CN106054679B - A kind of agriculture intelligent monitor system and crop-planting method based on Internet of Things - Google Patents
A kind of agriculture intelligent monitor system and crop-planting method based on Internet of Things Download PDFInfo
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- CN106054679B CN106054679B CN201610575621.1A CN201610575621A CN106054679B CN 106054679 B CN106054679 B CN 106054679B CN 201610575621 A CN201610575621 A CN 201610575621A CN 106054679 B CN106054679 B CN 106054679B
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G22/00—Cultivation of specific crops or plants not otherwise provided for
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Abstract
The invention discloses a kind of agriculture intelligent monitor system and crop-planting method based on Internet of Things, it include: traditional crop field area and long-term tillage monitoring test area, an automatic weather station is provided between the tradition crop field area and long-term tillage monitoring test area, long-term tillage monitoring test area includes conventional fertilizer application area, current year is without fertile area, throughout the year without fertile area and rational application of fertilizers area, the agriculture intelligent monitor system based on Internet of Things further includes server, controlling terminal machine and the Video Monitoring Terminal that traditional crop field area and long-term tillage monitoring test area side are set, solar spectral analysis center and monitoring computer, the tradition crop field area, conventional fertilizer application area, current year is without fertile area, throughout the year without being respectively arranged with several detector assemblies in fertile area and rational application of fertilizers area.By the above-mentioned means, being combined using traditional detection method and Internet of Things intelligent monitoring, composition stereo data detects network, the configuration formula fertilizer more suitable with crop and environment.
Description
Technical field
The present invention relates to field of agricultural cultivation, more particularly to a kind of agriculture intelligent monitor system and work based on Internet of Things
Object implantation methods.
Background technique
In modern agriculture field, technology of Internet of things can be in monitoring crop irrigation soil moisture content, the change of monitoring soil air, livestock and poultry
Environmental aspect and large area earth's surface detection etc. play a role.
Technology of Internet of things without geographical restrictions, therefore can carry out real-time inspection and control to each soil variables, obtain
The accuracy and efficiency of data all greatly improve.By technology of Internet of things can collect temperature, humidity, nutrient, wind-force, atmosphere,
The data informations such as rainfall, pH value carry out Distant supervision and control and prevent and reduce natural disasters to carry out scientific forecasting, and scientic planting mentions
High overall efficiency of agriculture.
Technology of Internet of things is an emerging cross discipline, and application of such technology in China has very compared with developed countries
Big gap is instructed the factors such as approach to be limited, lagging in development and intelligence by shortage of funding, technical equipment backwardness, shortage expert
Change horizontal low.Therefore, by object networking intellectual technology be applied to utilization of agricultural resources utilization, ecological environment monitoring, agriculture precision management and
A new research and application direction are increasingly becoming in terms of agricultural product security.
Summary of the invention
The agriculture intelligent monitor system and crop that the invention mainly solves the technical problem of providing a kind of based on Internet of Things
Implantation methods, detect soil moisture content, and optimization of C/C composites fertilizer promotes plant growth.
In order to solve the above technical problems, one technical scheme adopted by the invention is that: a kind of agriculture based on Internet of Things is provided
Industry intelligent monitor system, comprising: traditional crop field area and long-term tillage monitoring test area, the setting of long-term tillage monitoring test area
An automatic meteorological is provided between the side in traditional crop field area, the tradition crop field area and long-term tillage monitoring test area
It stands, long-term tillage monitoring test area includes conventional fertilizer application area, for the year without fertile area, throughout the year without fertile area and rational application of fertilizers area, institute
The agriculture intelligent monitor system based on Internet of Things is stated to further include server, controlling terminal machine and be arranged in traditional crop field area and length
Video Monitoring Terminal, solar spectral analysis center and the monitoring computer of phase position monitor trial zone side, the tradition are big
Field area, conventional fertilizer application area, for the year without fertile area, throughout the year without being respectively arranged with several detector assemblies in fertile area and rational application of fertilizers area,
Several detector assemblies, automatic weather station, Video Monitoring Terminal and solar spectral analysis center be respectively adopted it is wireless or
Person's wire communication equipment is connected with monitoring computer, described using network connection between monitoring computer and the server
Controlling terminal machine and server carry out network connection communication.
