CN110851740B - Land-sea intelligent space-time analysis platform - Google Patents

Abstract

The invention relates to the technical field of time-space analysis of land and sea, and discloses an intelligent time-space analysis platform for land and sea. The land-sea intelligent spatio-temporal analysis platform includes a processor, and the input end of the processor includes a data storage module, a data comparison module, a spatio-temporal data acquisition module, a data extraction module, a first monitoring module and a data transmission module, and the processor The input end of the data storage module and the output end of the data comparison module are respectively electrically connected. In this land-sea intelligent spatio-temporal analysis platform, the data comparison module compares the data received by the data extraction module with the data collected by the spatio-temporal data acquisition module. The output data, and send a signal to the alarm module through the processor, and open the alarm device through the alarm module, so that the operator can repair the disturbed data transmission module in time.

Description

A land-sea intelligent spatio-temporal analysis platform

technical field

The invention relates to the technical field of land and sea space-time analysis, in particular to a land-sea intelligent space-time analysis platform.

Background technique

Spatio-temporal analysis refers to the analysis of data with time attributes and absolute and relative positions in three-dimensional space, as well as the process and methodology of analyzing these data. Due to the ubiquitous spatial correlation (global correlation and local correlation) in spatial data, coupled with the randomness and complexity of the time dimension, spatio-temporal data presents characteristics such as multi-dimensional, semantic, and spatio-temporal dynamic correlations. The existing land-sea intelligent spatio-temporal analysis platform collects and analyzes land-sea spatio-temporal data. When the collected data is transmitted, it is easily interfered by external signals, which will cause changes in the transmitted data. Maintenance of the interfering transmission module will change the quantity transmitted through the transmission module, which will easily lead to large errors in the analysis results.

Contents of the invention

Aiming at the deficiencies of the existing technology, the present invention provides a land-sea intelligent space-time analysis platform, which has the advantages of data comparison, etc., and solves the problem that when the collected data is transmitted, it is easily interfered by external signals, resulting in changes in the transmitted data , if the disturbed transmission module is not repaired in time, the quantity transmitted through the transmission module will change, which will easily lead to the problem of large error in the analysis result.

In order to achieve the above-mentioned data comparison purpose, the present invention provides the following technical solutions: a land-sea intelligent spatio-temporal analysis platform, including a processor, and the input end of the processor includes a data storage module, a data comparison module, a spatio-temporal data acquisition module, and a data extraction module. module, a first monitoring module and a data transmission module, the input ends of the processor are respectively electrically connected to the output ends of the data storage module and the output ends of the data comparison module, and the input ends of the data comparison module are respectively connected to the spatio-temporal data acquisition module The output end of the data extraction module is electrically connected to the output end of the data extraction module, the input end of the data extraction module is electrically connected to the output end of the data storage module and the output end of the first monitoring module, and the input end of the data storage module is connected to the data The output end of the transmission module is electrically connected, and the input end of the data transmission module is electrically connected to the output end of the spatio-temporal data acquisition module and the output end of the first monitoring module respectively.

The output of the processor comprises an alarm module, a data analysis module, an alarm device, a storage module, a first extraction module and a terminal platform, and the output of the processor is respectively connected with the input of the alarm module and the input of the data analysis module Electrically connected, the output end of the alarm module is electrically connected to the input end of the alarm device, the output end of the data analysis module is electrically connected to the input end of the result storage module, and the output end of the result storage module is respectively connected to the processor The input end is electrically connected to the input end of the first extraction module, and the first extraction module is electrically connected to the terminal platform bidirectionally.

The output end of the result storage module includes a second extraction module, a wireless transmission module and a mobile terminal, and the wireless transmission module includes a 3G module, a 4G module and a WIFI module.

Preferably, the output end of the result storage module is electrically connected to the input end of the second extraction module, and the second extraction module is electrically connected to the wireless transmission module by two wires, and the wireless transmission module is connected to the mobile terminal with bidirectional signals.

