

Referring to the drawings, the renewable energy device 200 according to an embodiment of the present invention is a solar cell module 210, inverter 211, power converter, ballast 212, battery 213, It comprises a LoRa communication modem 220, terminal block 230 and IoT Node (230, IoT Node).

The solar cell module 210 converts sunlight into electrical energy to store electrical energy in the battery 213 through an inverter (211, power converter).

The battery 213 stores electrical energy and supplies power to the LoRa communication modem 220 through an inverter (211, power conversion device) and a growth environment sensor that is connected to the IoT node (IoT Node) and Monitor and control open field cultivation facilities.

In other words, the IOT gateway 120 includes the functions of the Laura gateway 121 and the OneM to M Gateway 122.

Therefore, since the IoT gateway 120 can implement the functions of the conventional Laura gateway, network server and OneM2M gateway as a single device there is an advantage that can easily build the network and reduce the cost .

Therefore, according to the new energy device 200 according to an embodiment of the present invention, there is an advantage to be able to utilize the smart farm technology in orchards and open field cultivation farms difficult to build conventional electrical and communication infrastructure.

As described above, the present invention has been illustrated and described with reference to preferred embodiments, but is not limited to the above-described embodiments, and the general knowledge in the art to which the present invention pertains without departing from the spirit of the present invention. Various changes and modifications will be possible by those who have the same.

100: Laura gateway system
110: IOT node
111: Laura communication modem
120: IOTT Gateway
130: One M2M server
140: database server
200: renewable energy devices
210: solar cell module
211: inverter (energy conversion device)
211: ballast
213 battery
220: LoRa communication modem
230: terminal block
240: IoT Node
111: Laura communication modem
120: IOTT Gateway
130: One M2M server
140: database server

Claims (3)

An IoT Node installed in an orchard growing area to measure crop growth conditions or to control outland growing facilities; The IOT nodes are connected to a LoRa network, receive data (hereinafter, referred to as 'sensor data') from the IOT nodes, and receive the received sensor data in oneM2M format data ( IoT gateway (hereinafter referred to as 'one M to M data'); And an OneM2M server (oenM2M server) connected to the IoT gateway through a wired / wireless trunk network and receiving the OneM2M data and transmitting the OneM2M data through an Internet network, a Wi-Fi network, or a telephone communication network. Laura gateway system, characterized in that.
According to claim 1 or claim 2, The one M to M server is connected to a smart device through a communication network, when there is a control request from the smart device, the cultivated greenery by controlling the IOT node through the IOT gateway Laura gateway system, characterized in that to control the facility.
Renewable energy devices installed in orchards and hardwood plantations where it is difficult to build an electrical and communication infrastructure, which supplies power to the IoT Node, which measures the growing environment of cultivated crops or controls outland cultivation facilities.

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