In a preferred embodiment of the present invention, it is provided in the automatic weather station and communicates respectively with monitoring computer
Relative humidity monitor, evaporation capacity monitor, rainfall monitor, temperature monitor, pressure monitor, wind direction monitor,
Air monitoring device and radiation intensity monitor.
In a preferred embodiment of the present invention, the conventional fertilizer application area, apply for the year without fertile area, throughout the year without fertile area and formula
Fertile area respectively includes at least 3 pieces of mutually isolated growing areas.
In a preferred embodiment of the present invention, traditional crop field area and long-term tillage monitoring test area side are provided with
The display screen being connected with monitoring computer.
In a preferred embodiment of the present invention, the detector assembly includes soil EC meter, soil temperature sensor, soil
Earth moisture transducer and soil conductivity sensor.
In order to solve the above technical problems, another technical solution used in the present invention is: providing a kind of using based on Internet of Things
The crop-planting method that the agriculture intelligent monitor system of net carries out, comprising the following steps:
Long-term cropping is distinguished in traditional crop field area and long-term tillage monitoring test area, it is wherein in conventional fertilizer application area and traditional
Apply same common fertilizer in the area of crop field, for the year without fertilizer is not being applied for the year in fertile area, throughout the year without never applying in fertile area
Fertilizer applies formula fertilizer in rational application of fertilizers area;
Multiple soil EC values, the soil moisture, soil moisture and soil electricity are collected using the detector assembly in each growing area
Conductance, half an hour is primary, by each measured value import monitoring computer, respectively obtain conventional fertilizer application area, for the year without fertile area, throughout the year
Server is sent into after index average value in no fertile area and rational application of fertilizers area to be stored;
Using automatic weather station relative humidity data, evaporation capacity data, rainfall product data, temperature record, barometric information,
Wind direction data, air speed data and radiation intensity data are sent into monitoring computer, obtained each data real-time display on a display screen,
And server is sent by monitoring computer and is stored;
Researcher manually acquires each area's soil and carries out elemental analysis, and analysis result is imported service by controlling terminal machine
Device is stored;
By the data analysis in server, soil moisture content and nutrient density dynamic are grasped in real time, find out crop shortage
To the infiltration rate of each element under various weather conditions, improved formulations fertilizer formula is matched again for fertilizer element and crop
It sets, applies the formula fertilizer reconfigured in rational application of fertilizers area, and so on, every 7 ~ 15 days progress loop configurations and fertilising;
Supply canal and corresponding multiple electromagnetic water valves, benefit are set at traditional crop field area and long-term tillage monitoring test area
Moisture drought and waterlogging monitoring is carried out with the measured value of soil moisture, realizes the remote real_time control of irrigation;
It is real in controlling terminal machine using the radiation intensity of each band spectrum of the solar spectral analysis center real-time monitoring sun
When show each road spectral curve, the ratio of global radiation shared by spectrum and the cumulative amount of unit time Nei Ge road spectrum, cooperation view
Frequency monitor terminal observes the growing way of each area crop, is used for crop photosynthesis radiation research, obtains the wave band beneficial to plant growth
And the relationship that this wave band is consumed with fertilizer element often.
