CN117749293B - Chamber division antenna monitoring method and device and readable storage medium - Google Patents
Chamber division antenna monitoring method and device and readable storage medium Download PDFInfo
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The application discloses a method and a device for monitoring indoor antenna, and a readable storage medium, wherein the method comprises the following steps: the monitoring equipment collects radio frequency signals of each indoor antenna in the indoor antenna system, and the monitoring equipment is arranged to cover the indoor area of the target; the monitoring devices shift the frequency band of the 5G signal in the correspondingly collected radio frequency signals to a 2.4G frequency band; the monitoring devices respectively measure the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal, and send the signals to a remotely arranged indoor antenna monitoring platform through a 4G network; the indoor antenna monitoring platform processes the received power intensity and monitors the working state of the indoor antenna within the preset distance of each monitoring device. The application can diagnose whether the indoor system is abnormal or not and improve the monitoring efficiency of the indoor antenna.
Description
Technical Field
The present application relates to the field of antenna technologies, and in particular, to a method and apparatus for monitoring a split antenna, and a readable storage medium.
Background
The antenna has different fault conditions because of different requirements and different use environments. The antenna and the communication equipment need good contact installation to guarantee the quality of communication, so that the working state of the antenna needs to be monitored in real time, and the working state of the antenna is found and reported in time so as to be convenient to maintain in time, and the loss is reduced.
The indoor antenna monitoring equipment is equipment capable of monitoring the working state of the indoor antenna on site, is generally connected with an indoor monitoring system, is easily interfered by the indoor system, and is low in accuracy and speed of antenna working state analysis, so that the indoor antenna monitoring efficiency is low.
How to improve the monitoring efficiency of the indoor antenna is a technical problem to be solved at present.
Disclosure of Invention
The embodiment of the application aims to provide a method and a device for monitoring a room antenna and a readable storage medium, which are used for solving the problem of low room antenna monitoring efficiency.
In order to solve the technical problems, the present specification is implemented as follows:
in a first aspect, a method for monitoring a room antenna is provided, including:
The monitoring equipment collects radio frequency signals of each indoor antenna in the indoor antenna system, and the monitoring equipment is arranged to cover the indoor area of the target;
The monitoring devices shift the frequency band of the 5G signal in the correspondingly collected radio frequency signals to a 2.4G frequency band;
The monitoring devices respectively measure the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal, and send the signals to a remotely arranged indoor antenna monitoring platform through a 4G network;
the indoor antenna monitoring platform processes the received power intensity and monitors the working state of the indoor antenna within the preset distance of each monitoring device.
Optionally, the plurality of monitoring devices shift the frequency band of the 5G signal in the corresponding collected radio frequency signals to a 2.4G frequency band, including:
The monitoring devices respectively identify the 5G signals and the 4G signals in the collected radio frequency signals through frequency shifters arranged in the monitoring devices, and shift the frequency band of the 5G signals to the 2.4G frequency band.
Optionally, the plurality of monitoring devices respectively measure the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal, including:
The target monitoring equipment measures the power intensity of the 4G signal based on the 4G signal in the correspondingly collected radio frequency signals;
the target monitoring device measures the power intensity of a 5G signal based on a signal of a 2.4G frequency band corresponding to the 5G signal offset in the collected radio frequency signals.
Optionally, the device is sent to a remotely-located indoor antenna monitoring platform through a 4G network, and includes:
and the target monitoring equipment sends the power intensity of the 4G signal and the power intensity of the 5G signal to a remotely-arranged indoor antenna monitoring platform through a 4G network of a preset operator.
Optionally, the method further comprises:
The target monitoring equipment acquires positioning information comprising the position of the indoor antenna within a preset distance and the position of a base station where the indoor antenna is located;
The indoor antenna monitoring platform which is transmitted to a remote setting through a 4G network comprises:
And the target monitoring equipment sends the power intensity of the 4G signal, the power intensity of the 5G signal and the positioning information to a remote indoor antenna monitoring platform through the 4G network of the preset operator.
