CN202886979U - Agricultural production remote monitoring and intelligent decision making system based on Internet of Things - Google Patents
Agricultural production remote monitoring and intelligent decision making system based on Internet of Things Download PDFInfo
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Abstract
The utility model relates to an agricultural production remote monitoring and intelligent decision making system based on Internet of Things, which comprehends facility agricultural production characteristics and use requirements of a user to develop based on a sensing technology, a communication technology, a computer technology and a network technology. A system software part adopts C/S (Counts per Second) mode development and comprises a client and a server side. The system comprises a data collection system, a wireless gateway, a GPRS (General Packet Radio Service) network, a computer client, a cell phone client, a server, a water pump and a roller shutter machine. The system can automatically collect soil temperature, soil humidity, air temperature, air humidity, illumination strength and CO2 concentration information of a facility environment and store the information in a server database. The agricultural production remote monitoring and intelligent decision making system can realize real-time data display; and when an environment condition does not accord with crop growth, sound alarming, dynamic pattern alarming and cell phone short message alarming functions can be realized.
Description
Technical field
The utility model relates to sensing technology, mechanics of communication, computer technology, network technology, and the agricultural that relates to computer technology is used, particularly based on agricultural production remote monitoring and the intelligent decision of Internet of Things.
Background technology
Industrialized agriculture is to adopt facility, engineering and the administrative skill with ad hoc structure and performance, improve or the creation local environment, for keeping-freshness storage of plant husbandry, aquaculture and products thereof etc. provides the environmental baselines such as relatively controllable optimal temperature, humidity, illuminance, to taking full advantage of soil, weather and biotic potential, break away to a certain extent the dependence of physical environment and the agricultural of effective production of carrying out.It is the novel mode of production that obtains fast-growing, high yield, high-quality, efficient agricultural product, is that countries in the world are in order to provide the technical measures of fresh produce.Different by main body, industrialized agriculture can be divided into facility cultivation and facility cultivation.At present, world's industrialized agriculture oneself through developing into higher level, formed complete technology, complete facilities and equipment and production standard, and to robotization, intellectuality, networking and wireless penetration future development.Development along with ethernet communication technology, wireless sensor network technology and embedded technology, increasing new technology is applied to the agricultural automation field, be applied in the middle of the Agricultural Monitoring field, and a lot of new technology has demonstrated good adaptability and development prospect.
China's industrialized agriculture research starts from the later stage eighties 20th century, and the development through decades has obtained remarkable achievement.But relatively advanced country compares with industrialized agriculture, still has larger gap.In addition, in the modern process of China's industrialized agriculture, also be faced with a bottleneck finish that can't break through for a long time, on the one hand, Experience in Development according to the developed countries industrialized agriculture, to the environmental baseline of agricultural facility inside carry out automatic monitoring be in the industrialized agriculture modernization must be through one of approach, for this reason, China various places have been introduced one after another some external advanced chamber facilities and have been carried out Demonstration And Extension, to promote the development of China's industrialized agriculture.On the other hand, because the huge price scissors that exists for a long time between Chinese industrial products and the agricultural products, cause the investment equilibrium point on agricultural facility to be in harsh level, the technology that cost is slightly high and system just can not get actual use because producing Net economic benefit; And China peasant's cultural scientific and technological level also exists the quite poor distance compared with developed countries, therefore the technology that operating personnel's scientific and technological level is had relatively high expectations and system can't be accepted and promote by common peasant; Again, the extensive tradition of China's agriculture production environment and personnel operation also has special requirement to the durability of agricultural high-tech facilities and equipment.Therefore, research and development have with low cost, high in technological content, the industrialized agriculture environment automatic monitored control system that applicability is strong of independent intellectual property right, being a key of China's modern facilities agricultural, also is that China pushes forward building Socialist New comprehensively, greatly develops an urgent demand of industrialized agriculture.
Summary of the invention
The utility model is for the problems referred to above, and complex agricultural production characteristics and user's user demand based on sensing technology, mechanics of communication, computer technology, network technology, has been developed industrialized agriculture monitoring and early warning system based on Internet of Things.
