A kind of reading intelligent agriculture management-control method and system
Technical field
The present invention relates to net networking arenas, more particularly to a kind of reading intelligent agriculture management-control method and system.
Background technology
With the raising of technological level and the development of Internet of Things, much agricultural all introduces technology of Internet of things now, to
Reach intelligent management.Many plantations or farm or greenhouse now, are fitted with sensor, farm are detected by sensor
Or these information are sent network communication mould by the concentration etc. of the temperature, intensity of illumination and nutrient solution in plantation, sensor
Block, network communication module information are sent to user.Or sensor transmits these information to processor, processor is according in advance
The software program of design executes the corresponding operation of row for these information, for example, when detecting that canopy temperature is excessively high, processing
Device sends an instruction to cooler, opens cooler, is kept in a certain range to control temperature.
The problem of collapsing at present for natural calamity suffered by greenhouse, not yet it has been proposed that solution.
Invention content
A kind of reading intelligent agriculture management-control method of offer of the embodiment of the present invention and system can solve because of greenhouse caused by heavy snow
Collapse problem.
The embodiment of the present invention provides a kind of reading intelligent agriculture management-control method, including:Obtain greenhouse top pressure value;Described in acquisition
Pressure span of the pressure value residing for the table of comparisons of predetermined pressure section;Obtain alarm signal corresponding with the pressure span
Breath;The warning message is sent to receiving terminal.
Another embodiment of the present invention provides a kind of reading intelligent agriculture managing and control system, including:Pressure detecting module, for obtaining
Pressure information at the top of greenhouse;Pressure span acquisition module, for obtaining the pressure value in the predetermined pressure section table of comparisons
Residing pressure span;Warning message determining module, for obtaining warning message corresponding with the pressure span;Information is sent out
Module is sent, the warning message is sent to receiving terminal.
A kind of reading intelligent agriculture management-control method and system that the disclosure provides, pass through receiving terminal and manipulate farm equipment and obtain sensing
Device information obtains greenhouse top pressure by sensor, and generates corresponding warning message according to the pressure information and send
To receiving terminal, larger economic loss is brought to user so as to effectively avoid greenhouse from collapsing.
Description of the drawings
Fig. 1 is a kind of reading intelligent agriculture management-control method flow chart provided by one embodiment of the present invention.
Fig. 2 is a kind of reading intelligent agriculture managing and control system that another embodiment of the present invention provides.
Specific implementation mode
Embodiment 1.
As shown in Figure 1, providing a kind of reading intelligent agriculture management-control method, it is as follows shown:
S101 obtains greenhouse top pressure value;By installing pressure sensor at the top of greenhouse, to obtain at the top of the greenhouse
Pressure value.
S102 obtains pressure span of the pressure value residing for the table of comparisons of predetermined pressure section;
S103 obtains warning message corresponding with the pressure span;
The warning message is sent to receiving terminal by S104.
According to the maximum pressure value that greenhouse can be born, the pressure span is divided into four parts.Shown in table 1 specific as follows.
M indicates the maximum pressure value that can be born at the top of greenhouse in table.When the greenhouse top pressure value that sensor is got is in 3/4M --- M
Between when, at this time corresponding pressure span be first area;When the greenhouse top pressure value that sensor is got is 1/
2M --- when between 3/4M, corresponding pressure span is second area at this time;When the greenhouse top pressure that sensor is got
Value is in 1/4M --- and when between 1/2M, corresponding pressure span is third region at this time;When the big ceiling that sensor is got
Portion's pressure value is 0 --- and when between 1/4M, corresponding pressure span is the fourth region at this time.Certainly the division in region can here
There are other modes, five or six regions etc. can also be divided into.Meanwhile user sets itself can also divide as needed
Standard.
Table 1
Pressure span |
Range of pressure values |
Warning message |
First area |
3/4M——M |
The tinkle of bells, voice, red light |
Second area |
1/2M——3/4M |
The tinkle of bells, amber light |
Third region |
1/4M——1/2M |
Amber light, short message |
The fourth region |
0——1/4M |
Short message |
By upper table 1 it is found that taking different type of alarm according to different pressures region, at the top of the greenhouse that sensor is got
For pressure value at first area, this described warning message includes that the tinkle of bells adds voice to add red light.When the big ceiling that sensor is got
For portion's pressure value in second area, the warning message includes the tinkle of bells and amber light.When the greenhouse top pressure that sensor is got
For value at third region or the fourth region, corresponding warning message is shown in table 1 above.