Optionally, the indoor antenna monitoring platform processes the received power intensity, monitors the working state of the indoor antenna within a preset distance of each monitoring device, and includes:
The indoor antenna monitoring platform determines the power intensity of a 5G signal corresponding to offset of the 2.4G frequency band signal based on the power intensity of the 2.4G frequency band signal sent by each monitoring device and the frequency shift mapping relation between the 2.4G frequency band and the frequency band of the 5G signal;
Based on the power intensity of the 4G signal, the power intensity of the 5G signal and a preset power intensity threshold value corresponding to each monitoring device, whether the working state of the indoor antenna within a preset distance of each monitoring device is abnormal or normal is monitored.
Optionally, the monitoring of whether the working state of the indoor antenna within the preset distance of each monitoring device is abnormal or normal based on the power intensity of the 4G signal, the power intensity of the 5G signal and the preset power intensity threshold value corresponding to each monitoring device includes:
the indoor antenna monitoring platform respectively compares the power intensity of the 4G signal corresponding to the target monitoring equipment with a preset 4G power intensity threshold value, and compares the power intensity of the 5G signal with a preset 5G power intensity threshold value;
If the power intensity of the 4G signal is higher than a preset 4G power intensity threshold value and the power intensity of the 5G signal is higher than a preset 5G power intensity threshold value, monitoring that the working state of the indoor antenna within a preset distance of the target monitoring equipment is normal;
If the power intensity of the 4G signal is not higher than a preset 4G power intensity threshold value or the power intensity of the 5G signal is not higher than a preset 5G power intensity threshold value, the working state of the indoor antenna within a preset distance of the target monitoring equipment is monitored to be abnormal.
Optionally, after the monitoring of whether the working state of the indoor antenna within the preset distance of each monitoring device is abnormal or normal, the method further includes:
The indoor antenna monitoring platform generates a signal monitoring report corresponding to the indoor antenna based on the monitoring working state of the indoor antenna within the preset distance of each monitoring device, wherein the signal monitoring report comprises at least one or more of the combination of the 4G signal power intensity corresponding to the indoor antenna and a preset 4G power intensity threshold value, the 5G signal power intensity corresponding to the measurement and a preset G power intensity threshold value, the monitoring working state indication and the working state analysis result;
and displaying signal monitoring reports corresponding to the indoor antenna within a preset distance of each monitoring device.
In a second aspect, there is provided a method for monitoring a room antenna, applied to a monitoring device, the method comprising:
Collecting radio frequency signals;
shifting the frequency band of the 5G signal in the radio frequency signal to a 2.4G frequency band;
respectively measuring the power intensity of a signal in a 2.4G frequency band and the power intensity of a 4G signal in the radio frequency signal;
And the power intensity is transmitted to a remote indoor antenna monitoring platform through a 4G network, so that the indoor antenna monitoring platform monitors the working state of the indoor antenna within the preset distance of the monitoring equipment based on the received power intensity.
In a third aspect, a method for monitoring an indoor antenna is provided, which is applied to an indoor antenna monitoring platform, and the method includes:
receiving the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal, which are measured by the monitoring equipment, through a 4G network;
Determining the power intensity of the 5G signal corresponding to the offset of the 2.4G frequency band signal based on the power intensity of the 2.4G frequency band signal and the frequency shift mapping relation between the 2.4G frequency band and the 5G signal frequency band;
and monitoring the working state of the indoor antenna within the preset distance of the monitoring equipment based on the power intensity of the 4G signal, the power intensity of the 5G signal and a preset power intensity threshold.
In a fourth aspect, there is provided a chamber antenna monitoring apparatus comprising a processor and a memory storing a program or instructions executable on the processor, which when executed by the processor, implement the steps of the chamber antenna monitoring method according to the second or third aspects.
In a fifth aspect, there is provided a readable storage medium having stored thereon a program or instructions which when executed by a processor implement the steps of the method for monitoring a split-room antenna according to the second or third aspect.
