CN205656488U - Plant species plants monitored control system - Google Patents
Plant species plants monitored control system Download PDFInfo
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- CN205656488U CN205656488U CN201620113654.XU CN201620113654U CN205656488U CN 205656488 U CN205656488 U CN 205656488U CN 201620113654 U CN201620113654 U CN 201620113654U CN 205656488 U CN205656488 U CN 205656488U
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Abstract
The utility model relates to an intelligent monitoring technology field, concretely relates to plant species plants monitored control system, including data acquisition device, terminal and high in the clouds server, the data acquisition device passes through the terminal is with the data information transmission high in the clouds server of gathering, the high in the clouds server transmits the data information processing who receives to the terminal for data construction, the data acquisition device includes camera, temperature sensor, humidity transducer, light light intensity sensor, GPS location chip and angular transducer. The utility model discloses the data message that the data acquisition device was gathered is further done through the terminal and is planted landmass sufficiency inquiry, the inquiry of nursery stock selection criteria, farm method inquiry, is sought help on line, can effectual help user when planting external species such as queensland nut adaptation to local conditions obtain the most suitable solution, easy operation.
Description
Technical field
This utility model relates to intelligent monitoring technology field, is specifically related to a kind of plant growing monitoring system.
Background technology
Plant (trees, flowers, vegetable, nut, grain) is beautified the environment as people and meets the needs having enough to eat and wear, and people put into huge energy financial resources and study plant.Understand plant optimum growh environment, promote the work that plant growing efficiency is professional, for more preferable more understanding plant optimum growh environmental datas, need great amount of samples to research.Owing to China region is wide, natural conditions vary, the industry situation of various places agricultural is also huge with regard to difference, various places must be in conjunction with local climate, soil, the natural environment tissues such as water quality have the agricultural production of local characteristic, even same agricultural varietie, the agronomy used in different region growths also varies, only calmodulin binding domain CaM agricultural production conditions, regional agriculture is carried out management and the regulation and control for the treatment of in accordance with local conditions, and the agricultural in each area has multiple industry situation to produce simultaneously, the industry situation only combining local different agriculturals carries out difference management, the maximization of compartmentalization agricultural income could be obtained.
Macadimia nut (Macadamia integrifolia), belongs to Proteaceae four seasons aiphyllium, has another name called Australia Semen Juglandis, Hawaii nut, originates in Queensland, Australia, belongs to the torrid zone, subtropical crop.Owing to it is nutritious, delicious and tasty, it is the one that nuts Middle nutrition is worth and price is the highest, is described as " king of nut ".Whole world current production rate is only capable of meeting the 10% of demand, the state that is in that supply falls short of demand.Yunnan Province's plant growing area is more than 1,400,000 mu at present, accounts for more than the 98% of whole nation cultivated area, will develop into more than 3,000,000 mu by being planned for the year two thousand twenty.Prospect of industrial development is the most wide.Macadimia nut belongs to external introduction species, numerous orchard workers are general lack of the technology needed for plantation and experience, planting process will also tend to, because all kinds of reasons such as fertilising, Shi Shui, illumination, pest and disease damages, cause the income of plant growing to reduce, affect the plantation enthusiasm of orchard worker.
In order to solve above-mentioned technical problem, prior art occurs in that a large amount of improvement project, wherein by the Internet, sensor and Intelligent hardware are combined into main flow plantation monitoring technology with plant growing, the such as utility model patent of Application No. 201510279021.6 discloses a kind of intelligent planting unit based on the Internet, system and method, a kind of intelligent implant system based on the Internet disclosed in it, comprise sensor assembly, camera module, analog digital conversion/cache module, processor, power module, input module, display/memory module, perform module, communication module, user terminal, server/high in the clouds, the Internet.Based on the Internet the intelligent implant system of this utility model and method, help popular grower to understand grasp plant information, plant out health plant;Also help plant specialty research worker to obtain plant sample by the Internet, be beneficial to analysis and research, it is provided that data support, improve planting environment, improve plantation efficiency.But this implant system and method are applicable to the plant the most all having plantation case, its planting patterns and implantation methods have retained more case, easily provide plantation suggestion according to existing plantation experience, plantation efficiency is provided, and for external plant introduction kind, it is impossible to obtain plant growing information and plantation suggestion easily and fast and accurately.