Preferably, the output end of the first extraction module and the output end of the second extraction module both include a data temporary storage module, a second monitoring module, a data clearing module and a timing module, and both the first extraction module and the second extraction module Two-way electrical connection with the data temporary storage module, the input end of the data temporary storage module is respectively electrically connected with the output end of the second monitoring module and the output end of the data clearing module, and the output end of the second monitoring module is connected with the timing module The input end is electrically connected, and the output end of the timing module is electrically connected to the input end of the data clearing module.

Preferably, the output end of the data comparison module includes a record storage module and a third extraction module, the input end of the record storage module is electrically connected to the output end of the data comparison module, and the output end of the record storage module is connected to the processor The input end of the record storage module is electrically connected to the third extraction module bidirectionally, and the output end of the third extraction module is electrically connected to the input end of the terminal platform.

Preferably, the output end of the processor includes a data deletion module, the output end of the processor is electrically connected to the input end of the data deletion module, and the output end of the data deletion module is electrically connected to the input end of the data storage module.

Preferably, the alarm device includes a buzzer and an indicator light.

Preferably, the mobile terminal includes a mobile phone and a laptop computer.

Preferably, the model of the processor is MSP430F673X, MSP430F672X hybrid microprocessor, the packaging pin of the processor is 80 pins, the highest operating frequency of the processor is 25MHZ, and the operating voltage range of the processor is 1.8 to 3.6 volts.

Compared with the prior art, the present invention provides a land-sea intelligent space-time analysis platform, which has the following beneficial effects:

The land-sea intelligent spatio-temporal analysis platform, by setting the first monitoring module, data extraction module, data comparison module, alarm module and alarm device, after the spatio-temporal data acquisition module collects land and sea spatio-temporal data, the data is transmitted to the data transmission module, through The data transmission module transmits the collected data to the data storage module, stores the collected data in the processor through the data storage module, and the first monitoring module monitors the data transmission module, and when there is data transmitted through the data transmission module, The first monitoring module detects the signal, and transmits the signal to the data extraction module, extracts the data received by the data storage module through the data extraction module, and transmits it to the data comparison module, and the data comparison module will pass the data received by the data extraction module The data is compared with the data collected by the spatio-temporal data acquisition module. If the comparison is consistent, the result is passed to the processor, so that the processor receives the data transmitted through the data storage module. If the comparison is inconsistent, the result is passed to the processor, so that the processor stops receiving The data transmitted from the data storage module sends a signal to the alarm module through the processor, and the alarm device is turned on through the alarm module, so that the buzzer buzzes and the indicator light lights up, which plays a role in the operation personnel and is convenient for the operation personnel in time. Repair the disturbed data transmission module to prevent the collected data from being easily interfered by external signals during transmission, resulting in changes in the transmitted data. If the disturbed transmission module is not repaired in time, the transmission The number of module transmissions changes, which easily leads to the problem of large errors in the analyzed results.

The land-sea intelligent space-time analysis platform, by setting the second extraction module, wireless transmission module and mobile terminal, the operator uses the mobile terminal to send a request to the wireless transmission module. After receiving the request, the wireless transmission module transmits the signal to the second The extraction module extracts the analysis structure required by the operator through the second extraction module, and transmits it to the mobile terminal through the wireless transmission module, so that the operator can view the analysis results of land and sea spatio-temporal data at any time.

The land-sea intelligent spatio-temporal analysis platform, by setting the data temporary storage module, the second monitoring module, the timing module and the data clearing module, when the operator uses the mobile terminal or terminal platform to view the land-sea spatio-temporal data analysis results, through the first extraction module or The second extraction module extracts the analysis results and transmits the analysis results to the data temporary storage module. The module extracts the analysis results, which effectively improves the response speed and facilitates the operator to view the same analysis results again. When viewing different analysis results, after the next analysis result is transferred into the data temporary storage module, the next analysis result will overwrite the previous analysis As a result, the data temporary storage module can only store one analysis result. At the same time, the second monitoring module monitors the data temporary storage module. When data enters the data temporary storage module, the second monitoring module detects the signal and transmits the signal To the timing module, the timing is performed through the timing module. After a certain period of time, the timing module transmits the signal to the data clearing module, and the data in the data temporary storage module is cleared through the data clearing module, and then the data stored in the data temporary storage module is cleaned regularly. .