In the embodiment of the application, the radio frequency signals of each indoor antenna in the indoor antenna system are collected through a plurality of monitoring devices, and the plurality of monitoring devices are arranged to cover the indoor area of the target; the monitoring devices shift the frequency band of the 5G signal in the correspondingly collected radio frequency signals to a 2.4G frequency band; the monitoring equipment respectively measures the power intensity of a signal in a 2.4G frequency band and the power intensity of a 4G signal in a radio frequency signal, and sends the signals to a remotely arranged indoor antenna monitoring platform through a 4G network; the indoor antenna monitoring platform processes the received power intensity, monitors the working state of the indoor antenna within the preset distance of each monitoring device, so that the indoor antenna monitoring device for monitoring the indoor antenna working state on site is separated from the indoor antenna monitoring platform remotely, the indoor antenna monitoring platform is prevented from being monitored by the indoor system, the accuracy and the speed of the antenna working state analysis are improved, whether the indoor system operates abnormally or not is diagnosed, and the indoor antenna monitoring efficiency is improved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:
Fig. 1 is a flow chart of a method for monitoring a split antenna according to a first embodiment of the present application.
Fig. 2 is a schematic diagram of an application scenario of a method for monitoring a indoor antenna according to an embodiment of the present application.
Fig. 3 is a flow chart of a method for monitoring a split antenna according to a second embodiment of the present application.
Fig. 4 is a flow chart of a method for monitoring a split antenna according to a third embodiment of the present application.
Fig. 5 is a block diagram showing the structure of a room antenna monitoring device according to an embodiment of the present application.
Detailed Description
The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application. The reference numerals in the present application are only used for distinguishing the steps in the scheme, and are not used for limiting the execution sequence of the steps, and the specific execution sequence controls the description in the specification.
In order to solve the problems in the prior art, the embodiment of the application provides a room division antenna monitoring method and device and a readable storage medium.
Fig. 1 is a flow chart of a method for monitoring a split antenna according to a first embodiment of the present application, as shown in fig. 1, including the following steps:
102, collecting radio frequency signals of each indoor antenna in an indoor antenna system by a plurality of monitoring devices, wherein the plurality of monitoring devices are arranged to cover a target indoor area;
step 104, the plurality of monitoring devices shift the frequency band of the 5G signal in the correspondingly collected radio frequency signals to a 2.4G frequency band;
Step 106, the multiple monitoring devices respectively measure the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal, and send the signals to a remotely arranged indoor antenna monitoring platform through a 4G network;
And step 108, the indoor antenna monitoring platform processes the received power intensity and monitors the working state of the indoor antenna within the preset distance of each monitoring device.
In this embodiment, the indoor antenna monitoring method is performed by a plurality of monitoring devices provided in a target indoor area, and a remote indoor antenna monitoring platform communicating with the plurality of monitoring devices through a 4G network. Referring to an application scenario schematic diagram of the indoor antenna monitoring method of the embodiment of the present application in fig. 2, a plurality of monitoring devices 1000 are disposed in a target indoor area and are wirelessly connected to indoor antennas in an indoor antenna system disposed in the target indoor area, and the plurality of monitoring devices 1000 can cover the whole target indoor area to monitor each indoor antenna in the indoor area comprehensively and accurately.
One monitoring device 1000 may correspond to one compartment antenna or may correspond to a plurality of compartment antennas. In order to ensure the accuracy of monitoring the working state of the indoor antenna, each monitoring device can be arranged adjacent to the target indoor antenna to be monitored in the indoor system by the distance between the monitoring device and the corresponding monitored indoor antenna within a preset distance.
In step 102, a plurality of monitoring devices collect radio frequency signals transmitted by each of the antenna elements in the antenna system. The monitoring device 1000 may collect electromagnetic wave radio frequency signals emitted by the indoor antennas of the base station through the receiving antennas with high sensitivity, and the radio frequency signals collected by the monitoring device 1000 may include radio frequency signals emitted by a plurality of indoor antennas.
In step 104, the monitoring device 1000 identifies the 4G signal and the 5G signal in the correspondingly collected radio frequency signals, and shifts the frequency band of the 5G signal to the 2.4G frequency band, so as to perform the subsequent monitoring of the working state of the corresponding indoor antenna based on the power intensity of the 5G signal measured in the shifted 2.4G frequency band.
