CN204102307U - For the harvester of double frequency, multi-frequency microwave link measurement quantity of precipitation - Google Patents

Abstract

The utility model relates to a kind of weather information process and application, particularly relate to the information processing for double frequency, multi-frequency microwave link measurement quantity of precipitation and application, more specifically relate to the harvester for double frequency, multi-frequency microwave link measurement quantity of precipitation.Creatively propose the harvester disclosing a kind of double frequency, multi-frequency microwave link measurement quantity of precipitation, thus Rainfall estimation that is long-time, robotization can be realized, more importantly be can accurate, long time, obtain and detect data efficiently, to the practical application of theoretical assay method and popularization, there is importantly meaning.

Description

For the harvester of double frequency, multi-frequency microwave link measurement quantity of precipitation

Technical field

The present invention relates to a kind of weather information process and application, particularly relate to the information processing for double frequency, multi-frequency microwave link measurement quantity of precipitation and application, more specifically relate to the harvester for double frequency, multi-frequency microwave link measurement quantity of precipitation.

Background technology

Utilizing microwave link to measure precipitation is the fresh approach of the Rainfall estimation proposed in recent years, has the unique advantage of high-spatial and temporal resolution.Main Basis rain declines-quantity of precipitation relational model, and cause signal attenuation by the rain on microwave link during actual measurement precipitation, Inversion Calculation obtains actual quantity of precipitation.Because rain attenuation affects by factors such as rain-induced attenuation, rain drop shapes, raindrop temperature, and these factors are normally unknown.In order to when these information unknown, obtain less inversion error, people propose to utilize double frequency link or multifrequency link to measure the thought of quantity of precipitation, and the test link of the two or more pieces different frequency range that namely closely be arranged in parallel, observes precipitation simultaneously.

In process of the test, because each frequency on test link all needs a set of independently transmission and receiving equipment, and gather a secondary data at interval of a period of time, utilizing double frequency/multi-frequency microwave link to carry out Rainfall estimation then needs 2 covers or many cover signals to launch and signal receiver walks abreast the transmitting terminal and receiving end that are arranged on test link, use instrument is more, the test apparatus of different frequency range also needs to keep at a certain distance away in order to avoid influencing each other, and causes the error of spatially image data.

Therefore the current research about utilizing double frequency or multi-frequency microwave link to measure precipitation mainly rests on theoretical side, and do not inquire into specially the actualizing technology of this theory, especially realizing automatic measurement is the necessary condition applied.

Summary of the invention

The present invention is formally based on such Research foundation, creationary disclosing a kind ofly measures the harvester of quantity of precipitation for double frequency, multi-frequency microwave link, and the supporting measuring method disclosed based on this harvester, thus achieve the object utilizing double frequency link or multifrequency link to measure quantity of precipitation.What is more important, ensure that reliability and the accuracy of data in gatherer process.

One of goal of the invention of the present invention, that open one is by double frequency, multi-frequency microwave link measures the experimental provision that quantity of precipitation method realizes, and wherein the most important reliability and the accuracy that will ensure the data obtained in gatherer process exactly, in order to realize this goal of the invention, the invention discloses for double frequency, multi-frequency microwave link measures the harvester of quantity of precipitation, the ingredient of described harvester is as follows, first a broadband signal generator is had, and the transmitting terminal microwave electron switch to be connected with broadband signal generator, described transmitting terminal microwave electron switch place is provided with the transmitting antenna of n different frequency, described transmitting antenna is connected with transmitting terminal electronic switch signal respectively, next has a wideband signal spectrum analyser, and the receiving end microwave electron switch to be connected with wideband signal spectrum instrument, described receiving end microwave electron switch place is provided with the receiving antenna of n different frequency, described receiving antenna and transmitting antenna are mutually corresponding, and are connected with receiving end microwave electron switching signal.

Broadband signal generator is for generation of the microwave signal of 2 required for double frequency, multi-frequency microwave link or multiple frequency.Microwave signal in order to switch different transmission frequencies, and is emitted to by the transmitting antenna that signal connects with it in the air by transmitting terminal microwave electron switch.The receiving antenna corresponding with transmitting antenna receives from aerial microwave signal, and under the cooperation of receiving end microwave electron switch, the microwave signal received is sent to wideband signal spectrum analyser.

So far, double frequency, the signals collecting work of multi-frequency microwave link measurement required for quantity of precipitation is just completed.

Further, we disclose and also include microwave electron on-off controller.Thus the automatic switchover that can realize between different frequency.