As can be seen here, can be for external introduction species such as macadimia nut, there is provided one can obtain plant growing relevant information easily and fast, accurately, and obtain personalized plantation suggestion and implantation methods by the information obtained being carried out scientific algorithm and retrieval, become the technical barrier that those skilled in the art are urgently to be resolved hurrily.
Utility model content
This utility model is in order to solve above-mentioned technical problem, a kind of plant growing monitoring system is provided, in conjunction with plant industry high speed development in the urgent need to, integrated application modern information technologies, GIS technology, development of Mobile Internet technology, promote and transform existing plant growing information delivery format, by setting up mobile, GISization, visual information flow platform, realize the propagation scientific, information-based of plant growing technology, for industry health, quickly, modernization development Informational support comprehensively and accurately is provided.
In order to reach above-mentioned technique effect, this utility model includes techniques below scheme:
A kind of plant growing monitoring system, including data acquisition unit, terminal and cloud server, the data information transfer cloud server that described data acquisition unit will be gathered by described terminal, the processing data information of reception is that data structure is transmitted to terminal by described cloud server, and described data acquisition unit includes photographic head, temperature sensor, humidity sensor, illuminance sensor, GPS positioning chip and obliquity sensor.
Compared with traditional plant growing monitoring system, the sensor that data acquisition unit of the present utility model sets is more perfect and effective, wherein obliquity sensor can effective attainment degree information, provide plantation suggestion offer basic for follow-up.
Further, described data acquisition unit also includes gas concentration lwevel sensor.
Add gas concentration lwevel sensor and can obtain gas concentration lwevel information further, when gas concentration lwevel is too high, do ventilation process in time, it is ensured that optimal plant growing growing environment.
Further, the one during described terminal is mobile phone, panel computer or computer.
Further, described terminal includes analog-digital converter, radio communication device, display screen, controller and power supply, described analog-digital converter, radio communication device, display screen and controller are all connected with described power supply, described analog-digital converter, radio communication device and display screen are all connected with described controller, the signal output part of described data acquisition unit is connected with the input of described analog-digital converter, the signal of telecommunication of collection is converted into digital information by analog-digital converter and is delivered to controller by described harvester, described digital information is delivered to display screen and cloud server by radio communication device by described controller.
Further, described plant growing monitoring system also includes heater, humidifier and plant growth lamp, described heater, one end of humidifier and plant growth lamp is connected with power supply, the other end is connected with described controller electrical information, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is less than the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are opened, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is in the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are closed.
The most suitable growth environment of plant can be ensured, be effectively improved plant growing rate in conjunction with the plant growth environment regulation humidity of the suitableeest plant growing, temperature and luminosity, moment by terminal.
Further, described terminal includes user's enquiry module, described user's enquiry module is for inputting the event information of reaction plant growing situation, described data message includes photographic intelligence, video information, altitude information, grade information, temperature information, humidity information and Lighting information, and the event information of data message and reaction plant growing situation is packaged into the packet of XML language description and sends described packet to cloud server by described terminal.
Further, described cloud server includes that data analysis module, Bayesian decision module, DBM, knowledge base searching engine modules and feedback information optimize module;
Data analysis module, described data analysis module is data structure for the described processing data packets that will receive, and transmits described data structure to Bayesian decision module;
Bayesian decision module, described Bayesian decision module receives described data structure and combines data structure and carry out prior probably estimation to affecting the factor of plant normal growth in the event information of reaction plant growing situation, use Bayesian formula that probability of happening is modified, generate, according to revising probability, the input data structure that knowledge base searching engine modules needs;
DBM, described DBM storage plant growing information;
Knowledge base searching engine modules, the plant growing information in DBM is retrieved according to the input data structure received and obtains retrieving result by described knowledge base searching engine modules;
Feedback information optimizes module, and described feedback information optimizes module and described retrieval result is arranged and optimized, and generates plant growing query feedback information, and described plant growing query feedback information is transmitted to terminal by radio communication device.