Here the tinkle of bells corresponding to different pressures region can be identical, can also be different, and user can also basis
The hobby or custom of oneself are voluntarily arranged.
Likewise, short message content here, can be identical, can also be different user can also be according to certainly
Oneself hobby or custom is voluntarily arranged.
Here warning message can also include when reaching greenhouse top pressure maximum bear the required prediction of pressure value
Between.
Predicted time described in this can be according to the front pressure value that inner sensor is detected for a period of time and corresponding time
Information, be fitted;Then the matched curve is repaiied according to the weather temperature information in current following a period of time
Just, predicted time is finally obtained.Specific method is for example:
Table 2
Time |
The greenhouse top pressure value got |
Temperature |
T1 |
A1 |
C1 |
…… |
…… |
…… |
Tx |
Ax |
Cx |
…… |
…… |
…… |
Tn |
An |
Cn |
Tn+1 |
|
Cn+1 |
Tn+2 |
|
Cn+2 |
…… |
|
…… |
Tm |
M |
Cm |
Wherein An indicates at the current Tn moment, the greenhouse top pressure value accessed by sensor;A2 indicates at the moment in past T2,
Greenhouse top pressure value accessed by sensor;Cn indicates the temperature value in current Tn moment current environment;C2 is indicated in mistake
Remove the temperature value of T2 moment current environments.Wherein Cn+2 indicates the temperature value at the following Tn+1 moment.Due to now can be more
The accurately curve that changes over time of temperature in prediction 24 hours, therefore, the temperature value that changes with time can be gone by network
It obtains.Such as from local meteorological observatory or weather forecast APP(Ink marks weather etc.)It obtains.That is C1, C2 ... Cm can be with
It goes to obtain by network.
Basis first(T1, A1)……(Tn, An), these data, can be fitted to obtain the curve that An is changed over time be
Ay1=k1*Tx+b1。
At this time predicted time Tm=(M-b1)/k1.
Certainly, since temperature can be modified temperature data to prediction, can improve continually changing
The accuracy of predicted time.
According to(C1, T1)……(Cn, Tn)These data are fitted to obtain curve Ay2=k2*C1+ that An is changed over time
b2。
Then pass through predicted time Tm=2* of temperature adjustmemt at this time(M-b1)/(k1+k2).
It can will be described by least one of mode in IBEACON, wifi-aware, 3G network and 4G networks
Warning message is sent to receiving terminal.
This method can also include receiving the instruction of receiving terminal transmission, and execute corresponding operation.Such as:Receiving terminal is received
To after warning information, the command information for improving greenhouse temperature is sent to information receiving device, then the information receiving device is held
Row improves the corresponding operation of greenhouse temperature(High power searchlight is opened, heater etc. is opened).These corresponding operations, can
To pre-set, can also user be voluntarily arranged as needed.
The present embodiment acquires pressure value at the top of greenhouse, and according to this by the way that pressure sensor is arranged at the top of greenhouse
Pressure value determines corresponding warning message, and the warning message is sent to receiving terminal.User's prompt can be effectively given,
It prevents natural disaster and causes roc to collapse to bring loss to user.Meanwhile warning message further includes reaching at the top of greenhouse most
The big predicted time born needed for pressure value, enable in this way user it is more convenient make decisions and select corresponding solution
Certainly mode.By the way that temperature information to be modified predicted time, the accuracy of predicted time is substantially increased.
Embodiment two.