Based on the solution provided in the foregoing embodiment, optionally, the shifting, by the multiple monitoring devices, a frequency band of a 5G signal in the correspondingly collected radio frequency signals to a 2.4G frequency band includes: the monitoring devices respectively identify the 5G signals and the 4G signals in the collected radio frequency signals through frequency shifters arranged in the monitoring devices, and shift the frequency band of the 5G signals to the 2.4G frequency band.
By incorporating frequency shifters in each monitoring device 1000, the 5G signal in the range from 700MHz to 5000MHz can be shifted to the 2.4G frequency band, and then in step 106, the power intensities of the 4G signal and the 2.4G frequency band signal after the frequency shift of the 5G signal are measured and transmitted to the indoor antenna monitoring platform 2000 through the 4G network.
Optionally, the plurality of monitoring devices respectively measure the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal, including: the target monitoring equipment measures the power intensity of the 4G signal based on the 4G signal in the correspondingly collected radio frequency signals; the target monitoring device measures the power intensity of a 5G signal based on a signal of a 2.4G frequency band corresponding to the 5G signal offset in the collected radio frequency signals.
Each monitoring device 1000 measures the power strength of the 4G signal it collects and the power strength of the signal in the 2.4G band shifted by the 5G signal, and the monitoring device 1000 communicates with the indoor antenna monitoring platform 2000 through the 4G network. In the embodiment of the present application, the monitoring device 1000 does not work on the 5G signal, and can work on the 4G signal and the signal in the 2.4G frequency band, so that the power intensity of the collected 4G signal can be measured, and the power intensity of the collected 5G signal can be measured based on the signal in the 2.4G frequency band after the offset.
In step 106, the method is sent to a remotely located indoor antenna monitoring platform through a 4G network, and includes: and the target monitoring equipment sends the power intensity of the 4G signal and the power intensity of the 5G signal to a remotely-arranged indoor antenna monitoring platform through a 4G network of a preset operator.
The monitoring device 1000 may include a user terminal that communicates through a 4G network, and transmits the measured power intensity of the 4G signal and the measured power intensity of the 5G signal to the remotely-located indoor antenna monitoring platform 2000 through a 4G network of a preset operator, that is, the 4G network of the operator corresponding to the SIM card installed in the user terminal of the monitoring device 1000. For example, the user terminal of the monitoring device 1000 includes an LTE cat.1 module.
LTE Cat full name LTEUE-Category, LTE (Long Term Evolution ) refers to 4G LTE networks, UE refers to user equipment, category is a classification. LTE Cat is a classification of 4G LTE network transmission rates that the user equipment can support. According to the definition of 3GPP, UE class is classified into 15 grades according to 1-15, LTE Cat.1 is the classification of wireless performance of user terminal equipment in LTE network, and LTE Cat.1 module can be called as "low-profile" 4G terminal.
The indoor antenna monitoring platform 2000 is remotely arranged and separated from the monitoring device 1000, and the monitoring device 1000 is in data communication with the indoor antenna monitoring platform 2000 through a 4G network, so that the measured power intensity of a signal in a 5G frequency band and the measured power intensity of a 4G signal are transmitted to the remotely arranged indoor antenna monitoring platform 2000 through the 4G network.
In step 108, the indoor antenna monitoring platform 2000 monitors the operation state of the indoor antenna within a preset distance of each monitoring device 1000 based on the received power intensity.
In one embodiment, the method further comprises: the target monitoring equipment acquires positioning information comprising the position of the indoor antenna within a preset distance and the position of a base station where the indoor antenna is located; the indoor antenna monitoring platform which is transmitted to a remote setting through a 4G network comprises: and the target monitoring equipment sends the power intensity of the 4G signal, the power intensity of the 5G signal and the positioning information to a remote indoor antenna monitoring platform through the 4G network of the preset operator.