The each reasonable module design of cloud server, effectively based on data acquisition results, personalized recommendations is provided, the optimal solution of acquisition for the treatment of in accordance with local conditions, the plant growing inquiry problem wherein proposed according to user, calculate through scientific analysis and Bayesian formula, and result of calculation is combined this plant growing knowledge existing, provide scientific and reasonable and that specific aim is high plantation suggestion and implantation methods.
Further, described user's input module includes planting plot fitness query unit, selection of seedling standard queries unit, implantation methods query unit, seeks help unit online, and described plant growing query feedback information includes planting plot fitness scoring, selection of seedling standard information, implantation methods information and answer advisory information;
Plantation plot fitness query unit, is used for inputting plantation plot fitness Query Information, and receives and display plant growing fitness scoring;
Selection of seedling standard queries unit, for inputting selection of seedling standard queries information, and receive and display selection of seedling standard information, described selection of seedling standard information includes plant seedling height, interface height, takes out tip length, stem rugosity, side radical mesh, side root rugosity, leaf morphology and the numerical information of peel of stem lesion ports area;
Implantation methods query unit, is used for inputting implantation methods Query Information, and receives and display implantation methods information, and described implantation methods information includes plant seedling treatment, planting patterns, waters the advisory information determining root water and cooling moisture-retaining;
Seek help online unit, seek help problem information for input and answer, and receive and display replies advisory information.
Terminal each unit of the present utility model is reasonable in design and perfect, fully meets user's request, effectively obtains corresponding information result based on above-mentioned each unit, provides the user scientific and reasonable monitoring and guidance so that plant growing is more rationally with efficient.
Further, described plant growing monitoring system also includes that expert's end, described terminal are connected with described expert's end radio communication.
The problem information of seeking help of unit input of seeking help online is sent to expert's end by described terminal, described expert's end receive described in seek help problem information, input according to the content of problem information of seeking help and reply advisory information, and described answer advisory information is delivered to terminal.
Further, described plant is macadimia nut.
The plant growing monitoring system that this utility model provides is more for macadimia nut, based on macadimia nut growing environment with plant present situation at present, designs this utility model plant growing monitoring system.
A kind of plant growing monitoring method, comprises the following steps:
Step 1: gathered the data message of planting environment by data acquisition unit, terminal receives described data message and inputs the event information of reaction plant growing situation, and described terminal is by described data message and reacts the event message transmission of plant growing situation to cloud server;
Step 2: the event information of described data message and reaction plant growing situation is processed as data structure by cloud server, the factor situation affecting the plantation of macadimia nut plant normal growth in the described data structure event information on reaction plant growing situation is carried out prior probably estimation, use Bayesian formula that probability of happening is modified, input data structure is generated according to revising probability, according to input data structure plant growing information retrieved and obtain retrieving result, described retrieval result is arranged and optimizes generation plant growing query feedback information, described plant growing query feedback information is transmitted to terminal by described cloud server by radio communication device;
Step 3: receive plant growing query feedback information by described terminal, adjusts plant growing environment and plant growing mode according to plant growing query feedback information.
Further, described Bayesian formula is
Wherein,
P (x) is for reacting prior probability or the marginal probability of the event of plant growing situation;
P(ωj) it is the Prior Probability affecting each factor that this event occurs in the event reacting plant growing situation;
P(ωj| x) it is ω after x occursjConditional probability;
P(x|ωj) it is ωjThe conditional probability of x after generation.
Use technique scheme, including following beneficial effect: this utility model data acquisition unit reasonable in design, the data message gathered, do plantation plot fitness inquiry by terminal further, selection of seedling standard queries, implantation methods are inquired about, are sought help online, can effectively help user's optimal solution of acquisition for the treatment of in accordance with local conditions when planting the alien species such as macadimia nut, simple to operate.