As shown in Fig. 2, the present invention provides a kind of reading intelligent agriculture managing and control system, include as shown in Figure 2:
Pressure detecting module 21, for obtaining pressure information at the top of greenhouse;
Pressure span acquisition module 22, for obtaining pressure span of the pressure value residing for the table of comparisons of predetermined pressure section;
According to the maximum pressure value that greenhouse can be born, the pressure span is divided into four parts.Shown in table 1 specific as follows.In table 1
M indicates the maximum pressure value that can be born at the top of greenhouse.When the greenhouse top pressure value that sensor is got is in 3/4M --- between M
When, corresponding pressure span is first area at this time;When the greenhouse top pressure value that sensor is got is in 1/2M --- 3/
When between 4M, corresponding pressure span is second area at this time;When the greenhouse top pressure value that sensor is got is 1/
4M --- when between 1/2M, corresponding pressure span is third region at this time;When the greenhouse top pressure that sensor is got
Value is 0 --- and when between 1/4M, corresponding pressure span is the fourth region at this time.Certainly the division in region can have it here
His mode, can also be divided into five or six regions etc..Meanwhile user can also as needed sets itself divide mark
It is accurate.
Warning message determining module 23, for obtaining warning message corresponding with the pressure span;
By upper table 1 it is found that taking different type of alarm according to different pressures region, at the top of the greenhouse that sensor is got
For pressure value at first area, this described warning message includes that the tinkle of bells adds voice to add red light.When the big ceiling that sensor is got
For portion's pressure value in second area, the warning message includes the tinkle of bells and amber light.When the greenhouse top pressure that sensor is got
For value at third region or the fourth region, corresponding warning message is shown in table 1 above.
Here the tinkle of bells corresponding to different pressures region can be identical, can also be different, and user can also basis
The hobby or custom of oneself are voluntarily arranged.
Likewise, short message content here, can be identical, can also be different user can also be according to certainly
Oneself hobby or custom is voluntarily arranged.
The warning message is sent to receiving terminal by information sending module 24.
Wherein, described information sending module further includes:
Predicted time unit bears the required predicted time of pressure value for obtaining arrival greenhouse top pressure maximum.
Predicted time described in this can be according to the front pressure value that inner sensor is detected for a period of time and corresponding time
Information, be fitted;Then the matched curve is repaiied according to the weather temperature information in current following a period of time
Just, predicted time is finally obtained.Specific method is as shown in upper table 2:
Wherein An indicates at the current Tn moment, the greenhouse top pressure value accessed by sensor;A2 indicates at the moment in past T2,
Greenhouse top pressure value accessed by sensor;Cn indicates the temperature value in current Tn moment current environment;C2 is indicated in mistake
Remove the temperature value of T2 moment current environments.Wherein Cn+2 indicates the temperature value at the following Tn+1 moment.Due to now can be more
The accurately curve that changes over time of temperature in prediction 24 hours, therefore, the temperature value that changes with time can be gone by network
It obtains.Such as from local meteorological observatory or weather forecast APP(Ink marks weather etc.)It obtains.That is C1, C2 ... Cm can be with
It goes to obtain by network.
Basis first(T1, A1)……(Tn, An), these data, can be fitted to obtain the curve that An is changed over time be
Ay1=k1*Tx+b1。
At this time predicted time Tm=(M-b1)/k1.
Certainly, since temperature can be modified temperature data to prediction, can improve continually changing
The accuracy of predicted time.
According to(C1, T1)……(Cn, Tn)These data are fitted to obtain curve Ay2=k2*C1+ that An is changed over time
b2。
Then pass through predicted time Tm=2* of temperature adjustmemt at this time(M-b1)/(k1+k2).
Certainly the device further includes:Instruction accepting unit, the command information for receiving receiving terminal transmission;
Instruction execution unit executes corresponding snow removing according to command information and operates.
The snow removing operates:High power searchlight is opened, heater etc. is opened.
The present embodiment acquires pressure value at the top of greenhouse, and according to this by the way that pressure sensor is arranged at the top of greenhouse
Pressure value determines corresponding warning message, and the warning message is sent to receiving terminal.User's prompt can be effectively given,
It prevents natural disaster and causes roc to collapse to bring loss to user.Meanwhile warning message further includes reaching at the top of greenhouse most
The big predicted time born needed for pressure value, enable in this way user it is more convenient make decisions and select corresponding solution
Certainly mode.By the way that temperature information to be modified predicted time, the accuracy of predicted time is substantially increased.