CN117092415B - Regional electromagnetic environment monitoring method, device, equipment and medium - Google Patents

Abstract

The invention relates to the technical field of electromagnetic environment monitoring, and discloses a regional electromagnetic environment monitoring method, a regional electromagnetic environment monitoring device, regional electromagnetic environment monitoring equipment and a regional electromagnetic environment monitoring medium, wherein the regional electromagnetic environment monitoring method comprises the following steps: acquiring first time domain continuous monitoring data and time domain discontinuous monitoring data in a preset area grid monitoring range; taking the first time domain continuous monitoring data as a reference, and carrying out time domain data supplementation on the time domain discontinuous monitoring data to obtain second time domain continuous monitoring data; based on the first time domain continuous monitoring data and the second time domain continuous monitoring data, carrying out regional data supplementation on any point in a preset regional grid range to obtain third time domain continuous monitoring data of any point; and carrying out regional time domain continuous monitoring on the electromagnetic environment conditions in the range of the preset regional grid by combining each time domain continuous monitoring data. The invention can acquire time domain continuous monitoring data of any position in the regional grid range, grasp the overall condition of the electromagnetic environment in the region, simultaneously avoid carrying out excessively dense continuous automatic monitoring point position layout and reduce the monitoring cost.

Description

Regional electromagnetic environment monitoring method, device, equipment and medium

Technical Field

The invention relates to the technical field of electromagnetic environment monitoring, in particular to a regional electromagnetic environment monitoring method, a regional electromagnetic environment monitoring device, regional electromagnetic environment monitoring equipment and a regional electromagnetic environment monitoring medium.

Background

The definition of electromagnetic environment is the sum of all electromagnetic phenomena present at a given location. Electromagnetic pollution is caused when the electromagnetic environment level exceeds a certain limit value. At present, more and more countries incorporate electromagnetic environmental pollution control into environmental protection targets. The current situation of electromagnetic environment pollution of urban area environment is reflected in the background level of the electromagnetic environment in a certain planning period of a city, and the current urban electromagnetic environment pollution source is mainly broadcast television transmitting and communication equipment, particularly along with the rapid growth of wireless communication, the rapid increase of communication base stations becomes the primary source of the main urban area electromagnetic environment pollution.

The methods currently available to be able to determine the electromagnetic environment level of urban areas over a large range mainly comprise the following: 1. in the traditional grid monitoring method, in the monitoring process, staff needs to record information of each point location and measurement data, and uniformly analyze and process the data after the measurement is finished; 2. the mobile monitoring method adopts an automatic system and equipment, adopts a gridding monitoring method to carry out mobile monitoring and GPS information corresponding to the data, time information for obtaining the data and the like according to a planned route in advance, and can realize the data collection while mobile monitoring; 3. the on-line continuous automatic monitoring method adopts automatic continuous monitoring equipment and system to obtain continuous time domain electromagnetic environment monitoring data of a set site, and based on the original monitoring method, the method diverges from the space expansion of the monitoring point to the time domain expansion.

For regional radio frequency electromagnetic radiation environment monitoring, no matter grid monitoring, mobile monitoring or continuous automatic monitoring methods are simply combined with points or data of the points in the time domain are continuously expressed, because of practical situations and economic considerations, the electromagnetic radiation continuous automatic monitoring points cannot be densely distributed, so that the electromagnetic radiation environment monitoring of the time-continuous and space-continuous regions cannot be truly realized, the electromagnetic radiation environment monitoring data of the limited points still can be realized, the electromagnetic environment region continuous rendering containing time domain changes cannot be formed, and the electromagnetic environment overall situation rendering of large-area regions such as cities cannot be realized.

Disclosure of Invention

In view of the above, the invention provides a method, a device, equipment and a medium for monitoring regional electromagnetic environment, so as to solve the problem that regional continuity and time domain continuity cannot be realized by electromagnetic environment monitoring.

