CN114137551A - Big data analysis processing system based on low-altitude radar information - Google Patents

Abstract

The invention discloses a processing system for big data analysis based on low-altitude radar information, and particularly relates to the technical field of big data analysis, wherein the processing system comprises a background server, a communication module, a terminal service platform, a low-altitude radar information big data background storage module and a radar processor system; the background server is in communication connection with the communication module, the communication module is in communication connection with the terminal service platform, the terminal service platform is in communication connection with the low-altitude radar information big data background storage module, the terminal service platform is electrically connected with the radar processor system, and the radar processor system is in data connection with the low-altitude radar information big data background storage module. Through being provided with multiunit low-altitude radar 1, low-altitude radar 2 and low-altitude radar N, conveniently gather the low-altitude environmental information of co-altitude not, be convenient for compare with the data of prestoring inside the big data backstage storage module of low-altitude radar information.

Description

Big data analysis processing system based on low-altitude radar information

Technical Field

The invention relates to the technical field of big data analysis, in particular to a big data analysis processing system based on low-altitude radar information.

Background

Big data (big data), or huge data, means that the size of the data is huge enough to achieve the purpose of capturing, managing, processing and organizing more actively helping enterprise business decision within reasonable time through the current mainstream software tools; big data analysis refers to analysis of data with huge scale; big data can be summarized into 5V, large data Volume (Volume), high speed (Velocity), multiple types (Variety), Value (Value), and authenticity (Veracity); the big data is used as the vocabulary of the IT industry which is the most hot at present, and the utilization of the commercial value of the big data, such as data warehouse, data security, data analysis, data mining and the like, which is followed by the big data gradually becomes the profit focus which is pursued by the tradesman; with the coming of big data era, big data analysis also comes up; the development of an ultra-low altitude penetration technology enables the airplane and the cruise missile to realize the optimal penetration height of fifteen meters above the sea surface, sixty meters above plain and one hundred twenty meters above a hill; the ultra-low altitude penetration brings serious influence to radar detection, and due to factors such as the action of the curvature of the earth, the height of the ground and the like, the radar can hardly find a target behind a ground object; the radar which works in a short wave band and detects a target in a region below the horizon by utilizing the backward refraction of electromagnetic waves between an ionosphere and the ground and the jumping propagation of the electromagnetic waves on the earth surface is called low-altitude radar. A processing system for big data analysis based on low-altitude radar information in the prior art has the following problems:

1. at present, a large amount of low-altitude information needs to be collected in the working process of a low-altitude radar, and data information cannot be transmitted in time due to large task amount;

2. the resource utilization efficiency of the big data analysis system is low, and the big data analysis system cannot compare and analyze the new data with the previous data when acquiring the new data; to this end, we propose a processing system based on big data analysis of low-altitude radar information to solve the above problems.

Disclosure of Invention

The invention aims to provide a processing system for big data analysis based on low-altitude radar information, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention adopts the following technical scheme: a processing system for big data analysis based on low-altitude radar information, comprising:

the system comprises a background server, a communication module, a terminal service platform, a low-altitude radar information big data background storage module and a radar processor system;

the background server is in communication connection with the communication module, the communication module is in communication connection with the terminal service platform, the terminal service platform is in communication connection with the low-altitude radar information big data background storage module, the terminal service platform is electrically connected with the radar processor system, and the radar processor system is in data connection with the low-altitude radar information big data background storage module.

Preferably, the radar processor system comprises a low-altitude radar 1, a low-altitude radar 2, a low-altitude radar N, a power supply module, a low-altitude radar information preprocessing module and a central processing unit.

Preferably, the power module is electrically connected with the low-altitude radar 1, the power module is electrically connected with the low-altitude radar 2, the power module is electrically connected with the low-altitude radar N, the low-altitude radar 1 is in communication connection with the low-altitude radar information preprocessing module, the low-altitude radar 2 is in communication connection with the low-altitude radar information preprocessing module, the low-altitude radar N is in communication connection with the low-altitude radar information preprocessing module, and the low-altitude radar information preprocessing module is electrically connected with the central processing unit.

Preferably, the low-altitude radar (1-N) comprises a speed sensor, an obstacle detector, a radar sensor and a pulse signal generator.

Preferably, the speed sensor is electrically connected with the obstacle detector, the obstacle detector is electrically connected with the radar sensor, and the radar sensor is electrically connected with the pulse signal generator.

Preferably, the low-altitude radar information big data background storage module comprises a data acquisition module, a data analysis module, a data comparison module, a data sending module, a data backup module and a data storage module.

