KR20100023443A - System for monitoring the rearing environment using the renewable energy - Google Patents

Abstract

PURPOSE: A monitoring system for growth environment using substitution energy for establishing growth environment information and production history information system is provided to use for a long time without changing battery and to use an auxiliary power unit instead of battery. CONSTITUTION: A monitoring system of condition recognition for growth environment comprises a sensing system and integrated control system. The sensing system comprises a solar heat or wind power generator to drive a sensor and sensor node which senses growth condition selected among temperature, moisture, wind direction and wind powder. The integrated control system is connected to a production information recording system comprising a terminal and server to transmit production information selected from manure/fertilizer application information, weed control information, and thinning information.

Description

Context-aware growth environment monitoring system using alternative energy {SYSTEM FOR MONITORING THE REARING ENVIRONMENT USING THE RENEWABLE ENERGY}

The present invention obtains environmental information from inside and outside the primary industries of agriculture, fisheries, and livestock by using ubiquitous sensor network equipment, and processes primary data using alternative energy used as data to increase productivity by processing and analyzing the data. It is about agricultural, livestock and livestock growth environment information monitoring system.

The Ubiquitous Sensor Network (USN) processes and manages information by connecting information input through various sensors to external networks through the network in real time. Ultimately, it is to give computing and communication functions to all things to realize an environment that can communicate anytime, anywhere, regardless of network, device and service.

The sensor network consists of a sensor field composed of a sensor node and a set of sensor nodes configured with a sensor and a communication module that detects recognition information about an object or surrounding environment information in real time, and a sink receiving the information collected from the sensor field. And a gateway for routing the information transmitted from the sink node to the management server through the broadband communication network.

The sensor node and the sink node may be connected to an existing infrastructure such as satellite communication, wireless LAN, Bluetooth, and wired Internet through a gateway.

At this time, the configuration of a general sensor node includes a program storage unit storing a driving program, a wireless communication unit, a control unit, a power supply unit for supplying driving power of the sensor node, a sensing unit, and a signal processing unit for processing a sensing signal.

In this case, due to the characteristics of the sensor node that operates mainly with limited battery power, hardware is composed of low power devices because low power consumption is a matter to be considered in design when configuring the sensor node. It consists of a communication element and a peripheral circuit.

On the other hand, even if the hardware of the sensor node is configured by the low power device, since the effective use of the finite power is directly connected to the life of the sensor network, the operating system, if possible, to maintain most of the sensor node operating time in an idle state. Design protocols, etc.

The sensing information is obtained from each node in a short active state, not in the dormant state of these nodes, and transferred to the sink node or the management server.

Periodic state repetition of dormancy and activity corresponds to on / off control of a wireless communication device for data transmission and reception at the sensor node, and most power consumption is known to be due to data transmission and reception of the wireless communication device.

Low power consumption is preferred for any application in selecting sensor elements to obtain sensing information.

Basically, large capacity battery power is supplied, or in addition to the main battery, there must be additional methods to provide energy even during operation, especially in solar energy and node mounting environments. Highly consuming sensors can be used.

 The sensor network that utilizes fragmentary sensing information on the relatively advanced sensor such as temperature, humidity, and illuminance can sufficiently detect and determine the desired event by simply acquiring the sensing value, but various environments on the road where the sensor network is installed Considering the acquisition of sensing information in, special signal processing is required for specific sensing information.

As the sensing data is processed centrally, the high volume of network traffic in the network is generated due to the transfer of a large amount of sensing information or redundant sensing information in the sensor network, which leads to an increase in power consumption, thereby shortening the lifespan of the sensor network.

As the purpose of specific event detection requires the basis of later accurate state transition observation and accurate situation determination, even more sensitive or large amount of data is required even if the sensing information such as sensing information for event detection is needed. In addition to the sensing information used to detect an event occurrence, additional types of sensors and sensing information about the same may be required.

Accordingly, in order to obtain sophisticated sensing information, a sensor node with higher sensing capability is required. Therefore, a sensor node with high sensing signal processing function is preferred for distributed processing of special sensing signals, and abundant resources such as energy and other processing circuits are preferred. Should be equipped.

However, this is contrary to the characteristics of a wireless sensor network that consumes low power and has to operate for a long time, so a sensor node power supply capable of satisfying these requirements is required.

Therefore, an object of the present invention for solving the above problems is to use alternative energy to build a growth environment information and production history information system through its own power supply using solar energy and wind energy in the field of the primary industry difficult to supply power This is to provide a monitoring system for growing environment using cognitive situation.

In addition, an object of the present invention is to apply alternative energy to provide a profit structure and various services by applying a state-of-the-art system incorporating advanced IT technology and production structure changes in the primary industry, which becomes increasingly difficult through FTA and import liberalization. It is to provide a monitoring system for growing environment.

The present invention to solve the above problems is installed in the indoor and outdoor livestock farms to drive sensors and sensor nodes for measuring any one or more growth environment information of temperature, humidity, wind direction, wind speed, rainfall, solar or wind power generators A sensing system comprising an alternative energy generator configured; Receives the growth environment information transmitted from the sensing system and stores it in a database, and the situational growth using alternative energy, characterized in that it is composed of an integrated control system that is built a web server to monitor the growth environment information in real time Is achieved by environmental information monitoring system.

