KR20130048033A - System and method for monitoring remote fruit tree and crops using a sensor network for execuiting wireless-communication-service - Google Patents

Abstract

The present invention relates to a remote fruit crop monitoring system using a sensor network that performs a wireless communication service, wherein the sensor nodes randomly distributed within the sensor network monitor the state of the fruit crops, and communicate with a plurality of sensor nodes. And a server node that collects, analyzes, and stores sensing information, and stores and integrates and manages a plurality of events in the sensor network, and a mobile terminal node that receives an abnormal state of a fruit crop from the server node and notifies an administrator. It is done.

Description

Remote fruit crop monitoring system and method using a sensor network that performs wireless communication service {SYSTEM AND METHOD FOR MONITORING REMOTE FRUIT TREE AND CROPS USING A SENSOR NETWORK FOR EXECUITING WIRELESS-COMMUNICATION-SERVICE}

The present invention relates to a remote fruit crop monitoring system and method using a sensor network for performing a wireless communication service.

Recently, a crop history system has been implemented to enable production management and distribution of crops and to identify production distribution paths to consumers.

To this end, monitoring of the fruit crops is necessary in the process from production to distribution.

In practice, however, fruit crops are being cultivated on a large scale and are being scaled up and grouped. Protection and management are carried out by traditional methods, and effective coping is difficult.

In addition, in order to diagnose the exact condition of the fruit crops distributed in a large cultivation area, the manager must directly measure the abnormal condition of the fruit crops or use a remote image camera. The installation and management of remote video cameras in the cultivation area leads to the problem of lowering the rate of return rather than increasing profits in poor agricultural environments.

Recently, various measuring equipments for detecting abnormal conditions of fruit crops have been introduced, but accurate diagnosis is difficult unless the manager directly measures them.

In addition, if the manager directly checks and diagnoses and adjusts the cultivation environment manually, the replacement is insufficient compared to the propagation speed such as the occurrence of harmful tides or natural disasters.

The present invention relates to remote monitoring of fruit trees using a sensor network to perform a wireless communication service, the sensor nodes for real-time monitoring of the state of fruit crops in the area where the fruit crops are located, and distributed through the sensor network After collecting status information and event occurrence, it is analyzed to provide technology to detect and prevent abnormal conditions of fruit crops due to the occurrence of wild animals or natural disasters.

According to an aspect of the present invention, in a remote orchard crop monitoring system using a sensor network for performing a wireless communication service, the sensor node randomly distributed in the sensor network to monitor the state of the fruit crops, and communicate with a plurality of sensor nodes A server node that collects, analyzes, and stores sensing information of each sensor node, and stores and integrates and manages a plurality of events in the sensor network; Characterized by including.

According to another aspect of the invention, in the remote fruit crop monitoring method using a sensor network for performing a wireless communication service, the process of monitoring the state of the fruit crops through a randomly distributed sensor node in the sensor network, the sensor node Communicating with and collecting, analyzing and storing the state of the fruit crop, storing and controlling a plurality of events in the sensor network, and analyzing the generated event or the state of the fruit crop, according to the analysis result. Generating a corresponding event signal, selecting and outputting a control signal according to the generated event signal type, and performing a corresponding operation according to the generated event type.

The present invention can not only be provided in real time the status information of the fruit crops due to the occurrence of wild animals or natural disasters by monitoring the fruit crops remotely using a sensor network that performs a wireless communication service, Sensor that senses the state of the fruit crops by generating different event alarms according to the type of fault condition and notifying the manager to appropriate action according to the type of fault condition generated in the fruit or crop. By using the node as a mobile or connected mobile terminal node in real time through the sensor network, the administrator can remotely check the state of the fruit crops in real time.

1 is a schematic configuration diagram of a remote fruit crop monitoring system using a sensor network for performing a wireless communication service according to an embodiment of the present invention.
Figure 2 is a detailed block diagram of each configuration in the remote fruit crop monitoring system using a sensor network for performing a wireless communication service according to an embodiment of the present invention.
3 is a flowchart illustrating a remote fruit crop monitoring method using a sensor network for performing a wireless communication service according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be appreciated that those skilled in the art will readily observe that certain changes in form and detail may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims. To those of ordinary skill in the art.

