CN103399556A

CN103399556A - Intelligent greenhouse monitoring system architecture based on mobile terminal

Info

Publication number: CN103399556A
Application number: CN2013103478472A
Authority: CN
Inventors: 李洁; 邓永卓; 张保岩; 杨靖峰; 李小刚; 王姝逸; 刘伟; 吴众旺; 康双辉; 于健美
Original assignee: TIANJIN AGRICULTURAL INFORMATION CENTER
Current assignee: TIANJIN AGRICULTURAL INFORMATION CENTER
Priority date: 2013-08-09
Filing date: 2013-08-09
Publication date: 2013-11-20
Anticipated expiration: 2033-08-09
Also published as: CN103399556B

Abstract

The invention relates to an intelligent greenhouse monitoring system architecture based on a mobile terminal. The intelligent greenhouse monitoring system architecture comprises the mobile terminal, a remote server, and greenhouse environment acquisition devices arranged in greenhouses in different regions and different bases, wherein the mobile terminal comprises a first database, an engine module, a GIS module, a region module, a base module, a device module, a first wireless communication module and a terminal display module; a second database and a second wireless communication module are arranged in the remote server; each greenhouse environment acquisition device is equipped with a third wireless communication module; greenhouse environment information acquired by the greenhouse environment acquisition devices arranged in the greenhouses is sent to the second database in the remote server through the third wireless communication module, and is then displayed on the terminal display module under invocation of the device module in the mobile terminal. The system architecture, provided by the invention, enables a farmer and an agricultural sector to acquire environment information for the growing of crops in greenhouses in different regions and different bases anytime and anywhere.

Description

A kind of greenhouse intelligent supervisory system framework of movement-based terminal

Technical field

The present invention relates to a kind of areas of information technology, particularly a kind of greenhouse intelligent supervisory system framework of movement-based terminal.

Background technology

Hothouse production, as a kind of mode of agriculture of new high-efficiency high-quality, at home and abroad is used widely, and has been become the trend of various countries' agricultural development.For peasant household, only go to the scene, greenhouse could understand actual conditions, such as,, in greenhouse enteroception solar radiation situation, by the thermometer that arranges, record temperature in greenhouse etc. in greenhouse.And, agricultural sector is for grain and main farm produce Quantity Security Major Strategic target, extensive intellectual analysis and study of warning that the study emphasis crops produce, because of crops production region widely distributed, there are again numerous bases identical region, in same base, also can have one or more greenhouses, if will immediately grasp the situations such as environment, soil property of the crop growth in each greenhouse in the different bases of different geographical, so that it is carried out follow-up intellectual analysis and early warning, more difficult.Some greenhouse control systems are also arranged at present, but be all to monitor for the environment in some greenhouses, can't check according to the environment in different greenhouses, different geographical difference bases.In addition, be that peasant household or agricultural sector all can't accurately and targetedly grasp the environmental information of the crop growth in certain greenhouse whenever and wherever possible.

Summary of the invention

The present invention is directed to existing greenhouse control system and can't check the problem of the environment of crop growth in different greenhouses, the different bases of different geographical whenever and wherever possible, a kind of greenhouse intelligent supervisory system framework of simple to operate, open movement-based terminal is provided for peasant household and agricultural sector, and no matter peasant household or agricultural sector all can accurately and targetedly grasp under certain region the environmental information of the crop growth in certain greenhouse under certain base whenever and wherever possible.

Technical scheme of the present invention is as follows:

a kind of greenhouse intelligent supervisory system framework of movement-based terminal, it is characterized in that, comprise mobile terminal, far-end server and the greenhouse collecting device that arranges respectively in each greenhouse in the different bases of different geographical, described mobile terminal comprises the first database, engine modules, GIS module, district module, base module, EM equipment module, the first wireless communication module and terminal display module, be provided with the second database and the second wireless communication module in described far-end server, described greenhouse collecting device has the 3rd wireless communication module, described the first database and the second database all are positioned at bottom, described engine modules and GIS module all are positioned at the second layer adjacent with bottom, described district module, base module and EM equipment module are positioned at the 3rd layer, described the first wireless communication module, the second wireless communication module and the 3rd wireless communication module are positioned at the 4th layer, and described terminal display module is positioned at top layer, described engine modules with the data information transfer in the first database to district module, the base module, EM equipment module and the first wireless communication module, described GIS module is district module, base module and EM equipment module provide cartographic information, the greenhouse environment information that the greenhouse collecting device that arranges in greenhouse gathers is sent in the second database in far-end server and under the calling of the EM equipment module in mobile terminal and is presented at the terminal display module by the 3rd wireless communication module, described terminal display module is for passing through the disposition region module, the module directory structure of the multi-layer that the level of base module and EM equipment module is set up.

Described greenhouse collecting device comprises air temperature sensor, air humidity sensor, optical sensor and CO ₂Concentration sensor and be arranged at soil moisture sensor and soil temperature sensor in soil.

Described the 3rd layer also comprises the booth module, and the level of each module is followed successively by district module, base module, booth module and EM equipment module in described the 3rd layer.

The described second layer also comprises security module, and described security module comprises user right configuration module and log pattern.

Described the first database comprises system database and Service Database, described system database comprises the management data of whole system, described management data comprises authority configuration data and daily record data, and described Service Database comprises the business datum of each module in the 3rd layer and the GIS spatial information in the second layer.

Described engine modules comprises be connected with each module in the 3rd layer respectively comprehensive inquiry service unit, statistical report form service unit and event message management service unit.

Described terminal display module is touch or button, and described terminal display module comprises login page, system master interface, main contents page mother matrix, pop-up window mother matrix, Shipping Options Page framework and Shipping Options Page mother matrix; The module directory structure of described terminal display module is selected corresponding mother matrix in the user interface masterplate automatically according to the display position of each module in the 3rd layer.

Technique effect of the present invention is as follows:

the greenhouse intelligent supervisory system framework of movement-based terminal provided by the invention, comprise mobile terminal, far-end server and the greenhouse collecting device that arranges respectively in each greenhouse in the different bases of different geographical, mobile terminal comprises the first database, engine modules, the GIS module, district module, the base module, EM equipment module, the first wireless communication module and terminal display module, simultaneously each parts upwards are divided into multilayer successively successively from bottom, form multisystem structure, extensively being distributed in greenhouse collecting device in each greenhouse, each base, each region gathers after environmental information in greenhouse all by the communications between the 3rd wireless communication module and the second wireless communication module and stores to the second database in far-end server, under the technical support of engine modules and GIS module for mobile terminal, call district module by the terminal display module according to the level of setting up, base module and EM equipment module, trigger district module and carry out the region selection, trigger the base module and carry out the base selection under selected region, the trigger equipment module is carried out the selection of greenhouse collecting device under selected base, after selected monitoring greenhouse collecting device, the environmental information that the first database gathers by this greenhouse collecting device of storing in the second database that obtains far-end server of communicating by letter between the first wireless communication module and the second wireless communication module, this environmental information shows by the terminal display module of mobile terminal, no matter peasant household or agricultural sector all can directly check selected greenhouse environment information whenever and wherever possible, and the greenhouse that needn't come to various places personally is on-the-spot, make peasant household can directly inquire about the environmental information of the crop growth in each greenhouse that the own home is distributed in different geographical or base, the growing environment information of crops in each greenhouse in the different bases of different geographical can be checked by agricultural sector, in order to carry out Intelligent agricultural product information analysis and study of warning, can't check the problem of each greenhouse environment information in the different bases of different geographical whenever and wherever possible therefore the invention solves existing greenhouse control system, greenhouse intelligent supervisory system framework movement-based terminal of the present invention, have portable, the advantage easily of checking simple to operate, can realize the dynamic link of the greenhouse data of mobile terminal and far-end server, the real-time exhibition greenhouse environment information, can be used by agricultural sector, the peasant household that also can be generalized to basic unit uses, peasant household or agricultural sector can pass through operating mobile terminal whenever and wherever possible no matter, check arbitrarily each greenhouse environment information in different geographical or different bases, each greenhouse environment information is switching monitoring mutually.System of the present invention can realize the concentrated displaying of the environmental information that large tracts of land, different base, different greenhouse collecting device gather, and gathers, applies.In addition, each module in the 3rd layer in system architecture of the present invention can be carried out increase or the adjustment of level according to actual needs, therefore for the developer provides a kind of unification, open, extendible system architecture, Agricultural Information is utilized efficiently, reduced overlapping investment, reduce maintenance cost.