Accompanying drawing explanation
Fig. 1 is this utility model data acquisition unit internal structure schematic diagram;
Fig. 2 is this utility model embodiment two plant growing monitoring system structural representation;
Fig. 3 is this utility model embodiment three and embodiment four plant growing monitoring system structural representation.
In figure,
1, data acquisition unit;11, photographic head;12, temperature sensor;13, humidity sensor;14, illuminance sensor;15, GPS positioning chip;16, obliquity sensor;17, gas concentration lwevel sensor;2, terminal;21, user's enquiry module;211, plantation plot fitness query unit;212, selection of seedling standard queries unit;213, implantation methods query unit;214, seek help online unit;3, cloud server;31, data analysis module;32, Bayesian decision module;33, DBM;34, knowledge base searching engine modules;35, feedback information optimizes module;4, heater;5, humidifier;6, plant growth lamp.
Detailed description of the invention
Below by specific embodiment and combine accompanying drawing this utility model is described in further detail.
Embodiment one: as depicted in figs. 1 and 2, a kind of plant growing monitoring system, including data acquisition unit 1, terminal 2 and cloud server 3, the data information transfer cloud server that described data acquisition unit will be gathered by described terminal, the processing data information of reception is that data structure is transmitted to terminal by described cloud server, and described data acquisition unit includes photographic head 11, temperature sensor 12, humidity sensor 13 illuminance sensor 14, GPS positioning chip 15 and obliquity sensor 16.
Embodiment two: as depicted in figs. 1 and 2, a kind of plant growing monitoring system, including data acquisition unit 1, terminal 2 and cloud server 3, the data information transfer cloud server that described data acquisition unit will be gathered by described terminal, the processing data information of reception is that data structure is transmitted to terminal by described cloud server, and described data acquisition unit includes photographic head 11, temperature sensor 12, humidity sensor 13 illuminance sensor 14, GPS positioning chip 15 and obliquity sensor 16.
Described data acquisition unit also includes gas concentration lwevel sensor 17.
Described terminal includes analog-digital converter, radio communication device, display screen, controller and power supply, described analog-digital converter, radio communication device, display screen and controller are all connected with described power supply, described analog-digital converter, radio communication device and display screen are all connected with described controller, the signal output part of described data acquisition unit is connected with the input of described analog-digital converter, the signal of telecommunication of collection is converted into digital information by analog-digital converter and is delivered to controller by described harvester, described digital information is delivered to display screen and cloud server by radio communication device by described controller.
Described plant growing monitoring system also includes heater 4, humidifier 5 and plant growth lamp 6, described heater, one end of humidifier and plant growth lamp is connected with power supply, the other end is connected with described controller electrical information, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is less than the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are opened, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is in the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are closed.
It is connected one end of described heater, humidifier and plant growth lamp and power supply, the described other end is connected with one end of the output loop of relay, the other end of the output loop of described relay is connected with power supply, one end of the input circuit of described relay is connected with power supply, the other end of the input circuit of described relay is connected with the emitter stage of audion, the colelctor electrode of described audion and current-limiting resistance connect after with power supply be connected, the base stage of described audion is connected with the control end of the heater of controller, humidifier and plant growth lamp.
Embodiment three: as shown in figures 1 and 3, a kind of plant growing monitoring system, including data acquisition unit 1, terminal 2 and cloud server 3, the data information transfer cloud server that described data acquisition unit will be gathered by described terminal, the processing data information of reception is that data structure is transmitted to terminal by described cloud server, and described data acquisition unit includes photographic head 11, temperature sensor 12, humidity sensor 13 illuminance sensor 14, GPS positioning chip 15 and obliquity sensor 16.
Described data acquisition unit also includes gas concentration lwevel sensor 17.
Described terminal is the one in mobile phone, panel computer or computer.