In a first aspect, the present invention provides a method for monitoring an electromagnetic environment in a region, the method comprising:

acquiring first time domain continuous monitoring data of preset fixed monitoring points in a preset area grid monitoring range and time domain discontinuous monitoring data of preset mobile monitoring points or preset area grid monitoring points;

performing time domain data supplementation on the time domain discontinuous monitoring data according to a preset time domain rendering mode by taking the first time domain continuous monitoring data as a reference to obtain second time domain continuous monitoring data of a preset mobile monitoring point position or a preset area grid monitoring point position;

based on the first time domain continuous monitoring data and the second time domain continuous monitoring data, carrying out area data supplementation on any point in a preset area grid range according to a preset area rendering mode to obtain third time domain continuous monitoring data of any point in the preset area grid range;

and carrying out regional time domain continuous monitoring on the electromagnetic environment condition within the range of the preset regional grid by combining the first time domain continuous monitoring data, the second time domain continuous monitoring data and the third time domain continuous monitoring data.

According to the regional electromagnetic environment monitoring method provided by the embodiment of the invention, the first time domain continuous monitoring data of the preset fixed monitoring points in the preset regional grid monitoring range is taken as a reference, the time domain intermittent monitoring data of the preset mobile monitoring points or the preset regional grid monitoring points are subjected to time domain data supplementation, and the regional data supplementation is performed on any point in the preset regional grid range, so that the time domain continuous monitoring data of any point is obtained, and the regional time domain continuous monitoring is performed on the electromagnetic environment condition. According to the invention, the time domain continuous monitoring data of any position in the area grid range can be obtained by carrying out time domain data supplementation and area data supplementation on the monitoring data, so that the overall condition of the electromagnetic environment in the area grid range is mastered, meanwhile, the excessively dense continuous automatic monitoring point position layout is avoided, and the monitoring cost is reduced.

In an alternative embodiment, the preset fixed monitoring points are fixed monitoring points in a preset area grid monitoring range, and on-line continuous automatic electromagnetic radiation environment monitoring is performed according to a preset time interval; the preset mobile monitoring points are monitoring points on a preset mobile monitoring route in a preset area grid range, and the cyclic electromagnetic radiation environment monitoring is carried out according to the preset mobile monitoring route; and the preset area grid monitoring points are preset position points in the range of the preset area grid, and electromagnetic radiation environment monitoring is carried out randomly.

The invention is based on the principle that electromagnetic radiation propagates according to a straight line under the condition of no external interference and accords with the relation of distance attenuation, and combines three electromagnetic radiation environment monitoring methods in the prior art to render the whole electromagnetic environment condition of a large area region, including a traditional grid monitoring method, a mobile monitoring method and an online continuous automatic monitoring method, supplements time domain intermittent monitoring data obtained by other methods by taking time domain continuous monitoring data obtained by the online continuous automatic monitoring method as a reference, does not need to densely arrange electromagnetic radiation continuous automatic monitoring points, can also obtain time domain continuous monitoring data of different points, and reduces the monitoring cost.

In an alternative embodiment, after obtaining the first time domain continuous monitoring data of the preset fixed monitoring point location and the time domain discontinuous monitoring data of the preset mobile monitoring point location or the preset area grid monitoring point location, the method further includes: and comparing different monitoring data at the same point and at the same time with a preset standard value, and tracing each monitoring data to the preset standard value.

According to the invention, the obtained monitoring data is traced to the preset standard value, so that the monitoring data can be calibrated, and the accuracy and reliability of electromagnetic environment monitoring are improved.

In an alternative embodiment, presetting the time domain rendering mode includes: at least one of a linear scale rendering mode or a difference rendering mode.

In an alternative embodiment, a process for obtaining second time domain continuous monitoring data of a preset mobile monitoring point location or a preset area grid monitoring point location by performing time domain data supplementation on time domain discontinuous monitoring data according to a preset time domain rendering mode with the first time domain continuous monitoring data as a reference includes: selecting the 1 st moment data in the first time domain continuous monitoring data of the preset fixed monitoring point position AAnd nth time data->The method comprises the steps of carrying out a first treatment on the surface of the Selecting time domain discontinuous monitoring data +.1 time of a preset mobile monitoring point position or a preset area grid monitoring point position B>The method comprises the steps of carrying out a first treatment on the surface of the Calculating nth moment data of preset mobile monitoring point positions or preset regional grid monitoring point positions B by using linear proportion rendering mode/>The calculation formula of the linear scale rendering mode is as follows:

or calculating the nth moment data of the preset mobile monitoring point position or the preset regional grid monitoring point position by using a difference rendering modeThe calculation formula of the difference rendering mode is as follows:

and obtaining second time domain continuous monitoring data of the preset mobile monitoring point position or the preset regional grid monitoring point position by performing time domain rendering on different time domain discontinuous monitoring data.