The present invention relates to a remote fruit crop monitoring system and method using a sensor network for performing a wireless communication service, and more particularly, to the area where the fruit crop is located to remotely manage the fruit crops in the network based on the sensor network. Randomly distribute the sensor nodes monitoring the state of the fruit crops in real time, collect the state information and event occurrence of the fruit crops from the sensor node through the sensor network, analyze them, and then analyze the abnormalities of the fruit crops according to the analysis results. By selecting and outputting the status type, not only can you receive real-time status information of your fruit crops due to the emergence of wild animals or natural disasters, but also generates different event alarms according to the type of abnormal status. At recognition By allowing the administrator to take appropriate action according to the type of abnormal condition generated in the fruit crops or the area, the mobile terminal connected to the web or linked in real time through the sensor network using a sensor node sensing the fruit crop condition. By serving as a node, we want to provide a technology that allows the administrator to remotely check the state of fruit crops in real time.

The mobile node according to an embodiment of the present invention may be a digital broadcasting terminal, a personal digital assistant (PDA), a smart phone, a tablet PC, an iPad, a 3G terminal. For example, all information communication devices such as International Mobile Telecommunication 2000 (IMT-2000) terminals, Wideband Code Division Multiple Access (WCDMA) terminals, Global System For Mobile Communication Packet Radio Service (GSM / GPRS), and Universal Mobile Telecommunication Service (UMTS) terminals. And multimedia devices. However, it will be readily apparent to those skilled in the art that the configuration according to the embodiments described herein may also be applied to fixed terminals, such as digital TVs, desktop computers, and the like, except where applicable only to portable terminals.

In addition, it will be apparent that the server node according to an embodiment of the present invention may be applied to all information communication devices and multimedia devices that can communicate with a server through a network, and applications thereof.

In addition, the sensor network to which the present invention is applied is mainly a network capable of covering a large area, and the following detailed description of the present invention will be described with reference to the abnormal state detection information occurring in the fruit crop region.

Hereinafter, a remote fruit crop monitoring system using a sensor network performing a wireless communication service according to an embodiment of the present invention will be described in detail with reference to FIG. 1.

1 is a schematic configuration diagram of a remote fruit crop monitoring system using a sensor network to perform a wireless communication service according to an embodiment of the present invention.

Referring to FIG. 1, the system 100 to which the present invention is applied includes a fruit crop (111, 112), a plurality of sensor nodes (101, 102, 103), a server node (120) and a mobile terminal node (104). Include.

The sensor nodes 101, 102, 103 are randomly distributed within the sensor network 110 to monitor the state of the fruit crops 111, 112.

Here, the sensor nodes (101, 102, 103) uses a short-range wireless communication that can be tagged, such as RFID, Bluetooth, ZigBee, and may transmit the state of the sensed fruit crops through the sensor network.

The server node 120 communicates with a plurality of sensor nodes 101, 102, and 103, collects, analyzes, and stores sensing information of each sensor node, and stores and integrates and manages a plurality of events in the sensor network 110. .

In this case, the event refers to all the events that can occur in the fruit crops or the region where the fruit crops are located, for example, the emergence of wild animals, natural disasters due to weather changes.

As a result, when an administrator approaches the sensor network 110 in which the fruit crops are located in an external area, the administrator accesses the server node 120 to the entire event occurring in the sensor network 110 in the area where the fruit tree is located. Not only the integrated search is possible in real time, but the existing resident manager provides the events occurring in the sensor network 110 in real time using the server node 120 linked through the sensor network 110. You can get it.

The mobile terminal node 104 receives an abnormal state of the fruit crop from the server node 120 and notifies the manager.

Above has been described a schematic configuration of a remote fruit crop monitoring system using a sensor network for performing a wireless communication service according to an embodiment of the present invention.

Hereinafter, a detailed block diagram of a fruit crop monitoring system configuration using a sensor network for performing a wireless communication service according to an embodiment of the present invention will be described in detail with reference to FIG. 2.

2 is a detailed block diagram of each configuration in a remote fruit crop monitoring system using a sensor network for performing a wireless communication service according to an embodiment of the present invention. Referring to FIG. 2, the system 200 includes a sensor node 210 and a server node 222.