The beneficial effects of the present invention are: a kind of agriculture intelligent monitor system and crop based on Internet of Things that the present invention points out
Implantation methods are combined using traditional detection method and Internet of Things intelligent monitoring, form soil fertility, moisture, temperature, wind
Power, illumination, rainfall, evaporation capacity and ambient humidity stereo data detect network, conveyed and analyzed using remote data, save section
Grind the traffic time that personnel were wasted in the past, data much sooner and accurately, are conducive to scientific research personnel's reasonable analysis plant growth
Data accumulation is realized in characteristic, the configuration formula fertilizer more suitable with crop and environment, effectively promotion crop yield, for tradition
The crop-planting in crop field area provides guidance.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing, in which:
Fig. 1 is a kind of one preferred embodiment of agriculture intelligent monitor system and crop-planting method based on Internet of Things of the present invention
Structural schematic diagram.
Specific embodiment
The technical scheme in the embodiments of the invention will be clearly and completely described below, it is clear that described implementation
Example is only a part of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, this field is common
Technical staff's all other embodiment obtained without making creative work belongs to the model that the present invention protects
It encloses.
Referring to Fig. 1, the embodiment of the present invention includes:
A kind of agriculture intelligent monitor system based on Internet of Things, comprising: traditional crop field area 4 and long-term tillage monitoring test
Area, long-term tillage monitoring test area are arranged in the side in traditional crop field area 4, are closer, and facilitate observation, and weather one
Sample, the convenient guidance to traditional 4 crop-planting of crop field area in the future.
An automatic weather station 5 is provided between the tradition crop field area 4 and long-term tillage monitoring test area, it is described automatic
5 are provided with the relative humidity monitor to communicate respectively with monitoring computer 1, evaporation capacity monitor, rainfall prison in weather station
Survey device, temperature monitor, pressure monitor, wind direction monitor, air monitoring device and radiation intensity monitor.Utilize automatic meteorological
Stand the relative humidity datas of 5 pairs of near zones, evaporation capacity data, rainfall product data, temperature record, barometric information, wind direction data,
Air speed data and radiation intensity data are monitored and collect.
Long-term tillage monitoring test area includes conventional fertilizer application area 11, without fertile area 13 and matches without fertile area 12, throughout the year for the year
Square fertilization area 14, the conventional fertilizer application area 11 without fertile area 12, throughout the year without fertile area 13 and rational application of fertilizers area 14 respectively include 3 for the year
The mutually isolated growing area of block is easy to produce data error very little, and 3 pieces of growing areas conveniently take the average value of measurement, promotes data
Accuracy.
The agriculture intelligent monitor system based on Internet of Things further includes that server 2, controlling terminal machine 3 and setting are passing
The Video Monitoring Terminal 6 of system crop field area 4 and long-term tillage monitoring test area side, solar spectral analysis center 8 and monitoring meter
Calculation machine 1, the tradition crop field area 4, conventional fertilizer application area 11, for the year without fertile area 12, throughout the year without in fertile area 13 and rational application of fertilizers area 14
It is respectively arranged with several detector assemblies 15, several detector assemblies 15, automatic weather station 5, Video Monitoring Terminal 6 and too
Positive energy spectrum analysis center 8 is respectively adopted wireless or wire communication equipment and is connected with monitoring computer 1, and the monitoring calculates
Using network connection between machine 1 and server 2, the controlling terminal machine 3 carries out network connection communication with server 2, realizes remote
Number of passes according to transmission, researcher no matter wherein, as long as there is network, so that it may the understanding of data is carried out by controlling terminal machine 3, and
When make adjustment and suggest, Instructing manufacture reduces running for researcher, improves working efficiency.
The tradition crop field area 4 and long-term tillage monitoring test area side are provided with and monitor computer 1 wirelessly or have
The display screen 7 of line communication connection, display screen 7 can facilitate plant personnel and scientific research with real-time display weather information and soil regime
The scene of personnel understands.
The detector assembly 15 includes soil EC meter, soil temperature sensor, soil moisture sensor and soil conductivity
Rate sensor, monitor traditional crop field area 4 and the soil EC value in long-term tillage monitoring test area, the soil moisture, soil moisture and
Soil conductivity.