The invention provides a linear proportion rendering mode and a difference rendering mode based on the principle that electromagnetic radiation propagates according to a straight line under the condition of no external interference and accords with the relation of distance attenuation, and according to the position relation of a preset fixed monitoring point position and a preset mobile monitoring point position or a preset area grid monitoring point position, the instantaneous monitoring data of other point positions can be converted into time domain continuous monitoring data according to time domain continuous monitoring data which are automatically and continuously obtained, so that real time continuous electromagnetic environment monitoring is realized.

In an alternative embodiment, after obtaining the second time domain continuous monitoring data, the method further includes: and continuously and smoothly rendering the second time domain continuous monitoring data by using the first time domain continuous monitoring data.

According to the invention, the electromagnetic monitoring data obtained by calculation is subjected to smoothing treatment, so that the electromagnetic monitoring data more accords with the real electromagnetic radiation change condition, and the accuracy and reliability of the monitoring data are further improved.

In an optional embodiment, based on the first time domain continuous monitoring data and the second time domain continuous monitoring data, a process of performing region data supplementation on any point in a preset region grid range according to a preset region rendering mode to obtain third time domain continuous monitoring data of any point in the preset region grid range includes: selecting an arbitrary point C in a grid range of a preset area, and calculating the position distance from a preset fixed monitoring point A to the arbitrary point C according to geographic informationAnd the position distance from the preset mobile monitoring point position or the preset regional grid monitoring point position B to any point position C>The method comprises the steps of carrying out a first treatment on the surface of the Based on the n-th time data in the first time domain continuous monitoring data and the second time domain continuous monitoring data +.>And->Calculating nth time data of any point C by using preset area rendering mode>The calculation formula of the preset area rendering mode is as follows:

and carrying out region rendering on the monitoring data of different points at different moments to obtain third time domain continuous monitoring data of any point in a preset region grid range.

According to the method, the regional data is supplemented to the position incapable of being monitored by the electromagnetic environment, so that the time domain continuous monitoring data of the electromagnetic environment of any point can be obtained based on the time domain continuous monitoring data and the position relation of the fixed monitoring point position and the mobile monitoring point position or the regional grid monitoring point position, and the overall condition of the electromagnetic environment in the regional grid monitoring range can be mastered.

In a second aspect, the present invention provides a regional electromagnetic environment monitoring device, the device comprising:

the monitoring data acquisition module is used for acquiring first time domain continuous monitoring data of preset fixed monitoring points in a monitoring range of the preset regional grid and time domain discontinuous monitoring data of preset mobile monitoring points or preset regional grid monitoring points;

the time domain data rendering module is used for supplementing time domain data to the time domain discontinuous monitoring data according to a preset time domain rendering mode by taking the first time domain continuous monitoring data as a reference to obtain second time domain continuous monitoring data of a preset mobile monitoring point position or a preset area grid monitoring point position;

the region data rendering module is used for supplementing region data to any point in a preset region grid range according to a preset region rendering mode based on the first time domain continuous monitoring data and the second time domain continuous monitoring data so as to obtain third time domain continuous monitoring data of any point in the preset region grid range;

the electromagnetic environment monitoring module is used for carrying out regional time domain continuous monitoring on electromagnetic environment conditions in a preset regional grid range by combining the first time domain continuous monitoring data, the second time domain continuous monitoring data and the third time domain continuous monitoring data.

According to the regional electromagnetic environment monitoring device provided by the embodiment of the invention, the first time domain continuous monitoring data of the preset fixed monitoring points in the preset regional grid monitoring range is taken as a reference, the time domain intermittent monitoring data of the preset mobile monitoring points or the preset regional grid monitoring points are subjected to time domain data supplementation, and the regional data supplementation is performed on any point in the preset regional grid range, so that the time domain continuous monitoring data of any point is obtained, and the regional time domain continuous monitoring is performed on the electromagnetic environment condition. According to the invention, the time domain continuous monitoring data of any position in the area grid range can be obtained by carrying out time domain data supplementation and area data supplementation on the monitoring data, so that the overall condition of the electromagnetic environment in the area grid range is mastered, meanwhile, the excessively dense continuous automatic monitoring point position layout is avoided, and the monitoring cost is reduced.

