CN108267801A - A kind of shared wind speed and direction pressure monitoring system - Google Patents

Abstract

The invention discloses a kind of shared wind speed and direction pressure monitoring systems, including wind speed and direction Pressure monitoring instrument, specifically include sensor, monolithic computer chip and communication module；The sensor is used to acquire wind speed and direction barometric information；The monolithic computer chip, the wind speed and direction barometric information for being acquired to sensor are analyzed, and obtain wind speed and direction air pressure precise information；Wind speed and direction air pressure precise information for providing internet connection, and is transmitted to Cloud Server device by the communication module；Cloud Server device carries out classification processing for the wind speed and direction air pressure precise information to reception and stores；Mobile intelligent terminal device, treated for obtaining Cloud Server wind speed and direction barometric information, and show wind speed and direction barometric information.The present invention can accurately react the wind speed and direction barometric information in some areas, and people is helped more accurately to grasp wind speed and direction barometric information.

Description

A kind of shared wind speed and direction pressure monitoring system

Technical field

The present invention relates to atmospheric monitoring technical fields, and in particular to a kind of shared wind speed and direction air pressure monitoring device.

Background technology

Wind speed and direction Pressure monitoring traditional at present is relatively rough, and data collection point quantity is few, it is impossible to accurate reaction part The wind speed and direction barometric information in area, it is impossible to refine to such as：The wind speed and direction barometric information in my family garden etc..Weather is broadcast at present The a wide range of wind speed and direction air pressure in city can only be expressed by reporting, general tens kilometers of city length and width, large size city length and width kilometers up to a hundred, The so big wind speed and direction barometric information difference in region is also bigger, and each region wind speed and direction barometric information is variant, always The wind speed and direction barometric information of regional area can not accurately be monitored.

Invention content

The present invention is insufficient for current wind speed and direction air pressure acquisition point, the coarse pain spot of mathematical model, provides a kind of cheap The simple short-term non-maintaining wind speed and direction air pressure monitoring device of installation can accurately report the atmospheric condition in harvester place, Can allow user when understand garden, balcony, plant area, entertainment for children garden, large supermarket and various public tourisms self in fact The wind speed and direction barometric information of garden etc., and while passing through internet share to all authorized users in fact.

To achieve the above object, the present invention uses following technical solution：

A kind of shared wind speed and direction pressure monitoring system, including

Wind speed and direction Pressure monitoring instrument specifically includes sensor, monolithic computer chip and communication module；

The sensor is used to acquire wind speed, wind direction, barometric information；

The monolithic computer chip, the wind speed and direction barometric information for being acquired to sensor are analyzed, and obtain wind speed and wind To air pressure precise information；

Wind speed and direction air pressure precise information for providing internet connection, and is transmitted to Cloud Server dress by the communication module It puts；

Cloud Server device carries out classification processing for the wind speed and direction air pressure precise information to reception and stores；

Mobile intelligent terminal device, treated for obtaining Cloud Server wind speed and direction barometric information, and show wind speed Wind direction barometric information.

Preferably, the sensor is air velocity transducer or/and wind transducer or/and baroceptor.

Preferably, the wind speed and direction Pressure monitoring instrument further includes power supply module, the power supply module, for for the wind Fast wind direction Pressure monitoring instrument power supply.

Preferably, the communication module is wifi communication modules.

Preferably, the classification processing described in the Cloud Server device is according to IP address to wind speed and direction air pressure precise information Classification processing is carried out by region, time shaft.

Preferably, the display data described in the mobile intelligent terminal device is that wind speed and direction barometric information is pressed great Qu Domain, zonule, Basic monitoring point are with precise information form or the classification display of region cloud atlas.

Preferably, the wind speed and direction air pressure precise information is carries out pipe to the wind speed and direction barometric information that sensor acquires The data obtained after road formula digital filtering integral algorithm processing；Shown algorithm specific steps include：

Filling step fills and the wind speed and direction barometric information in Sampling time periods is pressed into pipe based on the principle of first in first out Road；

It determines step, determines the sampling time interval changed based on external environment wind speed and direction air pressure real time data；

Mean value calculation step calculates the average value based on wind speed and direction barometric information in sampling time interval interior conduit；

Comparison step, more each wind speed and direction barometric information and average value, difference are then pressed into pipeline such as in allowed band；

Step is calculated, calculates wind speed and direction barometric information to be output in pipeline；

Step is exported, the wind speed and direction air pressure output data of acquisition is exported.

Preferably, pipeline described in the filling step is 128-1024 double byte；In the mean value calculation step The average value is to the data sampling in pipeline, carries out integral operation, acquired results divided by pipeline depth, the average value with Constantly change with the increase and decrease of data；In the comparison step, the allowed band limits or to force by multiple adjacent datas Change rate automatically generates；It is described to be calculated as based on the sampling time in the calculating step, it differentiates to obtain to pipeline integration data To accurate instant output data；It is further preferred that Bit extensions also are carried out to output data, to improve software resolving accuracy.