The greenhouse collecting device adopts air temperature sensor, air humidity sensor, soil temperature sensor, soil moisture sensor, optical sensor and CO ₂These parts of sensor carry out the collection of the environmental information in greenhouse, can collect illumination, the CO of crop growth ₂, air themperature and humidity, the soil moisture and moisture isothermal chamber environmental information, the multi-faceted environmental parameter information that the crop growth that can access in greenhouse is set of each sensor element, make peasant household or agricultural sector more comprehensively to grasp the environment in this greenhouse.

Description of drawings

Fig. 1 is the structural representation that the present invention is based on the greenhouse intelligent supervisory system framework of mobile terminal.

Fig. 2 is the structural representation of the mobile terminal in Fig. 1 of the present invention.

Fig. 3 is the preferred structure schematic diagram that the present invention is based on the greenhouse intelligent supervisory system framework of mobile terminal.

Fig. 4 a, Fig. 4 b, Fig. 4 c and Fig. 4 d are the working state figure of greenhouse intelligent supervisory system.

Embodiment

The present invention will be described below in conjunction with accompanying drawing.

The present invention relates to a kind of greenhouse intelligent supervisory system framework of movement-based terminal, its structural representation as shown in Figure 1, comprises mobile terminal 1, far-end server 2 and the greenhouse collecting device 3 that arranges respectively in each greenhouse in the different bases of different geographical.Wherein, each greenhouse collecting device 3 all has the 3rd wireless communication module, be provided with the second database and the second wireless communication module in far-end server 2, the communications that the growing environment information exchange that greenhouse collecting device 3 gathers crops in greenhouses is crossed between the 3rd wireless communication module and the second wireless communication module is stored to the second database in far-end server 2.The structure of mobile terminal 1 as shown in Figure 2, comprise the first database, engine modules, GIS module, district module, base module, EM equipment module, the first wireless communication module and terminal display module, engine modules is connected with EM equipment module with the first database, district module, base module respectively with the GIS module, district module, base module and EM equipment module all are connected with the first wireless communication module, and the first wireless communication module is connected with the terminal display module.because greenhouse is not centralized deployment, it can be distributed in different geographical, be distributed with different bases under each region, be deployed with different greenhouses under each base, district module provides different geographical to select, the base module provides the base under certain region to select, EM equipment module provides the selection of the greenhouse collecting device under certain base, engine modules and GIS module are all be used to technical support is provided, engine modules with the data information transfer in the first database to district module, the base module, EM equipment module and the first wireless communication module, the GIS module is district module, base module and EM equipment module provide cartographic information, the terminal display module is for passing through the disposition region module, the module directory structure of the multi-layer that the level of base module and EM equipment module is set up.mobile terminal is under the technical support of engine modules and GIS module, call district module by the terminal display module according to the level of setting up, base module and EM equipment module, trigger district module and carry out the region selection, trigger the base module and carry out the base selection under selected region, the trigger equipment module is carried out the selection of greenhouse collecting device under selected base, after selected monitoring greenhouse collecting device, the environmental information that the first database gathers by this greenhouse collecting device of having stored in the second database that obtains far-end server of communicating by letter between the first wireless communication module and the second wireless communication module, this environmental information is shown by the terminal display module.