Described plant growing monitoring system also includes heater 4, humidifier 5 and plant growth lamp 6, described heater, one end of humidifier and plant growth lamp is connected with power supply, the other end is connected with described controller electrical information, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is less than the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are opened, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is in the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are closed.
It is connected one end of described heater, humidifier and plant growth lamp and power supply, the described other end is connected with one end of the output loop of relay, the other end of the output loop of described relay is connected with power supply, one end of the input circuit of described relay is connected with power supply, the other end of the input circuit of described relay is connected with the emitter stage of audion, the colelctor electrode of described audion and current-limiting resistance connect after with power supply be connected, the base stage of described audion is connected with the control end of the heater of controller, humidifier and plant growth lamp.
Described terminal includes user's enquiry module 21, described user's enquiry module is for inputting the event information of reaction plant growing situation, described data message includes photographic intelligence, video information, altitude information, grade information, temperature information, humidity information and Lighting information, and the event information of data message and reaction plant growing situation is packaged into the packet of XML language description and sends described packet to cloud server by described terminal.
Described cloud server includes that data analysis module 31, Bayesian decision module 32, DBM 33, knowledge base searching engine modules 34 and feedback information optimize module 35;
Data analysis module, described data analysis module is data structure for the described processing data packets that will receive, and transmits described data structure to Bayesian decision module;
Bayesian decision module, described Bayesian decision module receives described data structure and combines data structure and carry out prior probably estimation to affecting the factor of plant normal growth in the event information of reaction plant growing situation, use Bayesian formula that probability of happening is modified, generate, according to revising probability, the input data structure that knowledge base searching engine modules needs;
DBM, described DBM storage plant growing information;
Knowledge base searching engine modules, the plant growing information in DBM is retrieved according to the input data structure received and obtains retrieving result by described knowledge base searching engine modules;
Feedback information optimizes module, and described feedback information optimizes module and described retrieval result is arranged and optimized, and generates plant growing query feedback information, and described plant growing query feedback information is transmitted to terminal by radio communication device.
When problem information of seeking help described in such as is flowers and fruits dry-out problems information, in described Bayesian decision module, combine data message for flowers and fruits dry-out problems information and judge the plant probability P by the ash mould infection of green grapes sporew1, the probability P that infected by phytophthora blight of pepper of plantw2, plant lack phosphatic probability be Pw3, then with Bayesian formula, probability of happening is modified, in conjunction with data message correction probability Pw1, probability Pw2, probability Pw3, generate input data structure according to amended probability results.
Described Bayesian formula is
Embodiment four: as shown in figures 1 and 3, a kind of plant growing monitoring system, including data acquisition unit 1, terminal 2 and cloud server 3, the data information transfer cloud server that described data acquisition unit will be gathered by described terminal, the processing data information of reception is that data structure is transmitted to terminal by described cloud server, and described data acquisition unit includes photographic head 11, temperature sensor 12, humidity sensor 13) illuminance sensor 14, GPS positioning chip 15 and obliquity sensor 16.
Described plant is macadimia nut.
Described data acquisition unit also includes gas concentration lwevel sensor 17.
Described terminal includes analog-digital converter, radio communication device, display screen, controller and power supply, described analog-digital converter, radio communication device, display screen and controller are all connected with described power supply, described analog-digital converter, radio communication device and display screen are all connected with described controller, the signal output part of described data acquisition unit is connected with the input of described analog-digital converter, the signal of telecommunication of collection is converted into digital information by analog-digital converter and is delivered to controller by described harvester, described digital information is delivered to display screen and cloud server by radio communication device by described controller.
Described plant growing monitoring system also includes heater 4, humidifier 5 and plant growth lamp 6, described heater, one end of humidifier and plant growth lamp is connected with power supply, the other end is connected with described controller electrical information, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is less than the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are opened, when the temperature sensor that controller gathers, the data message of humidity sensor or illuminance sensor is in the threshold value set, controller output heater, humidifier and/or plant growth lamp drive signal, control heater, humidifier and/or plant growth lamp are closed.