Here this microwave electron on-off controller can realize with single chip circuit, and the mode that PC and peripheral circuit also can be selected to combine realizes, by producing the timing square-wave signal of 0 ~ 5V, as the input control signal of microwave electron switch.The microwave electron switch timing signal of transmitting terminal and receiving end must keep synchronous.In order to ensure the unified allocation of resources of square-wave signal, we can directly utilize single-chip microcomputer to carry out synchronously, also multiple peripheral square-wave transmission circuit can be unified be networked to PC with PC, utilize the time unification of PC itself, regularly, unify opening square wave transmitting circuit.

Meanwhile, as the self registering optimal way of one, we are also open also includes transmitting terminal registering instrument, receiving end registering instrument.

Registering instrument can select PC, and surveying instrument is connected with PC by network interface or GPIB port, and PC reads data command by sending, and obtains the output data of surveying instrument, and is kept in local file.

Another goal of the invention of the present invention is that simplify whole measurement structure further, Appropriate application Measuring Time, accomplishes data acquisition accurately and efficiently on the basis realizing double frequency, multi-frequency microwave link measurement quantity of precipitation method.In order to realize this purpose, the present invention discloses a kind of quantity of precipitation assay method based on the aforementioned harvester for double frequency, multi-frequency microwave link measurement quantity of precipitation further, comprises the following steps:

Step 1, the survey frequency number of microwave link determining measuring quantity of precipitation is n, determines that the number of signals collecting is m/minute, the switching frequency setting transmitting terminal microwave electron switch as second/time;

Step 2, transmitting terminal microwave electron switch switches a transmission frequency at interval of the second of order between n survey frequency, and records launch time, transmission frequency, emissive power;

Step 3, receiving end microwave electron switch keeps synchronous with transmitting terminal microwave electron switch, switches once corresponding receive frequency, and record time of reception, receive frequency, incoming level at interval of the second of order between n frequency;

Transmitting terminal can be connected with receiving end registering instrument with transmitting terminal with receiving end microwave electron on-off controller, provides unified controller start signal by it, ensures that on-off controller is synchronous.

Step 4, the launch time that comparison transmitting terminal is recorded and the time of reception that receiving end is recorded, determine the whether synchronous of time; If time consistency, be then valid data; If Time Inconsistency, then think invalid data, abandon data, the time synchronized of simultaneously carrying out transmitting terminal and receiving end adjusts;

Here our said time synchronized of carrying out transmitting terminal and receiving end adjusts, and its method is:

Can adopt at the measurement initial stage and manually adjust way, the time of contrast transmitting terminal and receiving end, the clock of two registering instruments is adjusted to unanimously.

Also can adopt automatic adjustment way at run duration, by two registering instruments accessing Internet simultaneously, utilize Internet time server to reach synchronous.

Step 5, for the part thinking valid data in step 4, the transmission frequency that further comparison transmitting terminal is recorded and the receive frequency that receiving end is recorded, if frequency is consistent, then think that data are effective; If frequency is inconsistent, then abandon data, the Frequency Synchronization of simultaneously carrying out transmitting terminal and receiving end adjusts;

Here our said Frequency Synchronization of carrying out transmitting terminal and receiving end adjusts, and its method is:

By two registering instruments accessing Internet simultaneously, transmitting terminal registering instrument sends current transmission frequency to receiving end registering instrument, after receiving end registering instrument receives, realizes Frequency Synchronization adjustment by GPIB port or network interface to surveying instrument transmission frequency adjustment instruction.

Step 6, using by still thinking after step 5 that the part of valid data is as calculating sample, utilizes emissive power, incoming level, calculates the average precipitation on this path according to the algorithm of multi-frequency microwave link measurement precipitation.

Concrete quantity of precipitation computing method, " the rainfall field inversion method research based on microblogging link " (Acta Physica Sinica, Vol62, No.15 (2013) 154303-1 ~ 154303-8) that can deliver with reference to people such as Jiang Shitai.

Based on technical scheme disclosed in this invention, Rainfall estimation that is long-time, robotization can be realized, be more importantly can accurate, long time, obtain and detect data efficiently, to the practical application of theoretical assay method and popularization, there is importantly meaning.

Accompanying drawing explanation

Fig. 1 is the harvester schematic diagram for double frequency, multi-frequency microwave link measurement quantity of precipitation;

Fig. 2 is the quantity of precipitation assay method process flow diagram based on the harvester for double frequency, multi-frequency microwave link measurement quantity of precipitation.

embodiment

Below in conjunction with accompanying drawing, the present invention will be further elaborated.