A kind of crop-planting method carried out using the agriculture intelligent monitor system based on Internet of Things, comprising the following steps:
Rice cultivation is distinguished in traditional crop field area 4 and long-term tillage monitoring test area, wherein in conventional fertilizer application area 11 and
Apply same common fertilizer in traditional crop field area 4, for the year without fertilizer is not being applied for the year in fertile area 12, throughout the year without in fertile area 13
Never apply fertilizer, applies formula fertilizer in 14th area of rational application of fertilizers;
Multiple soil EC values, the soil moisture, soil moisture and soil are collected using the detector assembly 15 in each growing area
Conductivity, half an hour is primary, and each measured value is imported monitoring computer 1, respectively obtains conventional fertilizer application area 11, for the year without fertile area
12, it is stored throughout the year without feeding server 2 after the index average value in fertile area 13 and rational application of fertilizers area 14;
Using automatic weather station 5 relative humidity data, evaporation capacity data, rainfall product data, temperature record, air pressure number
According to, wind direction data, air speed data and radiation intensity data be sent into monitoring computer 1, obtained each data on display screen 7 in real time
It has been shown that, and server 2 is sent by monitoring computer 1 and is stored;
Researcher manually acquires each area's soil and carries out elemental analysis, and analysis result is imported clothes by controlling terminal machine 3
Business device 2 is stored;
By the data analysis in server 2, soil moisture content and nutrient density dynamic are grasped in real time, find out rice shortage
To the infiltration rate of each element under various weather conditions, improved formulations fertilizer formula is matched again for fertilizer element and rice
It sets, applies the formula fertilizer reconfigured in rational application of fertilizers area 14, and so on, every 7 ~ 15 days progress loop configurations and apply
Fertilizer;
Supply canal and corresponding multiple electromagnetic water valves are set at traditional crop field area 4 and long-term tillage monitoring test area,
Moisture drought and waterlogging monitoring is carried out using the measured value of soil moisture, the remote real_time control of irrigation is realized, saves manpower and material resources, have
Conducive to the irrigation of rice;
Using the radiation intensity of 8 each band spectrum of the real-time monitoring sun of solar spectral analysis center, in controlling terminal machine 3
Each road spectral curve of real-time display, the ratio of global radiation and the cumulative amount of unit time Nei Ge road spectrum shared by spectrum, cooperation
Video Monitoring Terminal 6 observes the growing way of each area's rice, is used for Rice Photosynthesis radiation research, obtains the wave beneficial to paddy growth
The relationship that section and this wave band are consumed with fertilizer element often.
Using solar spectral analysis center 8, the light radiation situation in the crop growth period of this area is obtained, scientific analysis is simultaneously
Estimate crop yield, the crop yield estimated and practical production capacity compared, difference is obtained, carry out crop varieties replacement or
Person advanced optimizes implantation methods.
In conclusion a kind of agriculture intelligent monitor system and crop-planting method based on Internet of Things that the present invention points out,
The method combined using long-range monitoring and traditional detection, is realized the monitoring of soil fertility and weather conditions, saves manpower
Material resources are conducive to the ingredient for changing formula fertilizer, so that it is more conducive to the growth of crop, shadow of the research illumination to this crop
It rings, makes full use of light radiation to promote crop yield, instruct Production of Large Fields.
The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair
Equivalent structure or equivalent flow shift made by bright description is applied directly or indirectly in other relevant technology necks
Domain is included within the scope of the present invention.
