CN113950089A - Building mobile cellular network quality real-time monitoring cloud platform - Google Patents
Building mobile cellular network quality real-time monitoring cloud platform Download PDFInfo
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- CN113950089A CN113950089A CN202111132747.9A CN202111132747A CN113950089A CN 113950089 A CN113950089 A CN 113950089A CN 202111132747 A CN202111132747 A CN 202111132747A CN 113950089 A CN113950089 A CN 113950089A
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- H—ELECTRICITY
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- H04W24/08—Testing, supervising or monitoring using real traffic
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- H—ELECTRICITY
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Abstract
The invention discloses a building mobile cellular network quality real-time monitoring cloud platform, which belongs to the field of building cellular network monitoring and comprises a sensing layer, a transmission layer and an application layer; the sensing layer comprises a radio frequency front end, data processing, data transmission, a physical layer and control software; the transmission layer comprises data encryption, data storage, data uploading, instruction analysis and downloading and instruction receiving; the application layer comprises data archiving, data processing, exception alarming, problem tracking, parameter control and remote interaction. The invention provides a system solution aiming at the problem of reliable network connection in a building, and integrates the functions of signal quality information acquisition, analysis, storage, remote problem solving and the like into a cloud platform. Through the system, the network quality of each sensing point in the building can be monitored in real time, maintenance personnel can be quickly positioned and assigned when problems occur, network problems are quickly solved, and the service quality and the user experience effect are improved.
Description
Technical Field
The invention belongs to the field of building cellular network monitoring, and particularly relates to a building mobile cellular network quality real-time monitoring cloud platform.
Background
For the 5G previous network infrastructure, the base station transmits simultaneously in all directions. In order to improve performance, expand capacity and reduce power consumption, 5G handles a large number of beams. Also multi-user MIMO (MU-MIMO) will lead to so-called multipath propagation. These innovative techniques will make the network more operation and energy efficient compared to the cell coverage topology with which we are currently familiar. Beamforming adds a completely new dimension to mobile coverage, which establishes a directional data link between a base station and user equipment. Reliable network connectivity has become a desire in our increasingly interconnected world, and customer satisfaction and brand loyalty are negatively impacted when it is difficult to achieve this desire. At present, in aspects of network problems, including network difference, call interruption, video blockage, data rate difference and the like, network quality data can provide support for new technologies such as beam forming and multipath propagation of a 5G network, and operation efficiency and energy efficiency are improved; the number of the 5G pico-base stations and the micro-base stations is increased continuously, indoor area network quality data are obtained, a basis can be provided for problem diagnosis and site layout, and the balance point of cost, efficiency and benefit is gradually reached.
Disclosure of Invention
Aiming at the technical problems in the prior art, the XX provided by the invention is reasonable in design, overcomes the defects of the prior art and has a good effect.
In order to achieve the purpose, the invention adopts the following technical scheme:
a building mobile cellular network quality real-time monitoring cloud platform comprises a sensing layer, a transmission layer and an application layer; the sensing layer comprises a radio frequency front end, data processing, data transmission, a physical layer and control software; the transmission layer comprises data encryption, data storage, data uploading, instruction analysis and downloading and instruction receiving; the application layer comprises data archiving, data processing, exception alarming, problem tracking, parameter control and remote interaction.
Preferably, the radio frequency front end of the sensing layer is configured to convert the effective signal into an analog signal of a fixed frequency by frequency conversion.
Preferably, the data processing of the sensing layer is configured for converting a fixed frequency analog signal into a digital signal.
Preferably, the data transmission of the awareness layer is configured for delivering the generated cellular network quality data to the transport layer.
Preferably, the physical layer of the sensing layer is configured for demodulating the digital signal.
Preferably, the control software of the sensing layer is configured to control the various components of the sensing layer.
Preferably, the data encryption of the transport layer is configured for encrypting the cellular network quality data.
Preferably, the data storage of the transport layer is configured to store the encrypted data.
Preferably, the data upload of the transport layer is configured to upload the encrypted data to the application layer.
Preferably, the instruction parsing and downloading of the transmission layer is configured to parse the instruction of the application layer and issue the sensing layer.
Preferably, the instruction of the transport layer is configured to receive an instruction of the application layer.
Preferably, the data archive of the application layer is configured to encrypt the network quality data and store the encrypted data locally.
Preferably, the data processing of the application layer is configured to perform processing according to a predetermined policy according to the network quality data situation.
Preferably, the anomaly alarm of the application layer is configured to release the anomaly alarm signal at the application layer and form a question list when the network quality is abnormal.
Preferably, the problem tracking of the application layer is configured to assign appropriate maintenance personnel in the area to perform problem troubleshooting according to the generated problem ticket.
Preferably, the parameter control of the application layer is configured to adjust the parameters according to the condition of the investigation, so as to solve the problem of network anomaly.
Preferably, the remote interaction of the application layer is configured to notify maintenance personnel through various ways including short messages, voice and mails, and can build a problem maintenance group and build a remote interaction contact network of related personnel to help solve problems quickly.
The invention has the following beneficial technical effects:
the invention provides a building mobile cellular network quality real-time monitoring cloud platform, and compared with the prior art, the invention provides a set of systematic solution for solving the problem of reliable network connection in a building, and integrates the functions of signal quality information acquisition, analysis, storage, remote problem solving and the like into the cloud platform. Through the system, the network quality of each sensing point in the building can be monitored in real time, maintenance personnel can be quickly positioned and assigned when problems occur, network problems are quickly solved, and the service quality and the user experience effect are improved.
Drawings
Fig. 1 is a schematic block diagram of the present invention.