The utility model is taked following technical scheme:
A kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things, described system comprises: data acquisition system (DAS), radio network gateway, GPRS network, client computer, server and mobile phone, water pump, shutter.
A kind of data acquisition system (DAS) is for being the wireless self-networking system based on the zigbee module of independent research, the collection content comprises: soil temperature and humidity, aerial temperature and humidity, illumination and CO2 concentration, by the MANET form, the information that gathers is sent to gateway, and gateway is sent to server by GPRS network with data.
A kind of server can be finished Real-Time Monitoring and the SMS early warning of the environment such as warmhouse booth, and finish the control of shutter, water pump for data interaction and maintenance responsible and Internet of things hardware and client, is whole system data receiver and processing enter.The main system-oriented keeper of this system and maintainer.This software function comprises: the hardware receive data, and can realize the Real-Time Monitoring of soil temperature and humidity, aerial temperature and humidity, illumination and CO2 concentration, and record the hardware device duty, and deposit data in database; When the user has demand, link to each other by client and server, this system can return to the user with the historical data in real time data and the database, for the user provides data, services; When the data that monitor surpass system thresholds, send warning, showing with the dynamic image form should be unusual, and the user mobile phone that warning message is arrived with the note form; Acceptance realizes controls such as shutter, water pumps from the instruction of client, realizes ventilation, irrigation automation.
A kind of client computer is that operating terminal is monitored agricultural production process.This system is mainly towards peasant household and scientific and technical personnel.By logging on system server, can realize long-range booth intelligent monitoring.Function comprises: accept the Real-time Monitoring Data of server end transmission, to Real-Time Monitoring and the hardware device status monitoring of the soil temperature and humidities such as warmhouse booth, aerial temperature and humidity, illumination and CO2 concentration; The user can set up parameter threshold on their own according to the requirement of Different Crop to environment, when Monitoring Data surpasses setting threshold, sends audio alert information, and dynamically shows this abnormity point, and prompting user has unusual generation; By access server, can check the historical data in a certain period, make things convenient for user management; When needs ventilation, irrigation etc., the user can sending controling instruction to server, automatic ventilation and irrigation task are finished in the equipment work such as control shutter, water pump.
A kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things uses flow process to comprise:
One, data acquisition system (DAS) environmental parameters such as the soil moisture, soil moisture, air themperature, air humidity, intensity of illumination and CO2 concentration in the environment such as Real-time Collection booth regularly, and by the MANET form data that collect are sent to gateway device.Simultaneously sensor assembly also sends to gateway with self battery electric quantity information.
Two, server end is accepted the in real time data of transmission from gateway, is stored in the database, for follow-up data analysis, demonstration and inquiry.
Three, server is judged according to the various environmental parameters that transmit, and when surpassing the threshold value of user's setting, carrying out the demonstration of sound and dynamic image form should be unusual, and can realize SMS alarm, and the notice user environment is unusual.The keeper also can manually manage, and carries out short-message cluster-sending, the information such as prompting growing state.
Four, the duty of the equipment such as server monitoring sensor, shutter and water pump, and job information sent to client.
Five, the user uses client to sign in to server by the internet, and by graphical user interface, the real time inspection environmental information realizes must monitoring booth etc.
Six, according to environmental parameter, after client is carried out data processing judgement, can realize the switch of shutter and water pump, realize ventilating and irrigation function; The user also can be by sending instruction control shutter and pump working to server.
Seven, the status information of equipment that sends according to server can the watch-dog state.
The utility model has overcome traditional booth wiring difficulty, high in cost of production defective based on agricultural production remote monitoring and the intelligent decision system of Internet of Things, has realized wireless networking.Realized real-time data acquisition by Internet of Things, by grasping these environmental parameters and analyzing and processing, and can implement automatic irrigation and ventilation, guarantee in the optimum environment of plant growth, reach the purpose to targeted environment remote monitoring and early warning, enhance productivity, reduce labor intensity, promote the efficiency of management.