It is connected one end of described heater, humidifier and plant growth lamp and power supply, the described other end is connected with one end of the output loop of relay, the other end of the output loop of described relay is connected with power supply, one end of the input circuit of described relay is connected with power supply, the other end of the input circuit of described relay is connected with the emitter stage of audion, the colelctor electrode of described audion and current-limiting resistance connect after with power supply be connected, the base stage of described audion is connected with the control end of the heater of controller, humidifier and plant growth lamp.
Described terminal includes user's enquiry module 21, described user's enquiry module is for inputting the event information of reaction plant growing situation, described data message includes photographic intelligence, video information, altitude information, grade information, temperature information, humidity information and Lighting information, and the event information of data message and reaction plant growing situation is packaged into the packet of XML language description and sends described packet to cloud server by described terminal.
Described cloud server includes that data analysis module 31, Bayesian decision module 32, DBM 33, knowledge base searching engine modules 34 and feedback information optimize module 35;
Data analysis module, described data analysis module is data structure for the described processing data packets that will receive, and transmits described data structure to Bayesian decision module;
Bayesian decision module, described Bayesian decision module receives described data structure and combines data structure and carry out prior probably estimation to affecting the factor of plant normal growth in the event information of reaction plant growing situation, use Bayesian formula that probability of happening is modified, generate, according to revising probability, the input data structure that knowledge base searching engine modules needs;
DBM, described DBM storage plant growing information;
Knowledge base searching engine modules, the plant growing information in DBM is retrieved according to the input data structure received and obtains retrieving result by described knowledge base searching engine modules;
Feedback information optimizes module, and described feedback information optimizes module and described retrieval result is arranged and optimized, and generates plant growing query feedback information, and described plant growing query feedback information is transmitted to terminal by radio communication device.
Described user's input module includes planting plot fitness query unit 211, selection of seedling standard queries unit 212, implantation methods query unit 213 and unit 214 of seeking help online, the event information of described reaction plant growing situation includes the information of reaction plantation plot fitness, the information of reaction selection of seedling standard, the information of reaction implantation methods and problem information of seeking help, and described plant growing query feedback information includes planting plot fitness scoring, selection of seedling standard information, implantation methods information and replying advisory information;
Plantation plot fitness query unit, is used for inputting plantation plot fitness Query Information, and receives and display plant growing fitness scoring;
Selection of seedling standard queries unit, for inputting selection of seedling standard queries information, and receive and display selection of seedling standard information, described selection of seedling standard information includes plant seedling height, interface height, takes out tip length, stem rugosity, side radical mesh, side root rugosity, leaf morphology and the numerical information of peel of stem lesion ports area;
Implantation methods query unit, is used for inputting implantation methods Query Information, and receives and display implantation methods information, and described implantation methods information includes plant seedling treatment, planting patterns, waters the advisory information determining root water and cooling moisture-retaining;
Seek help online unit, seek help problem information for input and answer, and receive and display replies advisory information.
Further, described plant growing monitoring system also includes that expert's end, described terminal are connected with described expert's end radio communication.
The problem information of seeking help of unit input of seeking help online is sent to expert's end by described terminal, described expert's end receive described in seek help problem information, input according to the content of problem information of seeking help and reply advisory information, and described answer advisory information is delivered to terminal.
Embodiment five: a kind of plant growing monitoring method, comprises the following steps:
Step 1: gathered the data message of planting environment by data acquisition unit, terminal receives described data message and inputs the event information of reaction plant growing situation, and described terminal is by described data message and reacts the event message transmission of plant growing situation to cloud server;
Step 2: the event information of described data message and reaction plant growing situation is processed as data structure by cloud server, the factor situation affecting plant normal growth plantation in the described data structure event information on reaction plant growing situation is carried out prior probably estimation, use Bayesian formula that probability of happening is modified, input data structure is generated according to revising probability, according to input data structure plant growing information retrieved and obtain retrieving result, described retrieval result is arranged and optimizes generation plant growing query feedback information, described plant growing query feedback information is transmitted to terminal by described cloud server by radio communication device;
Step 3: receive plant growing query feedback information by described terminal, adjusts plant growing environment and plant growing mode according to plant growing query feedback information.