Preferably, the output end of the data acquisition module is in data connection with the input end of the data analysis module, the data analysis module is in data connection with the low-altitude radar information big data background storage module, the low-altitude radar information big data background storage module is in communication connection with the data comparison module, the low-altitude radar information big data background storage module is in data connection with the data sending module, the output end of the low-altitude radar information big data background storage module is in data connection with the input end of the data backup module, the output end of the data backup module is in data connection with the input end of the data storage module, and the data storage module is in data connection with the data sending module.

Preferably, the communication module includes a controller, an electromagnetic wave transmitter and an optical signal receiver, the controller is electrically connected to the electromagnetic wave transmitter, the controller is electrically connected to the optical signal receiver, and the electromagnetic wave transmitter is electrically connected to the optical signal receiver.

A big data analysis processing system based on low-altitude radar information specifically comprises the following steps:

s1: detecting low-altitude environment information: the low-altitude environment information of different heights can be conveniently collected by arranging a plurality of groups of low-altitude radars 1, 2 and N, the wind speed of the low-altitude environment can be monitored by a speed sensor in the low-altitude environment detection process, an obstacle detector is used for searching, monitoring and identifying an aerial target and detecting flying targets at various heights in the air (particularly low altitude and ultra-low altitude), the low-altitude environment detection system has a good detection range and plays a role of monitoring the flying target, a radar sensor is a detection system which adopts radio waves to determine the range, angle or speed of an object and can be used for detecting airplanes, ships, spacecrafts, guidance missiles, automobiles, weather formation and zones, a radar system comprises a transmitter which generates electromagnetic waves in the microwave field, a receiving antenna (generally uses the same antenna for transmitting and receiving) and a receiver and a processor to determine the property of the object, and gives information about the position and velocity of the object by emitting a pulse signal through a pulse signal generator, reflecting off the object and returning to a light signal receiver.

S2: preprocessing low-altitude radar detection information: the detected information is preprocessed and converted by a low-altitude radar information preprocessing module and a central processing unit, an electromagnetic wave emitter is controlled by the controller to emit an electromagnetic wave signal, a pulse signal generator emits a pulse signal, the pulse signal is reflected by an object and returns to an optical signal receiver, and information about the position and the speed of the object is given.

S3: and comparing and analyzing the low-altitude radar detection information: the data acquisition module acquires low-altitude environment information of a plurality of groups of low-altitude radars 1, 2 and N, the data is preliminarily analyzed by the data analysis module and sent to the low-altitude radar information big data background storage module for sharing, a large amount of low-altitude environment operation information is stored in the low-altitude radar information big data background storage module in advance, the data is compared with the latest acquired data by the data comparison module, the data is backed up by the data backup module and stored in the data storage module for reservation, and the compared data information is sent by the data sending module.

S4: sending to a background server side display screen for displaying: the terminal service platform converts all collected data and then sends the converted data to the background server, and finally the data are displayed through the display screen of the background server, so that workers can monitor the working information of the low-altitude radar in real time, and the latest data can be conveniently and timely perceived.

Compared with the prior art, the invention has the beneficial effects that:

1. the low-altitude radar sensor is provided with a plurality of groups of low-altitude radars 1, 2 and N, so that low-altitude environment information with different heights can be conveniently acquired, comparison with prestored data in a low-altitude radar information big data background storage module is facilitated, and real-time statistics and comparison are facilitated;

2. the low-altitude radar information preprocessing module and the central processor preprocess and convert acquired information, the controller works to control the electromagnetic wave emitter to emit an electromagnetic wave signal, the pulse signal generator emits a pulse signal, and the object reflects and returns to the optical signal receiver to give information about the position and the speed of the object.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic diagram of a processing system for big data analysis based on low-altitude radar information according to the present invention.

Fig. 2 is a schematic diagram of a radar processing system of the present invention.

Fig. 3 is a schematic structural diagram of the low-altitude radar of the present invention.

Fig. 4 is a schematic diagram of a low-altitude radar information big data background storage module according to the present invention.

Fig. 5 is a schematic structural diagram of a communication module according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1 to 5, the present invention provides a processing system for big data analysis based on low-altitude radar information, comprising:

the system comprises a background server, a communication module, a terminal service platform, a low-altitude radar information big data background storage module and a radar processor system;

the background server is in communication connection with the communication module, the communication module is in communication connection with the terminal service platform, the terminal service platform is in communication connection with the low-altitude radar information big data background storage module, the terminal service platform is electrically connected with the radar processor system, and the radar processor system is in data connection with the low-altitude radar information big data background storage module.

Further, the radar processor system comprises a low-altitude radar 1, a low-altitude radar 2, a low-altitude radar N, a power supply module, a low-altitude radar information preprocessing module and a central processing unit.