In addition, the present invention, the sensing system, the sensor comprising any one or more of a temperature sensor, humidity sensor, wind vane, anemometer, rainfall sensor; A sensor node that receives the growth environment information measured by the sensor and wirelessly transmits the signal using Zigbee communication; It is preferable that the gateway comprises a CDMA modem configured to receive the growth environment information from the sensor node and transmit it to the integrated control system.

In addition, according to the present invention, one side of the integrated control system is a terminal and server to deliver the production history information consisting of one or more of manure / fertilizer administration information, pesticide administration information, weeding information, thinning information for management of agricultural and livestock farms It is desirable to be connected to the production history information recording system consisting of

In addition, according to the present invention, one side of the integrated control system is preferably connected to the agricultural and livestock product traceability system consisting of a terminal and a server to deliver in real time the movement path tracking information of the agricultural and livestock products harvested from the agricultural and livestock farms

In addition, according to the present invention, the integrated control system and the internet network is connected to monitor any one of the sensing data, production history information, agricultural and livestock products history information stored in the database through the web server of the integrated control system It is preferable to further include a user terminal

In addition, according to the present invention, it is preferable that any one or more of the sensing data, production history information, agricultural and livestock product history information is transmitted through a wireless mobile communication terminal.

The situation-aware growth environment information monitoring system using the alternative energy of the present invention by the above-mentioned problem solving means can be used for a long time without replacing the battery by operating the USN equipment by receiving the power of solar or wind power generation, such as sudden discharge of the battery It can also be used as an auxiliary power source to keep the system stable when the system malfunctions due to external force.

Hereinafter, an embodiment of a situation-aware growth environment monitoring system using alternative energy of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the sensor and sensor nodes constituting the sensing system of the present invention is installed indoors and outdoors, such as farms, barns, farms, etc. corresponding to farms and livestock farms.

In other words, environmental information such as air temperature / humidity, soil temperature / humidity is collected inside the facility, and environmental information such as air temperature / humidity, soil temperature / humidity, sunshine, precipitation, and wind / wind velocity is collected outside the facility.

To this end, temperature sensors and humidity sensors are installed inside and outside the facility, respectively.

The temperature sensor is used to measure the indoor and outdoor temperature of the farm house, and receives the data input from the sensor board and transmits the temperature data to the gateway using Zigbee communication.

At this time, the specification of the temperature sensor is R25 = 10KOhm1% (25 degree no load resistance value), Measuring range: -50 ℃ ~ + 99 ℃, Integer: 3435K 1% (Calculated based on resistance between 25 degrees and 50 degrees), Heat dissipation Constant: 3mW / 1 degree (power required for 1 degree increase by self-heating in the stopped air), Insulation resistance: DC 500V insulation resistor, 100M Ohm when measuring between device connection and LEAD, withstand voltage: DC 12V / 1mA, consumption Power: has less than 6mA

The air humidity sensor is used to measure the humidity of the apple garden, grape house, low temperature warehouse, etc. Like the temperature sensor receives the data input from the sensor board and transmits the humidity data to the gateway using Zigbee communication.

At this time, the specification of the humidity sensor power consumption: Max. 1.3㎃, Measuring range: 0 ~ 100% RH (non-condensing), Power: DC 5V, Relative humidity: 0 ~ 100% RH, Accuracy: ㅁ 2% RH (at 25 ℃, 20% RH to 90% RH) , Response speed: 15 sec, Output voltage: 0.8 ~ 3.9V (at 25 ℃, 0 ~ 100% RH full scale), Working temperature: -40 ~ 85 ℃ (-40 ~ 185 ℉).

The rainfall sensor, which is installed outside the farmhouse, is used for apple tree watering by being installed in apple fields, etc., and receives watering information from the sensor board and transmits the data to the gateway using Zigbee communication to check whether the motor can operate normally. Figure out.

The rainfall sensor specifications are measured range: rainfall / snow / external temperature, pressure voltage: DC-24 ~ 30V, AC-17 ~ 20V, output type: relay contact, fixed rod: 25mm, weight: 450g, size: 170 ( H) * 120 (D) * 96 (W).

The wind direction / wind speed sensor is used to measure various house wind directions / wind speeds and receives data input from the sensor board to transmit wind speed data to the gateway using Zigbee communication.

The wind speed measurement range of the wind speed sensor is 0 to 60 m / sec, and the wind direction measurement range is 0 to 359 degrees.

The sensor mode is a Zigbee sensor node and is connected to the various sensors and data to transmit sensor data to the gateway using a relay node.

The gateway has a CDMA modem as a device for collecting data to transmit data to the integrated control system using a network.

The alternative energy generator produces and stores electric power through solar or wind power, and supplies power to sensors and sensor nodes of various livestock farms.

Alternatively, the sensor and sensor nodes may be operated by a battery to receive emergency power from the alternative energy generator.