A kind of shared wind speed and direction Pressure monitoring method, includes the following steps,

Obtaining step obtains the wind speed and direction air pressure essence obtained after analyzing the wind speed and direction barometric information that sensor acquires Exact figures evidence；

Forwarding step sends the wind speed and direction air pressure precise information to Cloud Server；

Cloud Server processing step carries out the wind speed and direction air pressure precise information of reception classification processing and stores, sends Treated wind speed and direction barometric information is to mobile intelligent terminal；

Step display receives the Cloud Server treated wind speed and direction barometric information, and shows wind speed and direction barometric information.

Preferably, it is that wind speed and direction barometric information is carried out that wind speed and direction air pressure precise information is provided in the obtaining step Duct type digital filtering integral algorithm, specific steps include：

Filling step fills and the wind speed and direction barometric information in Sampling time periods is pressed into pipe based on the principle of first in first out Road；

It determines step, determines the sampling time interval changed based on external environment wind speed and direction air pressure real time data；

Mean value calculation step calculates the average value of wind speed and direction barometric information in pipeline；

Comparison step, more each wind speed and direction barometric information and average value, difference are then pressed into pipeline such as in allowed band；

Step is calculated, calculates wind speed and direction barometric information to be output in pipeline；

Step is exported, the wind speed and direction air pressure output data of acquisition is exported.

Preferably, the Cloud Server processing step is carries out at classification the wind speed and direction air pressure precise information received Reason, and stored according to IP address by region, time shaft；During request data, the Cloud Server program will treated wind Fast wind direction air pressure precise information is sent to mobile intelligent terminal by internet.

The present invention has the advantages that：

The present invention can solve user to accurately controlling the demand of wind speed and direction air pressure, know whenever and wherever possible in the big data epoch Wind speed and direction barometric information in 10 meters at one's side, 100 meters, 1000 meters reaches very low cost by the situation of data sharing and completes Precision data is known.Make society more accurate to environmental monitoring, achieve the purpose that promote social environment consciousness.

Description of the drawings

Fig. 1 is the shared wind speed and direction pressure monitoring system structure chart of the embodiment of the present invention.

Fig. 2 is the structure chart of the wind speed and direction Pressure monitoring instrument of the embodiment of the present invention.

Fig. 3 is the flow chart of the duct type digital filtering integral algorithm of the embodiment of the present invention.

Fig. 4 is the shared wind speed and direction Pressure monitoring method and step figure of the embodiment of the present invention.

Specific embodiment：

In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, to this hair It is bright to be further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and does not have to It is of the invention in limiting.

Embodiment 1

The embodiment of the present invention, a kind of shared wind speed and direction pressure monitoring system, as shown in Figure 1, being supervised including wind speed and direction air pressure Survey instrument 1, Cloud Server 2 and mobile intelligent terminal 3.As shown in Fig. 2, wind speed and direction Pressure monitoring instrument 1, including monolithic computer core Piece 11, air velocity transducer 12, wind transducer 13, baroceptor 14, solar cell 15 and wifi communication modules 16.The sun Energy battery 15 is powered as power supply module for atmospheric temperature humidity detection instrument 1.Monolithic computer chip 11 obtains wind speed and passes in real time Sensor 12, wind transducer 13, baroceptor 14 acquire wind speed and direction barometric information, and to wind speed and direction barometric information into The processing of row duct type digital filtering integral algorithm improves the accuracy of wind speed and direction barometric information, obtains wind speed and direction air pressure essence Exact figures evidence.WiFi communication module accesses family or city Common Gateway access internet, and in real time obtained wind speed and direction gas Pressure precise information is transmitted to Cloud Server.Cloud Server carries out classification processing, and root to the wind speed and direction barometric information received It is handled and is stored by region, time shaft according to IP address.When mobile intelligent terminal asks wind speed and direction by wechat small routine During barometric information, server according to the specifying informations such as IP address, the request time of requesting terminal generation by big region, zonule, The wind speed and direction barometric information of the forms such as Basic monitoring point or region cloud atlas form, and mobile intelligent terminal is sent to, mobile intelligence Energy terminal is shown according to corresponding form in wechat small routine one by one.

As shown in figure 3, the duct type digital filtering integral algorithm in the present embodiment, is as follows：

S11, filling step the data collection in preset wind speed and direction barometric information collection period and are packed into pipe Data are filled in road.Pipeline is 128-1024 double byte.The acquisition of duct type data is to show data as water flowing into pipeline one Sample is first in first out, is kept synchronous with data collection cycle.