Wherein, 1-a sensing layer; 101-a radio frequency front end; 102-data processing; 103-data transmission; 104-physical layer; 105-control software; 2-a transport layer; 201-data encryption; 202-data storage; 203-data uploading; 204-instruction parsing and downloading; 205-instruction reception; 3-application layer; 301-data archiving; 302-data processing; 303-abnormal alarm; 304-problem tracking; 305-parameter control; 306-remote interaction.
Detailed Description
The invention is described in further detail below with reference to the following figures and detailed description:
a building mobile cellular network quality real-time monitoring cloud platform is shown in figure 1 in the original structure and comprises a sensing layer 1, a transmission layer 2 and an application layer 3; the sensing layer 1 comprises 5 parts, such as a radio frequency front section 101, data processing 102, data transmission 103, a physical layer 104, control software 105 and the like; the transmission layer 2 comprises 5 parts of data encryption 201, data storage 202, data uploading 203, instruction parsing downloading 204, instruction receiving 205 and the like; the application layer 3 comprises 6 parts of data archive 301, data processing 302, exception alarm 303, problem tracking 304, parameter control 305, remote interaction 306 and the like.
The radio frequency front section 101 converts effective signals into analog signals of specified frequency points in a frequency conversion mode; a data processing unit 102 for converting the frequency-converted analog signal into a digital signal; the physical layer 104 is used for demodulating and analyzing the converted digital signal; the control software 105 is used for receiving a transmission layer control instruction and controlling hardware equipment of a perception layer to complete the functions of each part; and a data transmission 103 for delivering the network quality data perceived by the perception layer to the transport layer.
The data encryption 201 is used for encrypting the cellular network quality data to ensure data security; the data storage 202 is used for primary storage of the encrypted data; a data upload 203 for uploading the confidential data to the application layer; the instruction analysis downloading 204 is used for analyzing the received application layer instruction and then issuing the analyzed application layer instruction to the control software of the sensing layer to achieve the aim of modifying the system execution parameters; and an instruction receiving 205, configured to receive an instruction of an application layer.
The data archive 301 is used for storing the network instruction data to the local and performing secondary storage to ensure data security; data processing 302, which performs processing according to a given strategy according to the network quality data condition; an abnormal alarm 303, which releases an abnormal alarm signal to the system when the network quality is abnormal, forms a question list, and closes the question list only when the problem needs to be eliminated and a problem closed-loop report is uploaded; the problem tracking 304 is that the problem sheet generated by the abnormal alarm 303 is processed through short messages, voice, mails and the like in various forms according to the mapping relation between maintenance personnel and areas; informing maintenance personnel to perform problem troubleshooting; parameter control 305, according to the situation of troubleshooting by the problem tracking 304, a maintenance person proposes a corresponding maintenance scheme, hardware replacement, software bug repair and the like, and if parameter adjustment is needed, parameter adjustment can be performed through the parameter control 305; and (6) remote interaction 306, after the question sheet is formed, a communication group of related personnel can be constructed to help quickly complete problem closed loop, and after the problem is solved, the problem group is automatically solved.
According to the real-time monitoring cloud platform, sensing nodes are distributed in a building, the network quality of the building can be automatically monitored in real time, the network quality data can be displayed in a dynamic graphical mode in real time, meanwhile, an alarm can be automatically given, related maintenance personnel in a designated area can be automatically notified through multiple ways, a question sheet is generated, a communication group of related personnel is established, the network quality problem can be rapidly solved, and the problem sheet can be closed in a closed loop manner only by uploading a problem analysis report. Through an automatic management mechanism, manual intervention can be reduced, user network experience is optimized, and user loyalty is improved.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.
Claims (17)
1. The utility model provides a building mobile cellular network quality real-time supervision cloud platform which characterized in that: comprises a sensing layer, a transmission layer and an application layer; the sensing layer comprises a radio frequency front end, data processing, data transmission, a physical layer and control software; the transmission layer comprises data encryption, data storage, data uploading, instruction analysis and downloading and instruction receiving; the application layer comprises data archiving, data processing, exception alarming, problem tracking, parameter control and remote interaction.
2. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the radio frequency front end of the sensing layer is configured to convert the effective signal into an analog signal with a fixed frequency through frequency conversion.
3. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and data processing of a sensing layer configured to convert the fixed-frequency analog signal into a digital signal.
4. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: data transmission of the awareness layer configured for delivering the generated cellular network quality data to the transport layer.
5. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: a physical layer of the sensing layer configured to demodulate the digital signal.
6. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the control software of the perception layer is configured to control the components of the perception layer.
7. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and data encryption of the transport layer, configured for performing encryption processing on the cellular network quality data.
8. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the data storage of the transmission layer is configured to store the encrypted data.
9. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and uploading data of the transmission layer, wherein the data is configured to be used for uploading the encrypted data to the application layer.
10. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the instruction analysis downloading of the transmission layer is configured to analyze the instruction of the application layer and issue the sensing layer.
11. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: the transport layer is configured to receive instructions for receiving an application layer.
12. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the data archive of the application layer is configured to encrypt the network quality data and store the encrypted network quality data to the local.
13. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the data processing of the application layer is configured to be used for processing according to a given strategy according to the network quality data condition.
14. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the anomaly alarm of the application layer is configured to release an anomaly alarm signal at the application layer and form a question list when the network quality is abnormal.
15. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the problem tracking of the application layer is configured to assign proper maintenance personnel in the area to carry out problem troubleshooting according to the generated problem list.
16. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the parameter control of the application layer is configured to adjust the parameters according to the condition of the investigation, so as to solve the problem of network abnormity.
17. The building mobile cellular network quality real-time monitoring cloud platform of claim 1, wherein: and the remote interaction of the application layer is configured to inform maintenance personnel through various modes including short messages, voice and mails, construct problem maintenance groups, construct remote interaction contact networks of related personnel and help to solve problems quickly.
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