Described Bayesian formula is
Wherein,
P (x) is for reacting prior probability or the marginal probability of the event of plant growing situation;
P(ωj) it is the Prior Probability affecting each factor that this event occurs in the event reacting plant growing situation;
P(ωj| x) it is ω after x occursjConditional probability;
P(x|ωj) it is ωjThe conditional probability of x after generation.
When problem information of seeking help described in such as is flowers and fruits dry-out problems information, in described Bayesian decision module, combine data message for flowers and fruits dry-out problems information and judge the plant probability P by the ash mould infection of green grapes sporew1, the probability P that infected by phytophthora blight of pepper of plantw2, plant lack phosphatic probability be Pw3, then with Bayesian formula, probability of happening is modified, in conjunction with data message correction probability Pw1, probability Pw2, probability Pw3, generate input data structure according to amended probability results.
Described Bayesian formula is
The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for a person skilled in the art, this utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.
Claims (6)
1. a plant growing monitoring system, it is characterized in that, including data acquisition unit (1), terminal (2) and cloud server (3), the data information transfer cloud server that described data acquisition unit will be gathered by described terminal, the processing data information of reception is that data structure is transmitted to terminal by described cloud server, and described data acquisition unit includes photographic head (11), temperature sensor (12), humidity sensor (13), illuminance sensor (14), GPS positioning chip (15) and obliquity sensor (16).
A kind of plant growing monitoring system the most according to claim 1, it is characterised in that described data acquisition unit also includes gas concentration lwevel sensor (17).
A kind of plant growing monitoring system the most according to claim 1, it is characterised in that described terminal is the one in mobile phone, panel computer or computer.
A kind of plant growing monitoring system the most according to claim 1, it is characterized in that, described terminal includes analog-digital converter, radio communication device, display screen, controller and power supply, described analog-digital converter, radio communication device, display screen and controller are all connected with described power supply, described analog-digital converter, radio communication device and display screen are all connected with described controller, the signal output part of described data acquisition unit is connected with the input of described analog-digital converter, the signal of telecommunication of collection is converted into digital information by analog-digital converter and is delivered to controller by described harvester, described digital information is delivered to display screen and cloud server by radio communication device by described controller.
nullA kind of plant growing monitoring system the most according to claim 4,It is characterized in that,Described plant growing monitoring system also includes heater (4)、Humidifier (5) and plant growth lamp (6),Described heater、One end of humidifier and plant growth lamp is connected with power supply,The other end is connected with described controller electrical information,When the temperature sensor that controller gathers、The data message of humidity sensor or illuminance sensor is less than the threshold value set,Controller output heater、Humidifier and/or plant growth lamp drive signal,Control heater、Humidifier and/or plant growth lamp are opened,When the temperature sensor that controller gathers、The data message of humidity sensor or illuminance sensor is in the threshold value set,Controller output heater、Humidifier and/or plant growth lamp drive signal,Control heater、Humidifier and/or plant growth lamp are closed.
A kind of plant growing monitoring system the most according to claim 1, it is characterised in that described plant growing monitoring system also includes that expert's end, described terminal are connected with described expert's end radio communication.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107493951A (en) * | 2017-09-30 | 2017-12-22 | 刘哲 | A kind of plants planter |
WO2019237201A1 (en) * | 2018-06-12 | 2019-12-19 | Paige Growth Technologies Inc. | Devices, systems and methods for multivariable optimization of plant growth and growth of other phototrophic organisms |
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2016
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107493951A (en) * | 2017-09-30 | 2017-12-22 | 刘哲 | A kind of plants planter |
WO2019237201A1 (en) * | 2018-06-12 | 2019-12-19 | Paige Growth Technologies Inc. | Devices, systems and methods for multivariable optimization of plant growth and growth of other phototrophic organisms |
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