In a third aspect, the present invention provides a computer device comprising: the system comprises a memory and a processor, wherein the memory and the processor are in communication connection, the memory stores computer instructions, and the processor executes the computer instructions, so that the regional electromagnetic environment monitoring method of the first aspect or any implementation mode corresponding to the first aspect is executed.

In a fourth aspect, the present invention provides a computer readable storage medium having stored thereon computer instructions for causing a computer to perform the regional electromagnetic environment monitoring method of the first aspect or any of its corresponding embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for monitoring regional electromagnetic environment according to an embodiment of the present invention;

FIG. 2 is a block diagram of a regional electromagnetic environment monitoring device according to an embodiment of the present invention;

fig. 3 is a schematic hardware structure of a computer device according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention is suitable for the scene of monitoring the electromagnetic environment in the regional grid monitoring range of the city. The regional electromagnetic radiation environment monitoring method in the prior art comprises the following steps: the traditional grid monitoring method, the mobile monitoring method and the online continuous automatic monitoring method are described as follows:

1. traditional grid monitoring method: when the traditional grid monitoring method is used for carrying out relevant monitoring work, mainly used equipment is a portable comprehensive field intensity meter, and the relevant monitoring work is carried out strictly according to the national relevant technical standard. In the monitoring process, staff needs to record information of each point position and measurement data, and perform unified analysis processing on the data after the measurement is finished, so that later prevention and management and control work can be smoothly carried out.

2. The mobile monitoring method comprises the following steps: the mobile monitoring method is a product of scientific technology, is a result of rapid development of network technology, computer technology and the like, can effectively make up the defects of the traditional monitoring technology, gets rid of dependence on manpower to a great extent, and effectively improves the informatization and automation degree of electromagnetic radiation environment monitoring work. The mobile electromagnetic monitoring system commonly used at present mainly comprises a host machine and an electric field probe. The specific monitoring flow and method are as follows:

when monitoring regional radio frequency electromagnetic radiation environment, the mobile monitoring route and the monitoring equipment are important factors influencing the monitoring efficiency and quality. In order to ensure the scientificity and accuracy of the final monitoring result, before monitoring, the environment, the route and the like of the surrounding area are firstly required to be surveyed, each condition of the area is generally mastered through the survey, the monitoring route is designed on the basis, then the mobile electromagnetic monitoring system is utilized to carry out mobile monitoring and GPS information corresponding to the data, time information for obtaining the data and the like along the route planned in advance by adopting a gridding monitoring method, and then the information is processed by the system, so that the specific position of the pollution problem in the area, the electromagnetic radiation intensity of the area and the like can be obtained. The mobile regional radio frequency electromagnetic radiation environment monitoring system adopts an automatic system and equipment, and can collect data while mobile monitoring, so that the problem of data omission is effectively controlled. Meanwhile, the mobile monitoring system calculates the monitoring result by adopting a computer and big data technology, and manual calculation is not needed, so that the occurrence of manual calculation errors is avoided, and the accuracy of data calculation is greatly improved. When the mobile monitoring system is adopted, the staff can adjust and optimize all technical parameters in advance, so that the monitoring error is shortened, and the monitoring result is more in line with the actual environment condition.

3. An online continuous automatic monitoring method comprises the following steps: in recent years, online continuous automatic monitoring of urban area electromagnetic environment is becoming popular, and each level of environment radiation monitoring mechanism gradually plans and builds online continuous automatic monitoring sites of urban area electromagnetic environment. The method can acquire continuous time domain electromagnetic environment monitoring data of the set site, and based on the original monitoring method, the method diverges from the spatial expansion of the monitoring point to the time domain expansion. The on-line continuous automatic electromagnetic radiation environment monitoring system adopts automatic continuous monitoring equipment and system, can realize automatic continuous monitoring and real-time statistical analysis, breaks the limitation that instantaneous (short-time) electromagnetic environment data represent the current situation of long-term electromagnetic environment, avoids the interference of electromagnetic radiation facility equipment and meteorological conditions on instantaneous monitoring data, and ensures the accuracy of the long-term area electromagnetic environment monitoring data. The electromagnetic radiation environment monitoring is generalized from a single spatial expansion to a time domain expansion. And an electromagnetic radiation environment monitoring station is arranged in the area network, and a time-space-electromagnetic radiation intensity three-dimensional area electromagnetic environment monitoring scheme is preliminarily realized.