The greenhouse intelligent supervisory system framework that the present invention is based on mobile terminal adopts multi-layer framework, priority structure schematic diagram as shown in Figure 3, upwards comprise successively data Layer, system services layer, operation layer, Communication Layer and mechanical floor from bottom, be respectively in other words conj.or perhaps bottom, the second layer, the 3rd layer, the 4th layer and top layer.The first database and the second database all are positioned at bottom, engine modules and GIS module all are positioned at the second layer adjacent with bottom, district module, base module and EM equipment module are positioned at the 3rd layer, the first wireless communication module, the second wireless communication module and the 3rd wireless communication module are positioned at the 4th layer, the terminal display module is positioned at top layer, in addition, far-end server and each greenhouse collecting device also are positioned at top layer and are equivalent to mechanical floor.

The greenhouse collecting device preferably can comprise air temperature sensor, air humidity sensor, optical sensor and CO ₂Concentration sensor and be arranged at soil moisture sensor in soil and the parts such as soil temperature sensor carry out the collection of the environmental information in greenhouse, specifically can collect illumination, the CO of crop growth ₂, air themperature and humidity, the soil moisture and moisture isothermal chamber environmental information, namely obtain the multi-faceted environmental parameter information of the crop growth in greenhouse, make the detailed environmental information in peasant household or agricultural sector's Real Time Monitoring greenhouse, the environment in this greenhouse is more comprehensively grasped.

The district module of the 3rd layer, base module and EM equipment module are positioned at the 3rd layer and are equivalent to operation layer, and the engine modules of the second layer and GIS module are the equal of system services layer.Form unified, service-oriented interface bus between system services layer and operation layer, data, information to the greenhouse intelligent supervisory system use the WebService mode that the interface of information service unifiedly and flexibly is provided, and make system have good consistance, extensibility.

The 3rd layer comprises district module, base module and EM equipment module as operation layer, can also comprise the booth module, this booth module can be arranged between base module and EM equipment module, and namely the level of each module can set gradually as district module, base module, booth module and EM equipment module in the 3rd layer.This operation layer major function is the information display of greenhouse, the user can select to want the greenhouse of checking by querying conditions such as region, base, booths, checks the environmental datas such as soil temperature and humidity, aerial temperature and humidity, carbon dioxide, illumination in this greenhouse by obtaining data that in greenhouse, corresponding greenhouse collecting device gathers.Trigger district module and carry out the region selection, the district title of returning such as far-end server, inquire about and enter viewing content under corresponding district by the district title, the working state figure of the greenhouse intelligent supervisory system of the movement-based terminal as shown in Fig. 4 a, also can be understood as is the working state figure of district module; Trigger the base module and carry out the base selection under selected region, comprise the inquiry in base and enter corresponding base and check details, such as according to the district title, from far-end server, inquiring all base titles under this district and with the form of list, show, the working state figure of the greenhouse intelligent supervisory system of movement-based terminal as shown in Figure 4 b, also can be understood as is the working state figure of base module; Trigger the booth module and carry out the booth selection under selected base, comprise the inquiry of booth and enter corresponding booth and check details, such as according to the base title, from far-end server, inquiring booth titles all under this base; The trigger equipment module is carried out the selection of greenhouse collecting device under selected booth, comprise the inquiry of greenhouse collecting device and enter corresponding equipment and check details, such as according to the booth title, from far-end server, inquiring greenhouse collecting device titles all under this base and with the form of list, show, the working state figure of the greenhouse intelligent supervisory system of the movement-based terminal as shown in Fig. 4 c, also can be understood as is the working state figure of EM equipment module.According to next base, district next temperature details of next equipment of selecting, final determine the environmental information of the crop growth that gathers of the greenhouse collecting device that will immediately check, the working state figure of the greenhouse intelligent supervisory system of the movement-based terminal as shown in Fig. 4 d, show greenhouse details data.