The land-sea intelligent space-time analysis platform, by setting the data deletion module, when the result of the comparison of the data comparison module is inconsistent, the result is transmitted to the processor, and the processor sends a signal to the data deletion module. After the data deletion module receives the signal, it passes The data deletion module deletes the erroneous data received by the data storage module, and then automatically deletes the erroneous data, preventing the operator from not deleting the erroneous data, resulting in errors in the analysis results.

5. The land-sea intelligent space-time analysis platform, by setting the record storage module and the third extraction module, when the comparison results are inconsistent, the result after the comparison of the data comparison module is passed to the record storage module, and the comparison result is stored in the processor through the record storage module It is convenient for the operator to check the comparison results in the future, and judge the frequency of interference to the data transmission module according to the number of recorded comparison results.

Description of drawings

Fig. 1 is a schematic block diagram of the present invention;

Fig. 2 is the schematic diagram of alarm device of the present invention;

Fig. 3 is the schematic diagram of wireless transmission module of the present invention;

FIG. 4 is a schematic diagram of a mobile terminal of the present invention.

Implementation

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Please refer to Figure 1-4, a land-sea intelligent space-time analysis platform, including a processor, the model of the processor is MSP430F673X, MSP430F672X hybrid microprocessor, the package pin of the processor is 80 pins, and the maximum operating frequency of the processor is 25MHZ, the operating voltage range of the processor is 1.8 to 3.6 volts, the input of the processor includes a data storage module, a data comparison module, a spatio-temporal data acquisition module, a data extraction module, a first monitoring module and a data transmission module, the input of the processor The terminals are electrically connected to the output terminal of the data storage module and the output terminal of the data comparison module respectively, and the collected data is stored in the processor through the data storage module, and the data comparison module collects the data received by the data extraction module and the spatio-temporal data acquisition module The data of land and sea are compared, and the input end of the data comparison module is electrically connected with the output end of the spatio-temporal data acquisition module and the output end of the data extraction module respectively. It is electrically connected with the output end of the data storage module and the output end of the first monitoring module, extracts the data received by the data storage module through the data extraction module, and transmits it to the data comparison module, and the first monitoring module carries out the data transmission module Monitoring, when data is transmitted through the data transmission module, the first monitoring module detects the signal and transmits the signal to the data extraction module, the input end of the data storage module is electrically connected to the output end of the data transmission module, and the , transfer the collected data to the data storage module, the input end of the data transmission module is electrically connected with the output end of the spatio-temporal data acquisition module and the output end of the first monitoring module respectively, and the output end of the data comparison module includes the record storage module and the third The extraction module, the input end of the record storage module is electrically connected to the output end of the data comparison module, and the output end of the record storage module is electrically connected to the input end of the processor. When the comparison results are inconsistent, the result of the comparison of the data comparison module is passed to the record storage The comparison result is stored in the processor through the record storage module, the record storage module is electrically connected to the third extraction module in two directions, the output end of the third extraction module is electrically connected to the input end of the terminal platform, and the signal is transmitted to the terminal platform through the terminal platform. The third extraction module extracts the stored comparison result from the record storage module through the third extraction block, and transmits it to the terminal platform.