For regional radio frequency electromagnetic radiation environment monitoring, the grid monitoring, the mobile monitoring and the continuous automatic monitoring methods are simply point-to-point combination or continuous expression of data of points in a time domain. Therefore, the embodiment of the invention provides a regional electromagnetic environment monitoring method, which achieves the effect of acquiring the whole condition of the electromagnetic environment in the monitoring range of a regional grid by carrying out time domain data supplementation and regional data supplementation on different monitoring points. It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer executable instructions, and that although a logical order is illustrated in the flowcharts, in some cases the steps illustrated or described may be performed in an order other than that illustrated herein.

In this embodiment, a method for monitoring regional electromagnetic environment is provided, which may be used in the above-mentioned computer, and fig. 1 is a flowchart of a method for monitoring regional electromagnetic environment according to an embodiment of the present invention, as shown in fig. 1, where the flowchart includes the following steps:

step S101, acquiring first time domain continuous monitoring data of preset fixed monitoring points in a preset area grid monitoring range and time domain discontinuous monitoring data of preset mobile monitoring points or preset area grid monitoring points.

Specifically, in the embodiment of the invention, electromagnetic radiation environment monitoring within a preset area grid monitoring range is performed by combining a traditional grid monitoring method, a mobile monitoring method and an online continuous automatic monitoring method in the prior art. The method comprises the steps of setting a fixed monitoring point position A in a preset area grid monitoring range at an online automatic continuous monitoring station, monitoring an online continuous automatic electromagnetic radiation environment according to a preset time interval, and obtaining first time domain continuous monitoring data of the point position. Meanwhile, circulating electromagnetic radiation environment monitoring is carried out in the area grid monitoring range according to a preset mobile monitoring route, so that time-domain intermittent monitoring data of mobile monitoring points are obtained, or time-domain intermittent monitoring data of electromagnetic radiation environment monitoring by manpower at preset position points in the preset area grid range are obtained.

According to the embodiment of the invention, the automatic continuous monitoring station is used as a reference of mobile monitoring, closed curve mobile monitoring is performed around the automatic continuous monitoring station, and the automatic continuous monitoring station is ensured to be in a closed curve formed by a mobile monitoring route (namely, a preset mobile monitoring route). By the monitoring setting method, any one point in the closed graph formed by the movable monitoring point curve, the automatic continuous monitoring station and a certain movable monitoring point can be ensured to be on the same straight line, but the method is not limited to the method. In addition, according to the monitoring result of the standard instrument, different monitoring data of the same point and the same time are compared with a preset standard value, and each monitoring data is traced to the preset standard value, so that the calibration of the monitoring data is realized, and the accuracy and reliability of electromagnetic environment monitoring are improved.

Step S102, time domain data supplementation is carried out on the time domain discontinuous monitoring data according to a preset time domain rendering mode by taking the first time domain continuous monitoring data as a reference, so as to obtain second time domain continuous monitoring data of a preset mobile monitoring point position or a preset regional grid monitoring point position.

Specifically, in the embodiment of the present invention, with the first time domain continuous monitoring data of the fixed monitoring point location a as a reference, the 1 st time data in the first time domain continuous monitoring data of the preset fixed monitoring point location a is selectedAnd nth time data->And selecting time-domain intermittent monitoring data of the 1 st moment (namely the same moment) of a preset mobile monitoring point position or a preset regional grid monitoring point position B>Calculating n-th moment data of a preset mobile monitoring point position or a preset area grid monitoring point position B by using at least one of a linear proportion rendering mode or a difference rendering mode>The calculation formula of the linear proportion rendering mode and the calculation formula of the difference rendering mode are respectively as follows:

and obtaining second time domain continuous monitoring data of the preset mobile monitoring point position or the preset regional grid monitoring point position by performing time domain rendering on different time domain discontinuous monitoring data. In addition, the first time domain continuous monitoring data is utilized to conduct continuous smooth rendering on the acquired second time domain continuous monitoring data.

Step S103, based on the first time domain continuous monitoring data and the second time domain continuous monitoring data, performing area data supplementation on any point in the preset area grid range according to a preset area rendering mode to obtain third time domain continuous monitoring data of any point in the preset area grid range.