It is the technical support layer of system that system services layer can be regarded as, and institute works and comprises statistics engine service, GIS service, security service etc., for system business, processes specialized serviced component is provided.The GIS module provides Map Services information for district module, base module, booth module and EM equipment module, and it is the numerical map information on services of 1:10000 that engineer's scale preferably can be provided.Engine modules can comprise be connected with each module in the 3rd layer respectively comprehensive inquiry service unit, statistical report form service unit and event message management service unit.The comprehensive inquiry service unit provides the comprehensive inquiry engine, by the query configuration instrument is provided, the information such as peasant household or agricultural sector also can the self-defined inquiry contents, querying condition parameter, generate specific information retrieval interface, after system user given query parameter value, just can get desired data, general, easy, quick.The statistical report form service unit provides the statistical report form engine, and while checking form, the prompting user inputs the query argument of form, and system is obtained data from database according to parameter, generate final report display to the user.Event message management service unit provides the event message management engine, by system event message arrangement management, can the define system event, and comprise and distribute unique Case Number, event source information to check, process the event informations such as address, handler.provide engine service and GIS module to provide the GIS service at system services layer except comprising engine modules, can also comprise the service management unit that is connected with each module in the 3rd layer respectively and security module so that the security of system service further to be provided, security module comprises that user right configuration module and log pattern provide respectively user right service and Log security service, by service management unit, system user is managed, each parts to the operation layer of connecting system manage, display properties and the Authorization Attributes of module can be set, define system role and message reference thereof and information operating authority, then distribute corresponding system actor to system user, thereby realize the flexible configuration that System Privileges distributes, and Authority Verification service when unified operation is provided in framework, realize authentication, operation interface shows control etc., realize multi-level, omnibearing Authority Verification, guarantee the security of whole system information from the application system aspect.

The first database and the second database all are positioned at bottom as data Layer, the first database comprises system database and Service Database, and wherein, system database comprises the management data of whole system, normally move with safeguards system, as user data, permissions data etc.Service Database comprises the business datum of each module in the 3rd layer and the GIS spatial information in the second layer, it is also understood that to be to comprise the application datas such as statistics when the user carries out application operating to Back ground Information, regular data.Data Layer is to save as core with data, sets up taxonomy database, realize information resources integration, share and unified management, be the integrated data basis that provides of information flow, Business Stream and knowledge flow, for safety management with trace to the source information service is provided.Need to make overall planning, seek unity of standard, share out the work and help one another, build database cluster, realize the integration of information resources and share, avoid overlapping construction and the wasting of resources that the standard disunity causes.

The first wireless communication module, the second wireless communication module and the 3rd wireless communication module are positioned at the 4th layer as Communication Layer, and Communication Layer is supported the several data transmission mode, and efficient, safe data exchange channels is provided.The multiple communication modes such as GPRS as shown in Figure 3,3G, WIFI, Internet, Intranet and GNSS.The terminal display module is mechanical floor shown in Figure 3, it is the module directory structure of the multi-layer set up for the level of adjusting each module in operation layer by configuration, as shown in Figure 3, this mechanical floor can articulate multiple mobile terminal, automatically complete the data-switching of various forms with mutual, the terminal display module can be touch or button.The terminal display module comprises login page, system master interface, main contents page mother matrix, pop-up window mother matrix, Shipping Options Page framework and Shipping Options Page mother matrix; The module directory structure of described terminal display module is selected corresponding mother matrix in the user interface masterplate automatically according to the display position of each module in the 3rd layer, make user interface have abundant expression forms, flexible configuration, the unified characteristics of style, thereby diversity, the consistance of whole application system user (asu) operation interface have been guaranteed, friendly customization interface, orderliness is clear, the entry that tree state logic lists is very clear, for the user provides good operating experience.

the present invention is based on the greenhouse intelligent supervisory system framework of mobile terminal, can be for the demand of crops in greenhouse production information region and system mobile, can be at portable intelligent mobile terminal (mobile phone, PAD, PDA etc.) on basis, adopt the Embedded GIS technology, the Gson technology, the asynchronous task technology, the J2EE technology, sorting technique, the gordian techniquies such as data acquisition process technology, by setting up the C/S structure, and mobile terminal and far-end server are directly mutual by wireless networks such as 2G/3G/WIFI, make the environmental data of the crops production in each greenhouse in the different bases of different geographical all can obtain the related data content from far-end server, realize the dynamic link of the greenhouse data of mobile terminal and far-end server, the real-time exhibition greenhouse environment information, being shown to the user whenever and wherever possible by mobile terminal sees, can be to the environment of crop growth in greenhouse, soil property, air humidity, temperature etc. are carried out Real Time Monitoring, can further to the Crops in Applying Fertilizer situation, give appropriate fertilising scheme, therefore the greenhouse intelligent supervisory system framework that the present invention is based on mobile terminal by foundation can also increase the output of crops, improve the income of peasant household.