The monitoring device 1000 may use a geographic information system (Geographic Information System, GIS) chip to perform location positioning, obtain a location corresponding to the indoor antenna and a location corresponding to the base station of the indoor antenna, and send the location and the location together with the measured power intensities of the 4G signal and the 5G signal to the indoor antenna monitoring platform 2000, and after the indoor antenna monitoring platform 2000 determines that the target indoor antenna fails, perform geographic display of a base station site failure, for example, GIS map information of the base station location, a location and alarm information of the target indoor antenna, so that the failure location may be rapidly located.
Optionally, in step 108, the indoor antenna monitoring platform processes the received power intensity, monitors the working state of the indoor antenna within a preset distance of each monitoring device, and includes: the indoor antenna monitoring platform determines the power intensity of a 5G signal corresponding to offset of the 2.4G frequency band signal based on the power intensity of the 2.4G frequency band signal sent by each monitoring device and the frequency shift mapping relation between the 2.4G frequency band and the frequency band of the 5G signal; based on the power intensity of the 4G signal, the power intensity of the 5G signal and a preset power intensity threshold value corresponding to each monitoring device, whether the working state of the indoor antenna within a preset distance of each monitoring device is abnormal or normal is monitored.
The indoor antenna monitoring platform 2000 and the monitoring device 1000 are communicated through a 4G network, the indoor antenna monitoring platform 2000 receives the power intensity of the 2.4G frequency band signal and the power intensity of the 4G signal measured by the monitoring device 1000 through the 4G network, and monitors the working state of the indoor antenna within the preset distance of the corresponding monitoring device 1000 based on the received signal power intensity.
For the relationship between the shifted 2.4G frequency band signal and the original 5G signal, the indoor antenna monitoring platform 2000 and the monitoring device 1000 have been negotiated in advance, and the indoor antenna monitoring platform 2000 will record in advance the frequency shift mapping relationship between the 2.4G frequency band and the frequency band of the 5G signal. Thus, the indoor antenna monitoring platform 2000 may determine the power intensity of the 5G signal corresponding to the offset based on the received power intensity of the signal in the 2.4G frequency band and the frequency shift mapping relationship between the frequency bands of the 2.4G frequency band and the 5G signal, so as to monitor whether the working state of the target indoor antenna is normal or abnormal based on the power intensity of the 5G signal.
Optionally, the monitoring of whether the working state of the indoor antenna within the preset distance of each monitoring device is abnormal or normal based on the power intensity of the 4G signal, the power intensity of the 5G signal and the preset power intensity threshold value corresponding to each monitoring device includes: the indoor antenna monitoring platform respectively compares the power intensity of the 4G signal corresponding to the target monitoring equipment with a preset 4G power intensity threshold value, and compares the power intensity of the 5G signal with a preset 5G power intensity threshold value; if the power intensity of the 4G signal is higher than a preset 4G power intensity threshold value and the power intensity of the 5G signal is higher than a preset 5G power intensity threshold value, monitoring that the working state of the indoor antenna within a preset distance of the target monitoring equipment is normal; if the power intensity of the 4G signal is not higher than a preset 4G power intensity threshold value or the power intensity of the 5G signal is not higher than a preset 5G power intensity threshold value, the working state of the indoor antenna within a preset distance of the target monitoring equipment is monitored to be abnormal.
And respectively comparing the power intensity of the 4G signal with a preset 4G power intensity threshold value, and comparing the power intensity of the 5G signal with a preset 5G power intensity threshold value, and judging that the working state of the indoor antenna corresponding to the signal source is abnormal if the power intensity of the 4G signal or the 5G signal does not exceed the corresponding preset power intensity. If the power intensities of the 4G signal and the 5G signal exceed the corresponding preset power intensities, judging that the working state of the indoor antenna corresponding to the signal source is normal.
Optionally, after the monitoring of whether the working state of the indoor antenna within the preset distance of each monitoring device is abnormal or normal, the method further includes: the indoor antenna monitoring platform generates a signal monitoring report corresponding to the indoor antenna based on the monitoring working state of the indoor antenna within the preset distance of each monitoring device, wherein the signal monitoring report comprises at least one or more of the combination of the 4G signal power intensity corresponding to the indoor antenna and a preset 4G power intensity threshold value, the 5G signal power intensity corresponding to the measurement and a preset G power intensity threshold value, the monitoring working state indication and the working state analysis result; and displaying signal monitoring reports corresponding to the indoor antenna within a preset distance of each monitoring device.