Specifically, in the embodiment of the present invention, the area grid monitoring range further includes a fixed monitoring point location, a mobile monitoring point location, and a location where the area grid monitoring point location cannot be monitored, so that the area data is supplemented for any point location in the preset area grid range according to a preset area rendering mode, where the process is as follows: selecting an arbitrary point C in a grid range of a preset area, and calculating the position distance from a preset fixed monitoring point A to the arbitrary point C according to geographic informationAnd the position distance from the preset mobile monitoring point position or the preset regional grid monitoring point position B to any point position C>The method comprises the steps of carrying out a first treatment on the surface of the Based on the n-th time data in the first time domain continuous monitoring data and the second time domain continuous monitoring data +.>And->Calculating nth time data of any point C by using preset area rendering mode>The calculation formula of the preset area rendering mode is as follows:

and carrying out region rendering on the monitoring data of different points at different moments to obtain third time domain continuous monitoring data of any point in a preset region grid range.

Step S104, the electromagnetic environment condition in the preset regional grid range is continuously monitored in the regional time domain by combining the first time domain continuous monitoring data, the second time domain continuous monitoring data and the third time domain continuous monitoring data.

The embodiment of the invention combines the three time domain continuous monitoring data, can form rendering data for any one point in a closed graph formed by the mobile monitoring point position curve, and forms the regional electromagnetic environment monitoring condition continuously changing along with the time domain of the automatic continuous monitoring point.

According to the regional electromagnetic environment monitoring method provided by the embodiment of the invention, the first time domain continuous monitoring data of the preset fixed monitoring points in the preset regional grid monitoring range is taken as a reference, the time domain intermittent monitoring data of the preset mobile monitoring points or the preset regional grid monitoring points are subjected to time domain data supplementation, and the regional data supplementation is performed on any point in the preset regional grid range, so that the time domain continuous monitoring data of any point is obtained, and the regional time domain continuous monitoring is performed on the electromagnetic environment condition. According to the invention, the time domain continuous monitoring data of any position in the area grid range can be obtained by carrying out time domain data supplementation and area data supplementation on the monitoring data, so that the overall condition of the electromagnetic environment in the area grid range is mastered, meanwhile, the excessively dense continuous automatic monitoring point position layout is avoided, and the monitoring cost is reduced.

The present embodiment provides a regional electromagnetic environment monitoring device, as shown in fig. 2, including:

the monitoring data acquisition module 201 is configured to acquire first time domain continuous monitoring data of a preset fixed monitoring point location within a preset area grid monitoring range and time domain discontinuous monitoring data of a preset mobile monitoring point location or a preset area grid monitoring point location;

the time domain data rendering module 202 is configured to perform time domain data supplementation on the time domain discontinuous monitoring data according to a preset time domain rendering mode with the first time domain continuous monitoring data as a reference, so as to obtain second time domain continuous monitoring data of a preset mobile monitoring point location or a preset area grid monitoring point location;

the region data rendering module 203 is configured to perform region data supplementation on any point location in a preset region grid range according to a preset region rendering manner based on the first time domain continuous monitoring data and the second time domain continuous monitoring data, so as to obtain third time domain continuous monitoring data of any point location in the preset region grid range;

the electromagnetic environment monitoring module 204 is configured to perform area time domain continuous monitoring on the electromagnetic environment condition within the preset area grid range by combining the first time domain continuous monitoring data, the second time domain continuous monitoring data, and the third time domain continuous monitoring data.

Further functional descriptions of the above respective modules and units are the same as those of the above corresponding embodiments, and are not repeated here.

The local electromagnetic environment monitoring device in this embodiment is in the form of a functional unit, where the unit refers to an ASIC (Application Specific Integrated Circuit ) circuit, a processor and a memory executing one or more software or fixed programs, and/or other devices that can provide the above functions.

The embodiment of the invention also provides computer equipment, which is provided with the regional electromagnetic environment monitoring device shown in the figure 2.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a computer device according to an alternative embodiment of the present invention, and as shown in fig. 3, the computer device includes: one or more processors 10, memory 20, and interfaces for connecting the various components, including high-speed interfaces and low-speed interfaces. The various components are communicatively coupled to each other using different buses and may be mounted on a common motherboard or in other manners as desired. The processor may process instructions executing within the computer device, including instructions stored in or on memory to display graphical information of the GUI on an external input/output device, such as a display device coupled to the interface. In some alternative embodiments, multiple processors and/or multiple buses may be used, if desired, along with multiple memories and multiple memories. Also, multiple computer devices may be connected, each providing a portion of the necessary operations (e.g., as a server array, a set of blade servers, or a multiprocessor system). One processor 10 is illustrated in fig. 3.