Should be pointed out that the above embodiment can make the invention of those skilled in the art's comprehend, but do not limit the present invention in any way creation.Therefore; although this instructions has been described in detail the invention with reference to drawings and Examples; but; those skilled in the art are to be understood that; still can modify or be equal to replacement the invention; in a word, all do not break away from technical scheme and the improvement thereof of the spirit and scope of the invention, and it all should be encompassed in the middle of the protection domain of the invention patent.

Claims

1. the greenhouse intelligent supervisory system framework of a movement-based terminal, it is characterized in that, comprise mobile terminal, far-end server and the greenhouse collecting device that arranges respectively in each greenhouse in the different bases of different geographical, described mobile terminal comprises the first database, engine modules, GIS module, district module, base module, EM equipment module, the first wireless communication module and terminal display module, be provided with the second database and the second wireless communication module in described far-end server, described greenhouse collecting device has the 3rd wireless communication module, described the first database and the second database all are positioned at bottom, described engine modules and GIS module all are positioned at the second layer adjacent with bottom, described district module, base module and EM equipment module are positioned at the 3rd layer, described the first wireless communication module, the second wireless communication module and the 3rd wireless communication module are positioned at the 4th layer, and described terminal display module is positioned at top layer, described engine modules with the data information transfer in the first database to district module, the base module, EM equipment module and the first wireless communication module, described GIS module is district module, base module and EM equipment module provide cartographic information, the greenhouse environment information that the greenhouse collecting device that arranges in greenhouse gathers is sent in the second database in far-end server and under the calling of the EM equipment module in mobile terminal and is presented at the terminal display module by the 3rd wireless communication module, described terminal display module is for passing through the disposition region module, the module directory structure of the multi-layer that the level of base module and EM equipment module is set up.

2. the greenhouse intelligent supervisory system framework of movement-based terminal according to claim 1, is characterized in that, described greenhouse collecting device comprises air temperature sensor, air humidity sensor, optical sensor and CO ₂Concentration sensor and be arranged at soil moisture sensor and soil temperature sensor in soil.

3. the greenhouse intelligent supervisory system framework of movement-based terminal according to claim 1 and 2, it is characterized in that, described the 3rd layer also comprises the booth module, and the level of each module is followed successively by district module, base module, booth module and EM equipment module in described the 3rd layer.

4. the greenhouse intelligent supervisory system framework of movement-based terminal according to claim 1 and 2, is characterized in that, the described second layer also comprises security module, and described security module comprises user right configuration module and log pattern.

5. the greenhouse intelligent supervisory system framework of movement-based terminal according to claim 4, it is characterized in that, described the first database comprises system database and Service Database, described system database comprises the management data of whole system, described management data comprises authority configuration data and daily record data, and described Service Database comprises the business datum of each module in the 3rd layer and the GIS spatial information in the second layer.

6. the greenhouse intelligent supervisory system framework of movement-based terminal according to claim 1 and 2, it is characterized in that, described engine modules comprises be connected with each module in the 3rd layer respectively comprehensive inquiry service unit, statistical report form service unit and event message management service unit.

7. the greenhouse intelligent supervisory system framework of movement-based terminal according to claim 1 and 2, it is characterized in that, described terminal display module is touch or button, and described terminal display module comprises login page, system master interface, main contents page mother matrix, pop-up window mother matrix, Shipping Options Page framework and Shipping Options Page mother matrix; The module directory structure of described terminal display module is selected corresponding mother matrix in the user interface masterplate automatically according to the display position of each module in the 3rd layer.