S12 determines step, is required according to external environment wind speed and direction barometric information real-time response, determines suitable sampling Time interval, this contributes to accurate description of the entire pipeline to pipeline time shaft.Such as the sampling period is 5 seconds, 1024 grades of pipelines Corresponding time shaft is 5120 seconds, and the time range of energy accurate expression was up to 90 minutes, so correctly defining sampling period and pipe The precise information that road depth is conducive to local time's range describes.

S13, mean value calculation step, calculate pipeline in wind speed and direction barometric information average value.Average value is to pipeline In wind speed and direction barometric information carry out integral operation, acquired results divided by pipeline depth.Average value is with wind speed and direction air pressure number According to increase and decrease and constantly change.Each new data enters and an average value is asked in the ejection of legacy data.

S14, comparison step, more each wind speed and direction barometric information and average value, if the difference of the two is in setting In the range of permission, then wind speed and direction barometric information be pressed into pipeline, if the difference of the two outside the allowed band of setting, The wind speed and direction barometric information is abandoned.Wherein allowed band is to force restriction or automatic by multiple adjacent data change rates Generation.

S15 calculates step, calculates the wind speed and direction barometric information to be output in pipeline.Specific calculation is to pipe Trace integral data differentiate to obtain accurate instant output data.Can also Bit extensions be carried out to output data, to improve software Resolving accuracy.Differential is asked for integration accumulation data, we can also obtain precision higher than average value by changing differential depth The data of data bits.Such as our sample precisions are 12Bit, when pipeline depth for 1024 i.e. 2^10 integrated depths index both It is 10, when we seek output data the differential calculation that depth is 9, it is possible to obtain the extension output of 13Bit, extend certainly Digit is more, and seniority top digit precision can also decline.

S16 exports step, the wind speed and direction air pressure output data of acquisition is exported.Each new data press-in pipeline It will can all run a deuterzooid algorithm at this time there are one oldest data ejection pipeline, seek out average data or spreading number According to, and one precise information of synchronism output on demand.

Embodiment 1 has following advantageous effect, can solve user to accurately controlling wind speed and direction in the big data epoch The demand of air pressure knows the wind speed and direction barometric information in 10 meters at one's side, 100 meters, 1000 meters, passes through data sharing whenever and wherever possible Situation reach very low cost and complete precision data and know.Make society more accurate to environmental monitoring, reach promotion social enviroment protection The purpose of consciousness.

Embodiment 2

A kind of shared wind speed and direction Pressure monitoring method of the present invention, as shown in figure 4, being as follows：

S01, obtaining step obtain air velocity transducer 12, wind transducer 13 and air pressure sensing in wind speed and direction Pressure monitoring instrument 1 The wind speed and direction barometric information that device 14 acquires, monolithic computer chip 11 analyzes wind speed and direction barometric information, and with managing Road formula digital filtering integral algorithm carries out collected wind speed and direction barometric information the extraction of wind speed and direction air pressure precise information, Bad data is excluded, obtains more accurate wind speed and direction barometric information.

S02, forwarding step, the monolithic computer chip 11 in wind speed and direction Pressure monitoring instrument 1 call WiFi communication module 16, the wind speed and direction air pressure precise information of generation is sent to Cloud Server by internet.

S03, Cloud Server processing step carry out classification processing, i.e. root to the wind speed and direction air pressure precise information received It is stored according to IP address by region, time shaft；When mobile intelligent terminal 3 asks wind speed and direction barometric information, according to request Corresponding wind speed and direction barometric information is sent to movement by the specifying information of mobile intelligent terminal 3, such as specific regional information etc. Intelligent terminal 3.

S04, step display, mobile intelligent terminal 3 according to the wind speed and direction barometric information of the Cloud Server 2 received, are pressed It shows according to the form of big region, zonule, Basic monitoring point and carries out classification according to region cloud atlas and show.

Embodiment 2 has following advantageous effect：User can be solved to accurately controlling wind speed and direction in the big data epoch The demand of air pressure knows the wind speed and direction barometric information in 10 meters at one's side, 100 meters, 1000 meters, passes through data sharing whenever and wherever possible Situation reach very low cost and complete precision data and know.Make society more accurate to environmental monitoring, reach promotion social enviroment protection The purpose of consciousness.

It is the better embodiment of the present invention above, but the scope of the present invention is not limited thereto.It is any to be familiar with this field Technical staff disclosed herein technical scope in, without transformation or replacement that creative work is expected, should all cover Within protection scope of the present invention.Therefore protection scope of the present invention should be subject to the protection domain that claim is limited.