Description of drawings
Fig. 1 is a kind of based on the agricultural production remote monitoring of Internet of Things and the one-piece construction figure of intelligent decision system of embodiment of the present utility model.
Fig. 2 is that embodiment of the present utility model is a kind of based on the agricultural production remote monitoring of Internet of Things and the server side functionality figure of intelligent decision system.
Fig. 3 is that embodiment of the present utility model is a kind of based on the agricultural production remote monitoring of Internet of Things and the client functionality figure of intelligent decision system.
Embodiment
Industrialized agriculture monitoring and early warning system based on Physical Network mainly comprise 3 parts: the sensor group of data acquisition, the client of user-operable, the client of keeper's operation.
The one-piece construction figure of embodiment of the present utility model has been described as shown in Figure 1.In Fig. 1, a kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things comprises m booth 1, Zigbee network 2, gateway unit 3, GPRS network 4,5, server 6, internet 7, n terminal 8, k mobile phone terminal 9.Wherein, p independent research integrated type sensor of booth 1 interior installation, include soil temperature sensor, soil humidity sensor, air temperature sensor, air humidity sensor, CO2 concentration sensor, intensity of illumination sensor, and by Zigbee network 2 MANET forms with the real time data that collects, and the sensor self information is sent to gateway unit 3; Roller shutter controller and water pump controller also are installed in the booth 1; Gateway unit 3 is crossed GPRS network with data communication device data is sent to server 6, and server 6 stores data in the server into, the line number of going forward side by side according to one's analysis with processing, judge whether to meet alert if, as meet and then carry out dynamic image, sound and short message of mobile telephone for alarm; Server 6 can carry out sending short messages in groups, and transmission information, transmission record etc. is carried out record; Terminal is installed client software, and is connected through the internet to server, can carry out the inquiry of historical data, and real time data shows, when warning message is arranged, reports to the police by dynamic image and sound; By data analysis, when needing irrigation and ventilation, then by internet 7 instruction is sent to server 6, server 6 sends to gateway 3 by GPRS network 4 with control information, gateway 3 is sent to roller shutter controller or water pump controller in the booth by Zigbee network with control information, ventilates or irrigates; Terminal 8 can carry out the sensor alarm threshold value and arrange and the watch-dog state; Mobile phone terminal 9 is connected with server by GPRS network, can realize that real time data shows, sends order by GPRS network to server 6, can realize controlling roller shutter and water pump.
As shown in Figure 2, server side functionality of the present utility model has been described, the main system-oriented keeper of this system and maintainer.In Fig. 2, a kind of agricultural production remote monitoring and intelligent decision system server end general function based on Internet of Things is as follows:
The inquiry of historical data module: after the data that collect deposit database in, can be by the time enquiry of historical data, comprise the soil moisture, soil moisture, air themperature, air humidity, intensity of illumination and CO2 concentration information, can show account of the history with change curve, also can show by the form of bivariate table, can supply system manager's reference.
The real time data display module: the soil moisture that Real-time Collection arrives, soil moisture, air themperature, air humidity, intensity of illumination and CO2 concentration information, can show in real time, and show in real time sensor electric weight information, can't work in case the sensor electric weight is low.
The sending short messages in groups module: the keeper can carry out sending short messages in groups to the user, can carry out sending short messages in groups by areal, can by cultivar same subscriber bulk SMS, also can customize and carry out sending short messages in groups.
Warning module: after the data of Real-time Collection surpass the environmental threshold value of user's setting, can report to the police by dynamic image mode, audible alarm form, SMS alarm mode, the prevention environmental information surpasses threshold value, and is unfavorable to plant growth.
Short message sends log pattern: transmission manages to short message, comprises sending successful daily record, sends the functions such as failed daily record and note repeating transmission.
As shown in Figure 3, server side functionality of the present utility model has been described, the main system-oriented keeper of this system and maintainer.This client comprises computer client and cell-phone customer terminal.