The monitoring working state of the indoor antenna comprises a normal working state or an abnormal working state, the normal working state corresponds to the generation of a signal normal monitoring report corresponding to the indoor antenna, and the abnormal working state corresponds to the generation of a signal abnormal monitoring report corresponding to the indoor antenna. The content of the signal normal monitoring report can comprise the actual signal power intensity of the 4G signal and the 5G signal, the signal power intensity threshold value set when the indoor antenna normally operates and the operation normal indication; the content of the signal abnormality monitoring report comprises the actual signal power intensity of the 4G signal and the 5G signal, the signal power intensity threshold value set during normal operation of the indoor antenna, the operation abnormality indication, the analysis result of the cause of the abnormal working state and the abnormal working state. Further, the signal normal monitoring report and the signal abnormal monitoring report can be visually displayed through a visual display platform, for example, a display screen is adopted to output and display in a chart or table mode.
In addition, the alarm notification can be sent out simultaneously, so that the monitoring result can be processed in time, and the occurrence probability of problem delay processing and problem delay discovery is reduced to a certain extent.
In the embodiment of the application, the radio frequency signals of each indoor antenna in the indoor antenna system are collected through a plurality of monitoring devices, and the plurality of monitoring devices are arranged to cover the indoor area of the target; the monitoring devices shift the frequency band of the 5G signal in the correspondingly collected radio frequency signals to a 2.4G frequency band; the monitoring equipment respectively measures the power intensity of a signal in a 2.4G frequency band and the power intensity of a 4G signal in a radio frequency signal, and sends the signals to a remotely arranged indoor antenna monitoring platform through a 4G network; the indoor antenna monitoring platform processes the received power intensity, monitors the working state of the indoor antenna within the preset distance of each monitoring device, so that the monitoring device for monitoring the working state of the indoor antenna on site is separated from the indoor antenna monitoring platform remotely, the monitoring of the indoor antenna monitoring platform is prevented from being interfered by the indoor system, the accuracy and the speed of the analysis of the working state of the antenna are improved, whether the operation of the indoor system is abnormal or not is diagnosed, and the monitoring efficiency of the indoor antenna is improved.
Optionally, as shown in fig. 3, the embodiment of the application further provides a room antenna monitoring method, which is applied to monitoring equipment. The method comprises the following steps:
Step 202, collecting radio frequency signals;
Step 204, shifting the frequency band of the 5G signal in the radio frequency signal to a 2.4G frequency band;
Step 206, measuring the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal respectively;
And step 208, transmitting the power to a remotely-arranged indoor antenna monitoring platform through a 4G network, so that the indoor antenna monitoring platform monitors the working state of the indoor antenna within the preset distance of the indoor antenna monitoring equipment based on the received power intensity.
The monitoring device provided in the embodiment of the present application can implement each process implemented by the monitoring device 1000 in the embodiment of fig. 1 to 2, and in order to avoid repetition, a description is omitted here.
Optionally, as shown in fig. 4, the embodiment of the application further provides a method for monitoring the indoor antenna, which is applied to the indoor antenna monitoring platform. The method comprises the following steps:
Step 302, receiving the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal, which are measured by the monitoring equipment, through a 4G network;
Step 304, determining the power intensity of the 5G signal corresponding to the offset of the 2.4G frequency band signal based on the power intensity of the 2.4G frequency band signal and the frequency shift mapping relationship between the 2.4G frequency band and the 5G signal frequency band;
Step 306, monitoring the working state of the indoor antenna within the preset distance of the monitoring device based on the power intensity of the 4G signal, the power intensity of the 5G signal and a preset power intensity threshold.
The indoor antenna monitoring platform provided in the embodiment of the present application can implement each process implemented by the indoor antenna monitoring platform 2000 in the embodiment of fig. 1 to 2, and in order to avoid repetition, a detailed description is omitted here.