The output end of the processor includes an alarm module, a data analysis module, an alarm device, a storage module, a first extraction module and a terminal platform, and the output end of the processor is electrically connected to the input end of the alarm module and the input end of the data analysis module respectively, through The processor transmits the stored data to the data analysis module, and the data is analyzed and calculated in the data analysis module. The output terminal of the alarm module is electrically connected to the input terminal of the alarm device. The alarm module sends a signal, the alarm device is turned on through the alarm module, the buzzer sounds, the indicator light lights up, the output terminal of the data analysis module is electrically connected with the input terminal of the result storage module, and the data analysis module transmits the analysis result to the result The storage module stores the analysis results in the processor through the result storage module, the output terminals of the result storage module are respectively electrically connected to the input terminals of the processor and the input terminal of the first extraction module, and the first extraction module is electrically connected to the terminal platform bidirectionally , the analysis result is extracted from the result storage module by the first extraction module, the output end of the processor includes a data deletion module, the output end of the processor is electrically connected to the input end of the data deletion module, and the output end of the data deletion module is connected to the data storage module By setting the data deletion module, when the comparison result of the data comparison module is inconsistent, the result is passed to the processor, and the processor sends a signal to the data deletion module. After the data deletion module receives the signal, it deletes the data through the data The module deletes the erroneous data received by the data storage module, and then automatically deletes the erroneous data, preventing the operator from not deleting the erroneous data, resulting in errors in the analysis results. The output of the result storage module includes the second extraction module, wireless transmission module and Mobile terminal, the output end of the result storage module is electrically connected to the input end of the second extraction module, the second extraction module extracts the analysis structure required by the operator, the second extraction module is electrically connected to the wireless transmission module with two wires, and the wireless transmission module Including 3G module, 4G module and WIFI module, the wireless transmission module is connected with the mobile terminal two-way signal connection, the mobile terminal includes mobile phone and laptop computer, the wireless connection between the mobile terminal and the second extraction module is realized through the wireless transmission module, the first extraction module Both the output end of the output terminal and the output end of the second extraction module include a data temporary storage module, a second monitoring module, a data clearing module and a timing module, and both the first extraction module and the second extraction module are bidirectionally electrically connected to the data temporary storage module. The first extraction module or the second extraction module extracts the analysis results and transmits the analysis results to the data temporary storage module. The analysis result is extracted from the data temporary storage module, the input end of the data temporary storage module is electrically connected with the output end of the second monitoring module and the output end of the data clearing module respectively, the second monitoring module monitors the data temporary storage module, and the second monitoring The output terminal of the module is electrically connected with the input terminal of the timing module, and timing is carried out through the timing module. The clearing module clears the data in the temporary data storage module.

When in use, after the spatio-temporal data collection module collects the spatio-temporal data of land and sea, the data is transmitted to the data transmission module, and the collected data is transmitted to the data storage module through the data transmission module, and the collected data is stored in the processing through the data storage module. In the device, the first monitoring module monitors the data transmission module. When there is data transmitted through the data transmission module, the first monitoring module detects the signal and transmits the signal to the data extraction module. The data received by the module is extracted and passed to the data comparison module. The data comparison module compares the data received by the data extraction module with the data collected by the spatio-temporal data acquisition module. If the comparison is inconsistent, the result is passed to the processor to make the processor Stop receiving the data sent by the data storage module, and send a signal to the alarm module through the processor, open the alarm device through the alarm module, make the buzzer buzz, and light up the indicator light, and at the same time, send a signal to the data deletion module through the processor Send a signal, after the data deletion module receives the signal, delete the wrong data received by the data storage module through the data deletion module, then, the result after the comparison of the data comparison module is passed to the record storage module, and the comparison result is stored in the record storage module by the record storage module In the processor, when the operator needs to view the comparison result, the signal is transmitted to the third extraction module through the terminal platform, and the stored comparison result is extracted from the record storage module through the third extraction block, and transmitted to the terminal platform. Consistent, pass the result to the processor, so that the processor receives the data transmitted through the data storage module, and passes the stored data to the data analysis module through the processor, and the data is analyzed and calculated in the data analysis module. After the analysis is completed, the data analysis The module transmits the analysis results to the result storage module, and stores the analysis results in the processor through the result storage module. When the operator checks the analysis results through the terminal platform, the signal is transmitted to the first extraction module through the terminal platform, and the first extraction module Extract the analysis results from the result storage module, and transmit the analysis results to the terminal platform. The operator uses the mobile terminal to send a request to the wireless transmission module. After receiving the request, the wireless transmission module transmits the signal to the second extraction module. The second extraction module extracts the analysis structure required by the operator, and transmits it to the mobile terminal through the wireless transmission module. module, to extract the analysis results, and pass the analysis results to the data temporary storage module, when the operator uses the mobile terminal or terminal platform to view the same analysis results again, the first extraction module or the second extraction module directly extracts the analysis results from the data temporary storage module As a result, when viewing different analysis results, after the next analysis result is passed into the data temporary storage module, the next analysis result will cover the previous analysis result. At the same time, the second monitoring module monitors the data temporary storage module. When there is data After entering the data temporary storage module, the second monitoring module detects the signal, and transmits the signal to the timing module, and the timing is performed through the timing module. After a certain period of time, the timing module transmits the signal to the data clearing module, and the data is temporarily Clear the data in the memory module.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes, modifications and substitutions can be made to these embodiments without departing from the principle and spirit of the present invention. and modifications, the scope of the invention is defined by the appended claims and their equivalents.