Furthermore, the power module is electrically connected with the low-altitude radar 1, the power module is electrically connected with the low-altitude radar 2, the power module is electrically connected with the low-altitude radar N, the low-altitude radar 1 is in communication connection with the low-altitude radar information preprocessing module, the low-altitude radar 2 is in communication connection with the low-altitude radar information preprocessing module, the low-altitude radar N is in communication connection with the low-altitude radar information preprocessing module, and the low-altitude radar information preprocessing module is electrically connected with the central processing unit.

Further, the low-altitude radar (1-N) includes a speed sensor, an obstacle detector, a radar sensor, and a pulse signal generator.

Furthermore, the speed sensor is electrically connected with the obstacle detector, the obstacle detector is electrically connected with the radar sensor, and the radar sensor is electrically connected with the pulse signal generator.

Furthermore, the low-altitude radar information big data background storage module comprises a data acquisition module, a data analysis module, a data comparison module, a data sending module, a data backup module and a data storage module.

Furthermore, the output end of the data acquisition module is in data connection with the input end of the data analysis module, the data analysis module is in data connection with the low-altitude radar information big data background storage module, the low-altitude radar information big data background storage module is in communication connection with the data comparison module, the low-altitude radar information big data background storage module is in data connection with the data sending module, the output end of the low-altitude radar information big data background storage module is in data connection with the input end of the data backup module, the output end of the data backup module is in data connection with the input end of the data storage module, and the data storage module is in data connection with the data sending module.

Furthermore, the communication module comprises a controller, an electromagnetic wave transmitter and an optical signal receiver, wherein the controller is electrically connected with the electromagnetic wave transmitter, the controller is electrically connected with the optical signal receiver, and the electromagnetic wave transmitter is electrically connected with the optical signal receiver.

A big data analysis processing system based on low-altitude radar information specifically comprises the following steps:

s1: detecting low-altitude environment information: the low-altitude environment information of different heights can be conveniently collected by arranging a plurality of groups of low-altitude radars 1, 2 and N, the wind speed of the low-altitude environment can be monitored by a speed sensor in the low-altitude environment detection process, an obstacle detector is used for searching, monitoring and identifying an aerial target and detecting flying targets at various heights in the air (particularly low altitude and ultra-low altitude), the low-altitude environment detection system has a good detection range and plays a role of monitoring the flying target, a radar sensor is a detection system which adopts radio waves to determine the range, angle or speed of an object and can be used for detecting airplanes, ships, spacecrafts, guidance missiles, automobiles, weather formation and zones, a radar system comprises a transmitter which generates electromagnetic waves in the microwave field, a receiving antenna (generally uses the same antenna for transmitting and receiving) and a receiver and a processor to determine the property of the object, and gives information about the position and velocity of the object by emitting a pulse signal through a pulse signal generator, reflecting off the object and returning to a light signal receiver.

S2: preprocessing low-altitude radar detection information: the detected information is preprocessed and converted by a low-altitude radar information preprocessing module and a central processing unit, an electromagnetic wave emitter is controlled by the controller to emit an electromagnetic wave signal, a pulse signal generator emits a pulse signal, the pulse signal is reflected by an object and returns to an optical signal receiver, and information about the position and the speed of the object is given.

S3: and comparing and analyzing the low-altitude radar detection information: the data acquisition module acquires low-altitude environment information of a plurality of groups of low-altitude radars 1, 2 and N, the data is preliminarily analyzed by the data analysis module and sent to the low-altitude radar information big data background storage module for sharing, a large amount of low-altitude environment operation information is stored in the low-altitude radar information big data background storage module in advance, the data is compared with the latest acquired data by the data comparison module, the data is backed up by the data backup module and stored in the data storage module for reservation, and the compared data information is sent by the data sending module.

S4: sending to a background server side display screen for displaying: the terminal service platform converts all collected data and then sends the converted data to the background server, and finally the data are displayed through the display screen of the background server, so that workers can monitor the working information of the low-altitude radar in real time, and the latest data can be conveniently and timely perceived.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A processing system for big data analysis based on low-altitude radar information, comprising:

the system comprises a background server, a communication module, a terminal service platform, a low-altitude radar information big data background storage module and a radar processor system;

the background server is in communication connection with the communication module, the communication module is in communication connection with the terminal service platform, the terminal service platform is in communication connection with the low-altitude radar information big data background storage module, the terminal service platform is electrically connected with the radar processor system, and the radar processor system is in data connection with the low-altitude radar information big data background storage module.