The processor 10 may be a central processor, a network processor, or a combination thereof. The processor 10 may further include a hardware chip, among others. The hardware chip may be an application specific integrated circuit, a programmable logic device, or a combination thereof. The programmable logic device may be a complex programmable logic device, a field programmable gate array, a general-purpose array logic, or any combination thereof.

Wherein the memory 20 stores instructions executable by the at least one processor 10 to cause the at least one processor 10 to perform a method for implementing the embodiments described above.

The memory 20 may include a storage program area that may store an operating system, at least one application program required for functions, and a storage data area; the storage data area may store data created according to the use of the computer device, etc. In addition, the memory 20 may include high-speed random access memory, and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid-state storage device. In some alternative embodiments, memory 20 may optionally include memory located remotely from processor 10, which may be connected to the computer device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

Memory 20 may include volatile memory, such as random access memory; the memory may also include non-volatile memory, such as flash memory, hard disk, or solid state disk; the memory 20 may also comprise a combination of the above types of memories.

The computer device also includes a communication interface 30 for the computer device to communicate with other devices or communication networks.

The embodiments of the present invention also provide a computer readable storage medium, and the method according to the embodiments of the present invention described above may be implemented in hardware, firmware, or as a computer code which may be recorded on a storage medium, or as original stored in a remote storage medium or a non-transitory machine readable storage medium downloaded through a network and to be stored in a local storage medium, so that the method described herein may be stored on such software process on a storage medium using a general purpose computer, a special purpose processor, or programmable or special purpose hardware. The storage medium can be a magnetic disk, an optical disk, a read-only memory, a random access memory, a flash memory, a hard disk, a solid state disk or the like; further, the storage medium may also comprise a combination of memories of the kind described above. It will be appreciated that a computer, processor, microprocessor controller or programmable hardware includes a storage element that can store or receive software or computer code that, when accessed and executed by the computer, processor or hardware, implements the methods illustrated by the above embodiments.

Although embodiments of the present invention have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope of the invention as defined by the appended claims.

Claims (8)

1. A method for monitoring an electromagnetic environment of a region, comprising:

acquiring first time domain continuous monitoring data of preset fixed monitoring points in a preset area grid monitoring range and time domain discontinuous monitoring data of preset mobile monitoring points or preset area grid monitoring points;

and performing time domain data supplementation on the time domain discontinuous monitoring data according to a preset time domain rendering mode by taking the first time domain continuous monitoring data as a reference to obtain second time domain continuous monitoring data of a preset mobile monitoring point position or a preset area grid monitoring point position, wherein the preset time domain rendering mode comprises the following steps: at least one of a linear proportion rendering mode and a difference rendering mode, wherein a first time domain continuous monitoring data of a preset fixed monitoring point position A is selected to continuously monitor the 1 st moment data in the dataAnd nth time data->The method comprises the steps of carrying out a first treatment on the surface of the Selecting time domain discontinuous monitoring data +.1 time of a preset mobile monitoring point position or a preset area grid monitoring point position B>The method comprises the steps of carrying out a first treatment on the surface of the Calculating nth moment data of a preset mobile monitoring point position or a preset area grid monitoring point position by using a linear proportion rendering mode>The calculation formula of the linear proportion rendering mode is as follows:

or calculating the nth moment data of the preset mobile monitoring point position or the preset regional grid monitoring point position by using a difference rendering modeThe calculation formula of the difference rendering mode is as follows:

obtaining second time domain continuous monitoring data of preset mobile monitoring points or preset regional grid monitoring points by performing time domain rendering on different time domain discontinuous monitoring data;

based on the first time domain continuous monitoring data and the second time domain continuous monitoring data, carrying out area data supplementation on any point in a preset area grid range according to a preset area rendering mode to obtain third time domain continuous monitoring data of any point in the preset area grid range;

and carrying out regional time domain continuous monitoring on the electromagnetic environment condition within the range of the preset regional grid by combining the first time domain continuous monitoring data, the second time domain continuous monitoring data and the third time domain continuous monitoring data.