Claims (10)

1. a kind of shared wind speed and direction pressure monitoring system, which is characterized in that including

Wind speed and direction Pressure monitoring instrument specifically includes sensor, monolithic computer chip and communication module；

The sensor is used to acquire wind speed, wind direction, barometric information；

The monolithic computer chip, the wind speed and direction barometric information for being acquired to sensor are analyzed, and obtain wind speed and wind To air pressure precise information；

Wind speed and direction air pressure precise information for providing internet connection, and is transmitted to Cloud Server dress by the communication module It puts；

Cloud Server device carries out classification processing for the wind speed and direction air pressure precise information to reception and stores；

Mobile intelligent terminal device, treated for obtaining Cloud Server wind speed and direction barometric information, and show wind speed Wind direction barometric information.

2. shared wind speed and direction pressure monitoring system according to claim 1, which is characterized in that the sensor is Air velocity transducer or/and wind transducer or/and baroceptor.

3. according to shared wind speed and direction pressure monitoring system described in claim 1, which is characterized in that the wind speed and direction air pressure Monitor further includes power supply module, the power supply module, for powering for the wind speed and direction Pressure monitoring instrument.

4. shared wind speed and direction pressure monitoring system according to claim 1, which is characterized in that the Cloud Server dress Classification processing described in putting is is carried out by region, time shaft at classification wind speed and direction air pressure precise information according to IP address Reason.

5. shared wind speed and direction pressure monitoring system according to claim 1, which is characterized in that the intelligent movable is whole Display data described in end device is with perfect number by wind speed and direction barometric information by big region, zonule, Basic monitoring point According to form or the classification display of region cloud atlas.

6. shared wind speed and direction pressure monitoring system according to claim 1, which is characterized in that the wind speed and direction gas Pressure precise information is to be obtained after carrying out the processing of duct type digital filtering integral algorithm to the wind speed and direction barometric information that sensor acquires The data arrived；Shown algorithm specific steps include：

Filling step fills and the wind speed and direction barometric information in Sampling time periods is pressed into pipe based on the principle of first in first out Road；

It determines step, determines the sampling time interval changed based on external environment wind speed and direction air pressure real time data；

Mean value calculation step calculates the average value based on wind speed and direction barometric information in sampling time interior conduit；

Comparison step, more each wind speed and direction barometric information and average value, difference are then pressed into pipeline such as in allowed band；

Step is calculated, calculates wind speed and direction barometric information to be output in pipeline；

Step is exported, the wind speed and direction air pressure output data of acquisition is exported.

7. shared wind speed and direction pressure monitoring system according to claim 6, which is characterized in that in the filling step The pipeline is 128-1024 double byte；Average value described in the mean value calculation step is to the wind speed and direction in pipeline Barometric information samples, and carries out integral operation, acquired results divided by pipeline depth, the average value follow wind speed and direction barometric information Increase and decrease and constantly change；In the comparison step, the allowed band limits or to force by multiple adjacent data change rates It automatically generates；It is described to be calculated as based on the sampling time in the calculating step, it differentiates to pipeline integration data accurate to obtain Instant output data；It is further preferred that Bit extensions also are carried out to output data, to improve software resolving accuracy.

A kind of 8. shared wind speed and direction Pressure monitoring method, which is characterized in that include the following steps：

Obtaining step obtains the wind speed and direction air pressure essence obtained after analyzing the wind speed and direction barometric information that sensor acquires Exact figures evidence；

Forwarding step sends the wind speed and direction air pressure precise information to Cloud Server；

Cloud Server processing step carries out the wind speed and direction air pressure precise information of reception classification processing and stores, sends Treated wind speed and direction barometric information is to mobile intelligent terminal；

Step display receives the Cloud Server treated wind speed and direction barometric information, and shows wind speed and direction barometric information.

9. shared wind speed and direction Pressure monitoring method according to claim 8, which is characterized in that in the obtaining step It is that duct type digital filtering integral algorithm is carried out to wind speed and direction barometric information to provide wind speed and direction air pressure precise information, specific to walk Suddenly include：

Filling step fills and the wind speed and direction barometric information in Sampling time periods is pressed into pipe based on the principle of first in first out Road；

It determines step, determines the sampling time interval changed based on external environment wind speed and direction air pressure real time data；

Mean value calculation step calculates the average value of wind speed and direction barometric information in pipeline；

Comparison step, more each wind speed and direction barometric information and average value, difference are then pressed into pipeline such as in allowed band；

Step is calculated, calculates wind speed and direction barometric information to be output in pipeline；

Step is exported, the wind speed and direction air pressure output data of acquisition is exported.

10. shared wind speed and direction Pressure monitoring method according to claim 8, which is characterized in that the Cloud Server Processing step presses region, time to carry out classification processing to the wind speed and direction air pressure precise information received, and according to IP address Axis is stored；During request data, by treated, wind speed and direction air pressure precise information passes through interconnection to the Cloud Server program Net is sent to mobile intelligent terminal.