Claims (1)
1. a kind of crop-planting method that the agriculture intelligent monitor system based on Internet of Things carries out, which is characterized in that including following
Step:
Long-term cropping is distinguished in traditional crop field area and long-term tillage monitoring test area, wherein in conventional fertilizer application area and traditional crop field
Apply same common fertilizer in area, for the year without fertilizer is not being applied for the year in fertile area, throughout the year without never applying fertilizer in fertile area,
Apply formula fertilizer in rational application of fertilizers area;
Multiple soil EC values, the soil moisture, soil moisture and soil conductivity are collected using the detector assembly in each growing area,
Per half an hour is primary, and each measured value is imported monitoring computer, respectively obtains conventional fertilizer application area, for the year without fertile area, long-term nothing
Server is sent into after index average value in fertile area and rational application of fertilizers area to be stored;
Using automatic weather station relative humidity data, evaporation capacity data, rainfall product data, temperature record, barometric information, wind direction
Data, air speed data and radiation intensity data are sent into monitoring computer, obtained each data real-time display on a display screen, and lead to
Monitoring computer feeding server is crossed to be stored;
Researcher manually acquires each area's soil and carries out elemental analysis, analysis result by controlling terminal machine import server into
Row storage;
By the data analysis in server, soil moisture content and nutrient density dynamic are grasped in real time, finds out the fertilizer of crop shortage
To the infiltration rate of each element under various weather conditions, improved formulations fertilizer formula is reconfigured for element and crop,
Apply the formula fertilizer reconfigured, and so on, every 7 ~ 15 days progress loop configurations and fertilising in rational application of fertilizers area;
Supply canal and corresponding multiple electromagnetic water valves are set at traditional crop field area and long-term tillage monitoring test area, utilize soil
The measured value of earth moisture carries out moisture drought and waterlogging monitoring, realizes the remote real_time control of irrigation;
Using the radiation intensity of each band spectrum of the solar spectral analysis center real-time monitoring sun, shown in real time in controlling terminal machine
The road Shi Ge spectral curve, the ratio of global radiation and the cumulative amount of unit time Nei Ge road spectrum shared by spectrum, cooperation video prison
Control terminal observes the growing way of each area crop, is used for crop photosynthesis radiation research, obtain the wave band beneficial to plant growth and this
The relationship of wave band duration and fertilizer element consumption;
Using solar spectral analysis center, the light radiation situation in the crop growth period of this area is obtained, analyses scientifically and estimates
Crop yield compares the crop yield estimated and practical production capacity, obtains difference, carry out crop varieties replacement or into
One-step optimization implantation methods.
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Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104852989A (en) * | 2015-05-29 | 2015-08-19 | 北京东方海岸物联网科技有限责任公司 | A smart agriculture monitoring system based on Web of Things |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2439885B1 (en) * | 2010-10-08 | 2013-06-26 | Honeywell International Inc. | Method for digital communication between a plurality of nodes connected by a serial field bus and corresponding system, in particular a field control system or field surveillance system |
CN103134551A (en) * | 2012-07-23 | 2013-06-05 | 丁昱 | System of facility vegetable farmland environmental monitoring and standardized production based on internet of things |
CN103135517A (en) * | 2012-07-23 | 2013-06-05 | 丁昱 | Method of forming of facility agriculture standardization planting environment factor control scheme |
CN102867271A (en) * | 2012-08-16 | 2013-01-09 | 北京市农林科学院 | Method for forming facility agriculture standard planting environmental factor control scheme |
CN204406180U (en) * | 2015-02-02 | 2015-06-17 | 江西师范大学 | A kind of ecological agriculture supervising device based on Internet of Things |
CN205983048U (en) * | 2016-07-21 | 2017-02-22 | 太仓市农业技术推广中心 | Agricultural intelligent monitored control system based on thing networking |
-
2016
- 2016-07-21 CN CN201610575621.1A patent/CN106054679B/en active Active
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104852989A (en) * | 2015-05-29 | 2015-08-19 | 北京东方海岸物联网科技有限责任公司 | A smart agriculture monitoring system based on Web of Things |
Non-Patent Citations (1)
Title |
---|
《太仓市土壤墒情可视化智能动态监测预警平台》;沈文忠等;《安徽农业科学》;20151130;第43卷(第11期);摘要、关键词,第372-373页,图3-4 |
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