Embodiment 1

As shown in Fig. 1, for the harvester of double frequency, multi-frequency microwave link measurement quantity of precipitation, the ingredient of described harvester is as follows, first a broadband signal generator 1 is had, and the transmitting terminal microwave electron switch 2 to be connected with broadband signal generator, described transmitting terminal microwave electron switch place is provided with the transmitting antenna 3 of n different frequency, and described transmitting antenna 3 is connected with transmitting terminal electronic switch 2 signal respectively; Next has a wideband signal spectrum analyser 4, and the receiving end microwave electron switch 5 to be connected with wideband signal spectrum instrument 4, described receiving end microwave electron switch 5 place is provided with the receiving antenna 6 of n different frequency, described receiving antenna 6 is mutually corresponding with transmitting antenna 3, and is connected with receiving end microwave electron switch 5 signal.

Broadband signal generator 1 is for generation of the microwave signal of 2 required for double frequency, multi-frequency microwave link or multiple frequency.Microwave signal in order to switch different transmission frequencies, and is emitted to by the transmitting antenna 3 that signal connects with it in the air by transmitting terminal microwave electron switch 2.The receiving antenna 6 corresponding with transmitting antenna 3 receives from aerial microwave signal, and under the cooperation of receiving end microwave electron switch 5, the microwave signal received is sent to wideband signal spectrum analyser 4.

Thus complete double frequency, the signals collecting of multi-frequency microwave link measurement required for quantity of precipitation.

Embodiment 2

On the basis of embodiment 1, we also disclose microwave electron on-off controller further, and respectively this microwave electron on-off controller is configured in transmitting terminal and receiving end, thus form transmitting terminal microwave electron on-off controller 71, receiving end microwave electron on-off controller 72, in the present embodiment, microwave electron on-off controller can realize with single chip circuit, also the mode that PC and peripheral circuit can be selected to combine realizes, by producing the timing square-wave signal of 0 ~ 5V, as the input control signal of microwave electron switch.The microwave electron switch timing signal of transmitting terminal and receiving end must keep synchronous.In order to ensure the unified allocation of resources of square-wave signal, we can directly utilize single-chip microcomputer to carry out synchronously, also multiple peripheral square-wave transmission circuit can be unified be networked to PC with PC, utilize the time unification of PC itself, regularly, unify opening square wave transmitting circuit.

Embodiment 3

More preferred mode is on the basis of embodiment 1 or embodiment 2, and we are open further also includes transmitting terminal registering instrument 81, receiving end registering instrument 82.

Embodiment 4

Based on embodiment 1 or embodiment 2, special more preferably based on embodiment 3, we coordinate Fig. 2 further, disclose a kind of quantity of precipitation assay method based on the aforementioned harvester for double frequency, multi-frequency microwave link measurement quantity of precipitation, comprise the following steps:

Step 1, the survey frequency number of microwave link determining measuring quantity of precipitation is n, determines that the number of signals collecting is m/minute, the switching frequency setting transmitting terminal microwave electron switch as second/time;

Step 2, transmitting terminal microwave electron switch switches a transmission frequency at interval of the second of order between n survey frequency, and records launch time, transmission frequency, emissive power;

Step 3, receiving end microwave electron switch keeps synchronous with transmitting terminal microwave electron switch, switches once corresponding receive frequency, and record time of reception, receive frequency, incoming level at interval of the second of order between n frequency;

Step 4, the launch time that comparison transmitting terminal is recorded and the time of reception that receiving end is recorded, determine the whether synchronous of time; If time consistency, be then valid data; If Time Inconsistency, then think invalid data, abandon data, the time synchronized of simultaneously carrying out transmitting terminal and receiving end adjusts;

Such as, transmitting terminal registering instrument and receiving end registering instrument accessing Internet simultaneously, utilizes Internet time server to reach synchronous.The document data records such as the transmitting time of record, transmission frequency, transmitted power send or share to receiving end registering instrument by transmitting terminal registering instrument.Receiving end registering instrument reads the record data of transmitting terminal registering instrument, and compares with the record data of this locality, if transmitting time and time of reception inconsistent, initiatively can carry out Internet time synchronized.

Step 5, for the part thinking valid data in step 4, the transmission frequency that further comparison transmitting terminal is recorded and the receive frequency that receiving end is recorded, if frequency is consistent, then think that data are effective; If frequency is inconsistent, then abandon data, the Frequency Synchronization of simultaneously carrying out transmitting terminal and receiving end adjusts;

Specifically, two registering instruments accessing Internet simultaneously, the document data records such as the transmitting time of record, transmission frequency, transmitted power send or share to receiving end registering instrument by transmitting terminal registering instrument.Receiving end registering instrument reads the record data of transmitting terminal registering instrument, and compare with the record data of this locality, if transmission frequency and receive frequency inconsistent, receiving end registering instrument realizes Frequency Synchronization adjustment by GPIB port or network interface to surveying instrument transmission frequency adjustment instruction.