2. The processing system for big data analysis based on low-altitude radar information as claimed in claim 1, wherein the radar processor system comprises a low-altitude radar 1, a low-altitude radar 2, a low-altitude radar N, a power supply module, a low-altitude radar information preprocessing module and a central processing unit.

3. The system according to claim 2, wherein the power module is electrically connected to the low-altitude radar 1, the power module is electrically connected to the low-altitude radar 2, the power module is electrically connected to the low-altitude radar N, the low-altitude radar 1 is communicatively connected to the low-altitude radar information preprocessing module, the low-altitude radar 2 is communicatively connected to the low-altitude radar information preprocessing module, the low-altitude radar N is communicatively connected to the low-altitude radar information preprocessing module, and the low-altitude radar information preprocessing module is electrically connected to the central processing unit.

4. A processing system for big data analysis based on low-altitude radar information according to claim 1, characterized in that the low-altitude radar (1-N) comprises a speed sensor, an obstacle detector, a radar sensor and a pulse signal generator.

5. The system for processing big data analysis based on low-altitude radar information as claimed in claim 4, wherein the speed sensor is electrically connected with an obstacle detector, the obstacle detector is electrically connected with a radar sensor, and the radar sensor is electrically connected with a pulse signal generator.

6. The processing system for big data analysis based on low-altitude radar information as claimed in claim 1, wherein the low-altitude radar information big data background storage module comprises a data acquisition module, a data analysis module, a data comparison module, a data transmission module, a data backup module and a data storage module.

7. The system for processing big data analysis based on low-altitude radar information as claimed in claim 6, wherein the output end of the data acquisition module is in data connection with the input end of the data analysis module, the data analysis module is in data connection with the low-altitude radar information big data background storage module, the low-altitude radar information big data background storage module is in communication connection with the data comparison module, the low-altitude radar information big data background storage module is in data connection with the data sending module, the output end of the low-altitude radar information big data background storage module is in data connection with the input end of the data backup module, the output end of the data backup module is in data connection with the input end of the data storage module, and the data storage module is in data connection with the data sending module.

8. The system according to claim 1, wherein the communication module comprises a controller, an electromagnetic wave transmitter and an optical signal receiver, the controller is electrically connected to the electromagnetic wave transmitter, the controller is electrically connected to the optical signal receiver, and the electromagnetic wave transmitter is electrically connected to the optical signal receiver.

9. The processing system for big data analysis based on low-altitude radar information as claimed in claims 1 to 8, characterized by comprising the following steps:

s1: detecting low-altitude environment information: the low-altitude environment information of different heights can be conveniently collected by arranging a plurality of groups of low-altitude radars 1, 2 and N, the wind speed of the low-altitude environment can be monitored by a speed sensor in the low-altitude environment detection process, an obstacle detector is used for searching, monitoring and identifying an aerial target and detecting flying targets at various heights in the air (particularly low altitude and ultra-low altitude), the low-altitude environment detection system has a good detection range and plays a role of monitoring the flying target, a radar sensor is a detection system which adopts radio waves to determine the range, angle or speed of an object and can be used for detecting airplanes, ships, spacecrafts, guidance missiles, automobiles, weather formation and zones, a radar system comprises a transmitter which generates electromagnetic waves in the microwave field, a receiving antenna (generally uses the same antenna for transmitting and receiving) and a receiver and a processor to determine the property of the object, and gives information about the position and velocity of the object by emitting a pulse signal through a pulse signal generator, reflecting off the object and returning to a light signal receiver.

S2: preprocessing low-altitude radar detection information: the detected information is preprocessed and converted by a low-altitude radar information preprocessing module and a central processing unit, an electromagnetic wave emitter is controlled by the controller to emit an electromagnetic wave signal, a pulse signal generator emits a pulse signal, the pulse signal is reflected by an object and returns to an optical signal receiver, and information about the position and the speed of the object is given.

S3: and comparing and analyzing the low-altitude radar detection information: the data acquisition module acquires low-altitude environment information of a plurality of groups of low-altitude radars 1, 2 and N, the data is preliminarily analyzed by the data analysis module and sent to the low-altitude radar information big data background storage module for sharing, a large amount of low-altitude environment operation information is stored in the low-altitude radar information big data background storage module in advance, the data is compared with the latest acquired data by the data comparison module, the data is backed up by the data backup module and stored in the data storage module for reservation, and the compared data information is sent by the data sending module.

S4: sending to a background server side display screen for displaying: the terminal service platform converts all collected data and then sends the converted data to the background server, and finally the data are displayed through the display screen of the background server, so that workers can monitor the working information of the low-altitude radar in real time, and the latest data can be conveniently and timely perceived.

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