Optionally, as shown in fig. 5, the embodiment of the present application further provides a room antenna monitoring device 3000, which includes a processor 3400 and a memory 3200, where a program or an instruction capable of running on the processor 3400 is stored in the memory 3200, and the program or the instruction realizes each step of the room antenna monitoring method embodiment when being executed by the processor 3400, and can achieve the same technical effects, so that repetition is avoided, and no further description is given here.
The embodiment of the application also provides a readable storage medium, on which a program or an instruction is stored, which when executed by a processor, implements each process of any one of the above embodiments of the indoor antenna monitoring platform method, and can achieve the same technical effect, so that repetition is avoided, and no redundant description is provided herein. The readable storage medium includes a computer readable storage medium, such as Read-Only Memory (ROM), random access Memory (Random Access Memory RAM), magnetic disk or optical disk.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) comprising instructions for causing a terminal (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present application.
The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are to be protected by the present application.
Claims (12)
1. A method for monitoring a chamber antenna, comprising:
The monitoring equipment collects radio frequency signals of each indoor antenna in the indoor antenna system, and the monitoring equipment is arranged to cover the indoor area of the target;
The monitoring devices shift the frequency band of the 5G signal in the correspondingly collected radio frequency signals to a 2.4G frequency band;
The monitoring devices respectively measure the power intensity of the signal in the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal, and send the signals to a remotely arranged indoor antenna monitoring platform through a 4G network, the monitoring devices comprise user terminals which communicate through the 4G network and work on the 4G signal and the signal in the 2.4G frequency band so as to measure the power intensity of the collected 4G signal and the power intensity of the collected 5G signal based on the signal measurement of the 2.4G frequency band after offset;
the indoor antenna monitoring platform processes the received power intensity and monitors the working state of the indoor antenna within the preset distance of each monitoring device.
2. The method of claim 1, wherein the plurality of monitoring devices shift the frequency band of the 5G signal of the correspondingly collected radio frequency signals to a 2.4G frequency band, comprising:
The monitoring devices respectively identify the 5G signals and the 4G signals in the collected radio frequency signals through frequency shifters arranged in the monitoring devices, and shift the frequency band of the 5G signals to the 2.4G frequency band.
3. The indoor antenna monitoring method according to claim 2, wherein the plurality of monitoring devices respectively measure the power intensity of the signal of the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal, comprising:
The target monitoring equipment measures the power intensity of the 4G signal based on the 4G signal in the correspondingly collected radio frequency signals;
the target monitoring device measures the power intensity of a 5G signal based on a signal of a 2.4G frequency band corresponding to the 5G signal offset in the collected radio frequency signals.
4. A method of monitoring a chamber antenna according to claim 3, wherein the transmitting to a remotely located chamber antenna monitoring platform via a 4G network comprises:
and the target monitoring equipment sends the power intensity of the 4G signal and the power intensity of the 5G signal to a remotely-arranged indoor antenna monitoring platform through a 4G network of a preset operator.
5. The method of indoor antenna monitoring according to claim 4, further comprising:
The target monitoring equipment acquires positioning information comprising the position of the indoor antenna within a preset distance and the position of a base station where the indoor antenna is located;
The indoor antenna monitoring platform which is transmitted to a remote setting through a 4G network comprises:
And the target monitoring equipment sends the power intensity of the 4G signal, the power intensity of the 5G signal and the positioning information to a remote indoor antenna monitoring platform through the 4G network of the preset operator.
6. The method for monitoring the indoor antenna according to claim 1, wherein the indoor antenna monitoring platform processes the received power intensity, monitors the working state of the indoor antenna within a preset distance of each monitoring device, and comprises:
The indoor antenna monitoring platform determines the power intensity of a 5G signal corresponding to offset of the 2.4G frequency band signal based on the power intensity of the 2.4G frequency band signal sent by each monitoring device and the frequency shift mapping relation between the 2.4G frequency band and the frequency band of the 5G signal;
Based on the power intensity of the 4G signal, the power intensity of the 5G signal and a preset power intensity threshold value corresponding to each monitoring device, whether the working state of the indoor antenna within a preset distance of each monitoring device is abnormal or normal is monitored.