The sensor node 210 measures the wind direction sensor unit 212 for collecting the wind direction information in the sensor network, the wind speed sensor unit 214 for collecting the wind speed information in the sensor network, and the temperature and humidity in the sensor network. A temperature / humidity sensor unit 216 for sensing, a motion detector 218 for detecting movement of a preset object in the sensor network, and a camera unit for capturing images of the fruit crops in the sensor network at a predetermined time interval ( 220).

The server node 222 collects the collection unit 224, the signal amplifier 226, the AD converter 228, the controller 230, the wireless communication unit 232, the storage unit 234, and the event alarm unit 244. Include.

The collection unit 224 collects sensing information from the sensor node 210 through a sensor network.

The signal amplifier 226 amplifies the collected sensing signals, and the AD converter 228 converts the collected analog sensing signals into digital signals.

The controller 230 analyzes the digital signal output from the AD converter 228 and generates a corresponding event signal according to the analysis result.

In this case, the controller 230 may provide the analysis result through the wireless communication unit 232 through a web service or transmit it to a mobile terminal node set in advance.

In addition, the controller 230 selects and outputs a control signal according to the generated event signal type.

For example, when the generated event type is a natural disaster, an event signal is output to the wireless alarm transmitter 248 to alert an administrator to take action in response to a natural disaster by sounding an alarm, and the event type is a harmful assistant. In this case, the event signal is output to the acoustic eradication unit 246 to generate a repelling sound and high sound pressure for combating wild birds.

When the generated event signal type is image data, the controller 230 matches and outputs history information of the fruit crops preset by an administrator.

This is to use the data of cultivated fruits and crops as a basic data that can be generated during the distribution of agricultural products, and to attach the photographed images to the distribution of crops and to manage the production and distribution of fruit crops and to the consumer. This is to implement the fruit crop history system for verification.

The event alarm unit 244 performs a corresponding operation according to the event type generated from the controller 230.

The storage unit 234 extracts image data from the data analyzed by the controller 230 and stores the image data at predetermined intervals.

The wireless communication unit 232 transmits the signal analyzed from the control unit 230 to the outside.

In this case, the event alarm unit 244 includes a sound repelling unit 246 for avoiding wild birds and high sound pressure, a wireless alarm sending unit 248 for generating an abnormal state alarm, and the controller 230. It includes a lighting unit 250 that the brightness is controlled and controlled under the control of the).

On the other hand, the server node 222 according to the present invention further includes a composite power generation unit 236, the power generation unit 236 is attached to the server node 222 is a common wind power to produce electricity by the wind The same wind power generator 238 as the generator, the solar power unit 240 attached to the server node 222, the same as the conventional solar generator for producing electricity by sunlight, and the wind power generator ( 238 and a battery 242 that stores electricity generated by the photovoltaic unit 240 and uses the energy output therefrom as a power source of the server node 222 itself.

The configuration of a remote fruit crop monitoring system using a sensor network performing a wireless communication service according to an embodiment of the present invention has been described.

Hereinafter, a remote fruit crop monitoring method using a sensor network for performing a wireless communication service according to an embodiment of the present invention will be described with reference to FIG. 3.

3 is a flowchart illustrating a method for monitoring a remote orchard crop using a sensor network for performing a wireless communication service according to an embodiment of the present invention.

Referring to FIG. 3, in step 310, the state of the fruit crops is monitored through a randomly distributed sensor node in the sensor network.

In step 312, the sensor node communicates with and collects, analyzes and stores the state of the fruit crops.

In step 314, a plurality of events in the sensor network are stored and controlled.

In this case, the event refers to all the events that can occur in the fruit crops or the region where the fruit crops are located, for example, the emergence of wild animals, natural disasters due to weather changes.

In step 316, the state of the generated event or fruit crop is analyzed, and in step 318, whether the event signal is generated or not is determined. In this case, whether or not the event signal is generated is compared with a preset reference value and if the value is exceeded to recognize that the event has occurred, go to step 320 to generate the event signal according to the analysis result. In this case, the event signal selects and outputs a control signal according to the signal type.

That is, when the generated event type is a natural disaster, an event signal is output to the wireless alarm transmitter in step 322 to alert an administrator to take action in response to a natural disaster by sounding an alarm, and the event type is a harmful assistant. In this case, the event signal is output to the sound extinguishing unit to generate a repelling sound and high sound pressure for combating wild birds in step 322.