Step 6, using by still thinking after step 5 that the part of valid data is as calculating sample, utilizes emissive power, incoming level, calculates the average precipitation on this path according to the algorithm of multi-frequency microwave link measurement precipitation.Specifically, be collected in a certain transmission frequency, frequency reception signal is identical with transmission frequency, signal reception time and transmitting time consistent, and when transmitted power is identical, several incoming level sample values under different time and weather conditions, calculate the average precipitation on this path according to the algorithm of multi-frequency microwave link measurement precipitation.

Embodiment 5

As one further refinement explanation, we further illustrate on the basis of embodiment 4.

First, the survey frequency number determining the microwave link measuring quantity of precipitation is 2,11GHz and 20GHz respectively, determine that the number of signals collecting is 3/minute, namely within each frequency every 20 seconds, gather 1 secondary data, the switching frequency based on this setting transmitting terminal microwave electron switch is 10 seconds/time;

Secondly, require that transmitting terminal and receiving end all normally can work in 11GHz and 20GHz frequency range, first transmitting terminal and receiving end are operated on 11GHz 9: 10: 00 on the 5th July in 2013 simultaneously, interval is after 10 seconds, transmitting terminal and receiving end are switched to the frequency of operation of 20GHz simultaneously, then interval is after 10 seconds, and transmitting terminal and receiving end are switched to the frequency of operation of 11GHz more simultaneously, by that analogy, repeatedly carry out.After transmitting terminal and receiving end simultaneously switch operating frequency when 5 seconds, carry out the data acquisition sending signal and Received signal strength.

The data of table 1 transmitting terminal record

The data of table 2 receiving end record

Then, the launch time that comparison transmitting terminal is recorded and the time of reception that receiving end is recorded, determine the whether synchronous of time; If time consistency, be then valid data; If Time Inconsistency, then think invalid data, abandon data, the time synchronized of simultaneously carrying out transmitting terminal and receiving end adjusts;

Such as, the 3rd group of data in transmitting and receiving data, receiving end writing time is 9: 10: 26, and sending writing time is 9: 10: 25, now time irreversibility, and these data are invalid data, and triggers transmitting terminal and receiving end carries out time synchronized adjustment.

Then, for the part thinking valid data in step 4, the transmission frequency that further comparison transmitting terminal is recorded and the receive frequency that receiving end is recorded, if frequency is consistent, then think that data are effective; If frequency is inconsistent, then abandon data, the Frequency Synchronization of simultaneously carrying out transmitting terminal and receiving end adjusts;

Such as, the 5th group of data in transmitting and receiving data, transmitting and receiving frequency is 11.005GHz, and inconsistent with the 11GHz test frequency of setting, these data are invalid data, and trigger transmitting terminal and receiving end carries out Frequency Synchronization adjustment.

Finally, the data available of acquisition is the data such as transmitting terminal and receiving end record the 1st group, the 2nd group, the 4th group, the 6th group.

Based on above-mentioned level sample value, to the microwave link of each frequency, utilize emissive power, incoming level, with reference to " the rainfall field inversion method research based on microwave link " (Acta Physica Sinica that the people such as Jiang Shitai deliver, Vol62, No.15 (2013) 154303-1 ~ 154303-8), the average precipitation on this path is calculated according to the algorithm of multi-frequency microwave link measurement precipitation.

Claims (3)

1. for the harvester of double frequency, multi-frequency microwave link measurement quantity of precipitation, it is characterized in that, the ingredient of described harvester is as follows, first a broadband signal generator is had, and the transmitting terminal microwave electron switch to be connected with broadband signal generator, described transmitting terminal microwave electron switch place is provided with the transmitting antenna of n different frequency, and described transmitting antenna is connected with transmitting terminal electronic switch signal respectively; Next has a wideband signal spectrum analyser, and the receiving end microwave electron switch to be connected with wideband signal spectrum instrument, described receiving end microwave electron switch place is provided with the receiving antenna of n different frequency, described receiving antenna and transmitting antenna are mutually corresponding, and are connected with receiving end microwave electron switching signal.

2. the harvester for double frequency, multi-frequency microwave link measurement quantity of precipitation according to claim 1, is characterized in that, also include microwave electron on-off controller.

3. the harvester for double frequency, multi-frequency microwave link measurement quantity of precipitation according to claim 1 and 2, is characterized in that, also include transmitting terminal registering instrument, receiving end registering instrument.