In Fig. 3, a kind of agricultural production remote monitoring and intelligent decision system computer client general function based on Internet of Things is as follows:
The system login module: use for making things convenient for peasant household, it is that user name is logined that native system adopts peasant household's cell-phone number, can return from server the position of this peasant household after logging in, and the Back ground Informations such as kind plant etc. show.
The inquiry of historical data module: by access server, can to user's the facility query history information such as booth, comprise the soil moisture, soil moisture, air themperature, air humidity, intensity of illumination and CO2 concentration information etc.Realization with curve form and two-dimensional data table shows, can import among the Excel simultaneously, further operates for the user.
Real time data display module: pass through access server, can with Real-time Collection to the soil moisture, soil moisture, air themperature, air humidity, intensity of illumination and CO2 concentration information return to the user, can show in real time, and show in real time sensor electric weight information, can't work in case the sensor electric weight is low.
Device control module: but the automatic control of finishing equipment and manually control.After judging according to the real time data of returning, the situations such as, lack of water too high when occurrence temperature need to ventilate and when irrigating, can send to server the control information of shutter and water pump, return to gateway by server, gateway returns to corresponding controller, automatic ventilation and irrigation; The user also can operate according to actual conditions.
Parameter arranges module: not too crop to environmental requirements such as temperature, humidity, illumination not too, for flexible operating, the user can set up mxm. and the minimum of the soil moisture, soil moisture, air themperature, air humidity, intensity of illumination and CO2 concentration on their own, and these improve the data basis for warning module.
Device state module: but the watch-dog state comprises sensor, water pump, shutter etc., the traceable equipment working state of user.
In Fig. 3, a kind of agricultural production remote monitoring and intelligent decision system cell-phone customer terminal general function based on Internet of Things comprises that real time data shows, equipment is controlled and the monitoring of tools function.
Be preferred embodiment of the present utility model in sum, be not to limit practical range of the present utility model, different according to network condition, gateway device can be replaced by ethernet gateway or GPRS gateway, the utility model also can be practical in the LAN (Local Area Network) scope, all equivalences according to doing in the application's claim change and modify, and all should be technology category of the present utility model.
Claims (7)
1. agricultural production remote monitoring and intelligent decision system based on an Internet of Things is characterized in that, just comprise: a data collecting unit, can real-time data collection, and by the MANET form by the zigbee transmitted data on network; A gateway device, can the receive data collecting unit data come of transmission, upwards be sent to server, but the also data come of reception server are sent to the control sensor downwards; A server, main system-oriented keeper and maintainer can deposit the data of Real-time Collection in database; A client comprises cell-phone customer terminal and computer client, and friendly graphic interface is provided, mainly towards peasant household and scientific and technical personnel.
2. a kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things as claimed in claim 1 is characterized in that, between data acquisition unit and gateway device in agricultural facility such as the booth, communicate by wireless network.
3. a kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things as claimed in claim 1, it is characterized in that, described data acquisition unit comprises soil temperature sensor, soil humidity sensor, air temperature sensor, air humidity sensor, CO2 concentration sensor, intensity of illumination sensor.
4. a kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things as claimed in claim 1 is characterized in that, comprise at least a server, finish data and preserve, and provide service for client; This server side functionality comprises: real time data shows, the inquiry of historical data, and warning function, sending short messages in groups and note send journal function.
5. a kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things as claimed in claim 1 is characterized in that, can comprise several clients; This client comprises cell-phone customer terminal and computer client.
6. a kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things as claimed in claim 5, it is characterized in that, computer client is passed through internet connection server, can realize that real time data shows, the inquiry of historical data, warning function, equipment control function, parameter setting and device status monitoring function.
7. a kind of agricultural production remote monitoring and intelligent decision system based on Internet of Things as claimed in claim 5 is characterized in that, cell-phone customer terminal can realize that by the GPRS network connection server real time data shows, equipment is controlled and the monitoring of tools function.
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2012
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