As described above, an operation related to a remote fruit crop monitoring system and method using a sensor network for performing a wireless communication service according to the present invention can be made. Meanwhile, the above-described description of the present invention has been described in detail. This may be practiced without departing from the scope of the present invention. Accordingly, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by equivalents of the claims and the claims.

Description of the Related Art
212: wind direction sensor unit 214: wind speed sensor unit
216: temperature / humidity sensor unit 218: motion detection unit
220: camera unit 230: control unit
236: combined power unit 244: alarm generating unit

Claims (9)

In the remote fruit crop monitoring system using a sensor network that performs a wireless communication service,
A sensor node distributed randomly within the sensor network to monitor the state of the fruit crops;
A server node which communicates with a plurality of sensor nodes, collects, analyzes and stores sensing information of each sensor node, and stores and integrates and manages a plurality of events in the sensor network;
A remote fruit crop monitoring system using a sensor network for performing a wireless communication service, characterized in that it comprises a mobile terminal node for receiving an abnormal state of the fruit crops from the server node to notify the administrator. The method of claim 1, wherein the sensor node,
A wind direction sensor unit for collecting wind direction information in the sensor network;
A wind speed sensor unit for collecting wind speed information in the sensor network;
A temperature / humidity sensor unit for detecting temperature and humidity in the sensor network;
A motion detector for detecting a motion of a preset object in the sensor network;
Remote fruit crop monitoring system using a sensor network for performing a wireless communication service, characterized in that it comprises a camera for photographing the image of the fruit crops in the sensor network at a predetermined time interval. The method of claim 1, wherein the server node,
An AD converter for converting the analog sensing signal collected from the sensor node into a digital signal;
A controller which analyzes the digital signal output from the AD converter, generates a corresponding event signal according to the analysis result, and selects and outputs a control signal according to the generated event signal type;
An event alarm unit performing a corresponding operation according to an event type generated from the controller;
A storage unit which extracts image data from the data analyzed by the controller and stores the image data at predetermined intervals;
Remote fruit crop monitoring system using a sensor network for performing a wireless communication service, characterized in that it comprises a wireless communication unit for transmitting the signal analyzed from the control unit to the outside. The method of claim 3, wherein the event alarm unit,
Acoustic repeller that generates repellent sound and high sound pressure for combating wild birds,
Wireless alarm sending unit for generating an abnormal state alarm,
A remote fruit crop monitoring system using a sensor network for performing a wireless communication service, characterized in that it comprises a lighting unit for controlling the illumination is controlled by varying the brightness under the control of the controller. The apparatus of claim 3,
The remote fruit crop monitoring system using a sensor network for performing a wireless communication service, characterized in that for transmitting the analysis result via the wireless communication unit via the web or to a mobile terminal node. The apparatus of claim 3,
When the generated event signal type is image data, the remote fruit crop monitoring system using a sensor network for performing a wireless communication service, characterized in that for outputting the history information of the fruit crops preset by the administrator. The method of claim 1, wherein the server node,
A wind turbine unit attached to the server node, the same as a conventional wind turbine that generates electricity by wind;
A photovoltaic unit attached to the server node, the same photovoltaic unit as a conventional photovoltaic generator that generates electricity by sunlight;
Remote fruit crop monitoring system using a sensor network for performing a wireless communication service, characterized in that it further comprises a battery for storing electricity generated in the wind power generation unit and the solar power generation unit. The method of claim 2, wherein the preset object,
Remote fruit crop monitoring system using a sensor network to perform a wireless communication service characterized in that the harmful tides. In a remote fruit crop monitoring method using a sensor network for performing a wireless communication service,
Monitoring the state of fruit crops through randomly distributed sensor nodes in the sensor network;
Communicating with the sensor node to collect, analyze and store the state of fruit crops;
Storing and controlling a plurality of events in the sensor network;
Analyzing a state of the generated event or fruit crop, and generating a corresponding event signal according to the analysis result;
Selecting and outputting a control signal according to the generated event signal type;
Remote fruit crop monitoring method using a sensor network for performing a wireless communication service comprising the step of performing a corresponding operation according to the generated event type.

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