2. The method according to claim 1, wherein the preset fixed monitoring points are on-line automatic continuous monitoring points within a preset area grid monitoring range, and on-line continuous automatic electromagnetic radiation environment monitoring is performed according to a preset time interval;

the preset mobile monitoring points are monitoring points on a preset mobile monitoring route in a preset area grid range, and the cyclic electromagnetic radiation environment monitoring is carried out according to the preset mobile monitoring route;

and the preset area grid monitoring points are preset position points in the range of the preset area grid, and electromagnetic radiation environment monitoring is carried out randomly.

3. The method according to claim 2, further comprising, after acquiring the first time-domain continuous monitoring data of the preset fixed monitoring point location and the time-domain intermittent monitoring data of the preset mobile monitoring point location or the preset area grid monitoring point location: and comparing different monitoring data at the same point and at the same time with a preset standard value, and tracing each monitoring data to the preset standard value.

4. The method of claim 1, further comprising, after obtaining the second time domain continuous monitoring data: and continuously and smoothly rendering the second time domain continuous monitoring data by utilizing the first time domain continuous monitoring data.

5. The method according to claim 4, wherein the process of obtaining third time domain continuous monitoring data of any point in a preset area grid range by performing area data supplementation on any point in the preset area grid range according to a preset area rendering mode based on the first time domain continuous monitoring data and the second time domain continuous monitoring data includes:

selecting an arbitrary point C in a grid range of a preset area, and calculating the position distance from a preset fixed monitoring point A to the arbitrary point C according to geographic informationAnd the position distance from the preset mobile monitoring point position or the preset regional grid monitoring point position B to any point position C>；

Based on the first time domain continuous monitoring data and the nth time data in the second time domain continuous monitoring dataAndcalculating nth time data of any point C by using preset area rendering mode>The calculation formula of the preset area rendering mode is as follows:

and carrying out region rendering on the monitoring data of different points at different moments to obtain third time domain continuous monitoring data of any point in a preset region grid range.

6. A regional electromagnetic environment monitoring device, the device comprising:

the monitoring data acquisition module is used for acquiring first time domain continuous monitoring data of preset fixed monitoring points in a monitoring range of the preset regional grid and time domain discontinuous monitoring data of preset mobile monitoring points or preset regional grid monitoring points;

time domain data renderingThe module is configured to perform time domain data supplementation on the time domain discontinuous monitoring data according to a preset time domain rendering mode by using the first time domain continuous monitoring data as a reference, so as to obtain second time domain continuous monitoring data of a preset mobile monitoring point location or a preset area grid monitoring point location, where the preset time domain rendering mode includes: at least one of a linear proportion rendering mode and a difference rendering mode, wherein a first time domain continuous monitoring data of a preset fixed monitoring point position A is selected to continuously monitor the 1 st moment data in the dataAnd nth time data->The method comprises the steps of carrying out a first treatment on the surface of the Selecting time domain discontinuous monitoring data +.1 time of a preset mobile monitoring point position or a preset area grid monitoring point position B>The method comprises the steps of carrying out a first treatment on the surface of the Calculating nth moment data of a preset mobile monitoring point position or a preset area grid monitoring point position by using a linear proportion rendering mode>The calculation formula of the linear proportion rendering mode is as follows:

or calculating the nth moment data of the preset mobile monitoring point position or the preset regional grid monitoring point position by using a difference rendering modeThe calculation formula of the difference rendering mode is as follows:

obtaining second time domain continuous monitoring data of preset mobile monitoring points or preset regional grid monitoring points by performing time domain rendering on different time domain discontinuous monitoring data;

the region data rendering module is used for supplementing region data to any point in a preset region grid range according to a preset region rendering mode based on the first time domain continuous monitoring data and the second time domain continuous monitoring data so as to obtain third time domain continuous monitoring data of any point in the preset region grid range;

the electromagnetic environment monitoring module is used for carrying out regional time domain continuous monitoring on electromagnetic environment conditions in a preset regional grid range by combining the first time domain continuous monitoring data, the second time domain continuous monitoring data and the third time domain continuous monitoring data.

7. A computer device, comprising:

a memory and a processor in communication with each other, the memory having stored therein computer instructions, the processor executing the computer instructions to perform the method of regional electromagnetic environment monitoring of any one of claims 1 to 5.

8. A computer-readable storage medium having stored thereon computer instructions for causing a computer to perform the regional electromagnetic environment monitoring method of any one of claims 1 to 5.