The sensor system comprises a sensor field consisting of a sensor node consisting of a sensor and a communication module for detecting in real time the recognition information about the farm or livestock, and a sensor node of each farm house, and information collected from the sensor field. And a gateway for routing the information transmitted from the sink node and transmitting the information transmitted from the sink node to the integrated control system through the broadband communication network.

The sensor node and the sink node may be connected to an existing infrastructure such as satellite communication, wireless LAN, Bluetooth, and wired Internet through a gateway.

As shown in Figure 2, USN farm environment information monitoring system using alternative energy of the present invention is composed of a sensing system, production history information recording system, integrated control system, agricultural and livestock products traceability system, user terminal.

Real-time growth of air temperature / humidity, soil temperature / humidity, wind direction / wind speed, rainfall information, etc. generated in real time from the sensor 10 and the sensor node 11 of the farm animal husbandry operated by the alternative energy generator 12. Environmental information is transmitted to the integrated control system.

In addition, the production history information recording system is to transmit the production history information to the integrated control system (100).

At this time, the data of the sensing system and the production history information recording system are transmitted to the integrated control system through the CDMA communication network.

The production history information recording system 20 transmits manure / fertilizer administration information, pesticide administration information, weeding information, thinning information, and the like for agricultural livestock management through a wireless terminal of the user to the integrated control system.

The agricultural and livestock product traceability system 300 is establishing a server and a terminal to perform a real-time tracking of the agricultural and livestock products harvested from the agricultural and livestock livestock and transmit these data to the integrated control system.

The integrated control system 100 receives the agricultural and livestock house indoor and outdoor environment and the production history information for agricultural and livestock farm management and the traceability information of the agricultural and livestock livestock based on the sensing information, and stores them in the database 120.

In addition, a web server 110 is constructed so that a user can access the integrated control system 100 to check and utilize data stored in these databases.

The monitoring user checks the production history information at the livestock farm 200 for direct management of the growth environment and the history information, the distributor 220 to check the growth environment and the history information of the producer, the sales floor, and the production facility environment on the Internet. This confirms the consumer 230.

In addition, the livestock farm 200 may be provided with a text notification service through the mobile communication terminal 210 to check the growth environment and history information in real time.

Therefore, air temperature / humidity, soil temperature / humidity, rainfall, wind direction / wind velocity data are transmitted to the integrated control system in real time in the sensing system, and fertilizer administration information, pesticide administration information, weeding information, thinning information through the production history information recording system. Is transferred to the integrated control system.

In addition, agricultural and livestock product tracking data that is harvested and distributed through the agricultural and livestock product history tracking system is transferred to the integrated control system.

The transmitted sensing data, production history information, and traceability information are stored in the database of the integrated control system, and can be checked in real time by the person in charge of monitoring the growth environment or managing the history information.

1 is a block diagram of an alternative energy generator and sensing system of the present invention,

Figure 2 is an overall configuration diagram of a situation-aware growth environment monitoring system using alternative energy of the present invention.

* Description of the drawing symbols *

10: sensor 11: sensor node

12: alternative energy generator

20: production history information recording system 100: integrated control system

110: web server 120: database

Claims (6)

Installed in indoor and outdoor farms, sensing includes an alternative energy generator consisting of solar or wind power generators to drive sensors and sensor nodes that measure growth environment information of any one or more of temperature, humidity, wind direction, wind speed, and rainfall. System; Receives the growth environment information transmitted from the sensing system and stores it in a database, and the situational growth using alternative energy, characterized in that it is composed of an integrated control system that is built a web server to monitor the growth environment information in real time Environmental monitoring system. The method of claim 1, The sensing system includes a sensor composed of at least one of a temperature sensor, a humidity sensor, a wind vane, an anemometer, and a rainfall sensor; A sensor node that receives the growth environment information measured by the sensor and wirelessly transmits the signal using Zigbee communication; A situational cognitive growth environment monitoring system using alternative energy, comprising: a gateway configured to receive the growth environment information from the sensor node and transmit it to an integrated control system. The method of claim 1, One side of the integrated control system is a production history information consisting of terminals and servers to deliver production history information consisting of at least one of manure / fertilizer administration information, pesticide administration information, weeding information, thinning information for management of agricultural and livestock farms Situational growth environment monitoring system using alternative energy, characterized in that connected to the recording system. The method of claim 1, One side of the integrated control system is a situational cognitive growth environment using alternative energy, characterized in that it is connected to the agricultural and livestock product traceability system consisting of a terminal and a server to deliver in real time the movement path tracking information harvested from the agricultural and livestock livestock Monitoring system. The method of claim 1, Further comprising a user terminal connected through the integrated control system and the Internet network to monitor any one of the sensing data, production history information, agricultural and livestock products history information stored in the database through the web server of the integrated control system. Situational growth environment monitoring system using alternative energy. The method of claim 5, At least one of the sensing data, production history information, agricultural and livestock product history information is a situation in which the situation using the alternative energy, characterized in that it is transmitted through a wireless mobile communication terminal.

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