Claims (1)

1. A land-sea intelligent spatio-temporal analysis platform comprises a processor, and the input of the processor includes a data storage module, a data comparison module, a spatio-temporal data acquisition module, a data extraction module, a first monitoring module and a data transmission module, which It is characterized in that: the input end of the processor is electrically connected to the output end of the data storage module and the output end of the data comparison module, and the input end of the data comparison module is respectively connected to the output end of the spatio-temporal data acquisition module and the output end of the data extraction module. The output end is electrically connected, the input end of the data extraction module is electrically connected to the output end of the data storage module and the output end of the first monitoring module, the input end of the data storage module is electrically connected to the output end of the data transmission module, The input end of the data transmission module is electrically connected with the output end of the spatio-temporal data acquisition module and the output end of the first monitoring module respectively; The output of the processor comprises an alarm module, a data analysis module, an alarm device, a storage module, a first extraction module and a terminal platform, and the output of the processor is respectively connected with the input of the alarm module and the input of the data analysis module Electrically connected, the output end of the alarm module is electrically connected to the input end of the alarm device, the output end of the data analysis module is electrically connected to the input end of the result storage module, and the output end of the result storage module is respectively connected to the processor The input end is electrically connected to the input end of the first extraction module, and the first extraction module is electrically connected to the terminal platform in two directions; The output end of described result storage module comprises the second extraction module, wireless transmission module and mobile terminal, and described wireless transmission module comprises 3G module, 4G module and WIFI module; The output end of the result storage module is electrically connected to the input end of the second extraction module, the second extraction module is electrically connected to the wireless transmission module with two wires, and the wireless transmission module is connected to the mobile terminal with bidirectional signals; The output end of the first extraction module and the output end of the second extraction module all include a data temporary storage module, a second monitoring module, a data clearing module and a timing module, and the first extraction module and the second extraction module are all connected to the data temporary storage module. The storage module is bidirectionally electrically connected, the input end of the temporary data storage module is electrically connected to the output end of the second monitoring module and the output end of the data clearing module, and the output end of the second monitoring module is electrically connected to the input end of the timing module. connected, the output end of the timing module is electrically connected to the input end of the data clearing module; The output end of the data comparison module includes a record storage module and a third extraction module, the input end of the record storage module is electrically connected to the output end of the data comparison module, and the output end of the record storage module is connected to the input end of the processor Electrically connected, the record storage module is electrically connected to the third extraction module bidirectionally, and the output end of the third extraction module is electrically connected to the input end of the terminal platform; The output end of the processor includes a data deletion module, the output end of the processor is electrically connected to the input end of the data deletion module, and the output end of the data deletion module is electrically connected to the input end of the data storage module; The alarm device includes a buzzer and an indicator light; The mobile terminals include mobile phones and laptop computers; The model of the processor is MSP430F673X, MSP430F672X hybrid microprocessor, the packaging pin of the processor is 80 pins, the highest operating frequency of the processor is 25MHZ, and the operating voltage range of the processor is 1.8 to 3.6 Volt.

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