7. The method for monitoring the indoor antenna according to claim 6, wherein the monitoring whether the operation state of the indoor antenna within the preset distance of each monitoring device is abnormal or normal based on the power intensity of the 4G signal, the power intensity of the 5G signal and the preset power intensity threshold value corresponding to each monitoring device comprises:
the indoor antenna monitoring platform respectively compares the power intensity of the 4G signal corresponding to the target monitoring equipment with a preset 4G power intensity threshold value, and compares the power intensity of the 5G signal with a preset 5G power intensity threshold value;
If the power intensity of the 4G signal is higher than a preset 4G power intensity threshold value and the power intensity of the 5G signal is higher than a preset 5G power intensity threshold value, monitoring that the working state of the indoor antenna within a preset distance of the target monitoring equipment is normal;
If the power intensity of the 4G signal is not higher than a preset 4G power intensity threshold value or the power intensity of the 5G signal is not higher than a preset 5G power intensity threshold value, the working state of the indoor antenna within a preset distance of the target monitoring equipment is monitored to be abnormal.
8. The method for monitoring the indoor antenna according to claim 6, wherein after monitoring whether the operation state of the indoor antenna within the preset distance of each monitoring device is abnormal or normal, further comprising:
the indoor antenna monitoring platform generates a signal monitoring report corresponding to the indoor antenna based on the working state monitoring of the indoor antenna within the preset distance of each monitoring device, wherein the signal monitoring report comprises at least one or more of the combination of the 4G signal power intensity corresponding to the measurement of the indoor antenna and a preset 4G power intensity threshold, the 5G signal power intensity corresponding to the measurement and a preset G power intensity threshold, the monitoring working state indication and the working state analysis result;
and displaying signal monitoring reports corresponding to the indoor antenna within a preset distance of each monitoring device.
9. A method for monitoring a room antenna, applied to a monitoring device, the monitoring device including a user terminal communicating through a 4G network and operating on a 4G signal and a signal in a 2.4G frequency band, the method comprising:
Collecting radio frequency signals;
shifting the frequency band of the 5G signal in the radio frequency signal to a 2.4G frequency band;
Measuring the power intensity of the signal of the 2.4G frequency band and the power intensity of the 4G signal in the radio frequency signal respectively, wherein the power intensity of the collected 5G signal is measured based on the signal of the 2.4G frequency band after offset;
And the power intensity is transmitted to a remote indoor antenna monitoring platform through a 4G network, so that the indoor antenna monitoring platform monitors the working state of the indoor antenna within the preset distance of the monitoring equipment based on the received power intensity.
10. A method for monitoring a chamber antenna, applied to a chamber antenna monitoring platform, the method comprising:
Receiving, through a 4G network, a power intensity of a signal of a 2.4G frequency band and a power intensity of a 4G signal measured by a monitoring device, the monitoring device including a user terminal communicating through the 4G network and operating on the 4G signal and the signal of the 2.4G frequency band to measure the power intensity of the collected 4G signal and the power intensity of the collected 5G signal based on the signal of the shifted 2.4G frequency band;
Determining the power intensity of the 5G signal corresponding to the offset of the 2.4G frequency band signal based on the power intensity of the 2.4G frequency band signal and the frequency shift mapping relation between the 2.4G frequency band and the 5G signal frequency band;
and monitoring the working state of the indoor antenna within the preset distance of the monitoring equipment based on the power intensity of the 4G signal, the power intensity of the 5G signal and a preset power intensity threshold.
11. A chamber antenna monitoring device comprising a processor and a memory storing a program or instructions executable on the processor, which when executed by the processor, implement the steps of the chamber antenna monitoring method of claim 9 or 10.
12. A readable storage medium, wherein a program or instructions is stored on the readable storage medium, which when executed by a processor, implements the steps of the room antenna monitoring method according to claim 9 or 10.
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