CN113127037A - Method for upgrading monitoring software of repeater - Google Patents

Abstract

The invention discloses a method for upgrading the monitoring software of a repeater, which comprises the steps of upgrading and detecting the monitoring software of the repeater, wherein the monitoring software comprises amplitude detection software and phase detection software, reading the real-time amplitude detection software information and the real-time phase detection software information of the repeater, judging whether the real-time amplitude detection software information and the real-time phase detection software information are upgraded successfully, if both are upgraded successfully, entering the step S2, otherwise, continuously upgrading the amplitude detection software and the phase detection software, and the like. According to the invention, the authenticity and the effectiveness of the acquired data are correspondingly screened and judged, so that the false action cannot be generated in the subsequent peak clipping treatment; and simultaneously, feeding back whether the peak clipping result reaches the standard.

Description

Method for upgrading monitoring software of repeater

Technical Field

The invention belongs to the technical field of wireless communication, and particularly relates to a repeater monitoring software upgrading method.

Background

At present, the peak-to-average ratio of signals of the advanced modulation mode in a wireless communication system is high, and in order to ensure that the signals are not distorted, power amplification backing needs to be carried out, so that the power amplification efficiency is reduced. To address this problem, crest factor reduction techniques are applied. The algorithms for reducing the signal Peak-to-average power ratio comprise an algorithm for performing phase rotation according to a time domain frame format of a specific standard signal, a Peak-Cancel algorithm and the like.

In the implementation process, the inventor finds that at least the following problems exist in the conventional technology: whether the amplitude detection software and the phase detection software are automatically upgraded according to control or not and whether the upgrade is successful or not cannot be determined; the traditional algorithm for reducing the peak-to-average ratio of the signal does not carry out relevant screening on the authenticity and the effectiveness of the acquired data, and is easy to cause misoperation of subsequent peak clipping treatment; meanwhile, whether the peak clipping result reaches the standard or not is not correspondingly fed back.

Disclosure of Invention

The invention aims to provide a method for upgrading monitoring software of a repeater, which is used for solving one of the technical problems in the prior art, such as: whether the amplitude detection software and the phase detection software are automatically upgraded according to control or not and whether the upgrade is successful or not cannot be determined; the traditional algorithm for reducing the peak-to-average ratio of the signal does not carry out relevant screening on the authenticity and the effectiveness of the acquired data, and is easy to cause misoperation of subsequent peak clipping treatment; meanwhile, whether the peak clipping result reaches the standard or not is not correspondingly fed back.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a repeater monitoring software upgrading method is characterized by comprising the following steps:

s1: upgrading and detecting monitoring software of the repeater, wherein the monitoring software comprises amplitude detection software and phase detection software, reading real-time amplitude detection software information and real-time phase detection software information of the repeater, and judging whether the real-time amplitude detection software information and the real-time phase detection software information are upgraded successfully, if the real-time amplitude detection software information and the real-time phase detection software information are upgraded successfully, entering a step S2, otherwise, continuously upgrading the amplitude detection software and the phase detection software;

s2: amplitude detection and phase detection are carried out on the repeater signals, and corresponding real-time amplitude information and real-time phase information are obtained; the effectiveness judgment is carried out on the real-time amplitude information, and the effectiveness judgment is further carried out on the real-time phase information; if both are in accordance with the validity judgment, go to step S3;

s3: performing amplitude peak clipping control corresponding to the repeater signal according to the real-time amplitude information, and then performing phase recovery control on the repeater signal subjected to the amplitude peak clipping control according to the real-time phase information;

s4: performing feedback amplitude detection and feedback phase detection on the repeater signals subjected to amplitude peak clipping control and phase recovery control to obtain corresponding feedback amplitude information and feedback phase information, and performing validity judgment on the feedback amplitude information and the feedback phase information;

wherein, the successful judgment of the upgrade of the real-time amplitude detection software information in the step S1 specifically includes:

reading real-time amplitude detection software information of the repeater signal;

performing first amplitude detection software information matching judgment on the real-time amplitude detection software information and the set amplitude detection software information through a common judgment unit;

if the first-time amplitude detection software information matching judgment result is that the real-time amplitude detection software information is matched with the set amplitude detection software information;

taking the first amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, and carrying out the next real-time phase detection software information upgrading success judgment on the repeater signal;

if the first-time amplitude detection software information matching judgment result is that the real-time amplitude detection software information is not matched with the set amplitude detection software information;

temporarily storing the first amplitude detection software information matching judgment result, and performing second amplitude detection software information matching judgment on the real-time amplitude detection software information and the set amplitude detection software information through a standby judgment unit;

if the second amplitude detection software information matching judgment result is that the real-time amplitude detection software information is matched with the set amplitude detection software information;

taking the second amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, simultaneously abandoning the temporarily stored first amplitude detection software information matching judgment result, and carrying out the next real-time phase detection software information upgrading success judgment on the repeater signal;

if the second amplitude detection software information matching judgment result is that the real-time amplitude detection software information is not matched with the set amplitude detection software information;

taking the temporarily stored first amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, simultaneously abandoning the second amplitude detection software information matching judgment result, and continuously upgrading the amplitude detection software;

the successful judgment of the upgrade of the real-time phase detection software information specifically comprises the following steps:

reading real-time phase detection software information of the repeater signal;

performing first phase detection software information matching judgment on the real-time phase detection software information and the set phase detection software information through a common judgment unit;

if the first time phase detection software information matching judgment result is that the real-time phase detection software information is matched with the set phase detection software information;

taking the first time phase detection software information matching judgment result as an actual phase detection software information matching judgment result, and entering the step S2;

if the first time phase detection software information matching judgment result is that the real-time phase detection software information is not matched with the set phase detection software information;

temporarily storing the first-time phase detection software information matching judgment result, and performing second-time phase detection software information matching judgment on the real-time phase detection software information and the set phase detection software information through a standby judgment unit;

if the second time phase detection software information matching judgment result is that the real-time phase detection software information is matched with the set phase detection software information;

taking the second-time phase detection software information matching judgment result as an actual phase detection software information matching judgment result, discarding the temporarily stored first-time phase detection software information matching judgment result, and entering step S2;

if the second time phase detection software information matching judgment result is that the real-time phase detection software information is not matched with the set phase detection software information;

taking the temporary stored first phase detection software information matching judgment result as an actual phase detection software information matching judgment result, simultaneously abandoning the second phase detection software information matching judgment result, and continuously upgrading the phase detection software;

the step of determining the validity of the real-time amplitude information in step S2 specifically includes:

identifying the repeater signal and reading the real-time amplitude of the repeater signal;

carrying out first amplitude matching judgment on the real-time amplitude and the set amplitude through a common judgment unit;

if the first amplitude matching judgment result is that the real-time amplitude is matched with the set amplitude;

taking the first amplitude matching judgment result as an actual amplitude matching judgment result, and carrying out next real-time phase information validity judgment on the repeater signal;

if the first amplitude matching judgment result is that the real-time amplitude is not matched with the set amplitude;

temporarily storing the first amplitude matching judgment result, and performing second amplitude matching judgment on the real-time amplitude and the set amplitude through a standby judgment unit;

if the second amplitude matching judgment result is that the real-time amplitude is matched with the set amplitude;

taking the second amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the temporarily stored first amplitude matching judgment result, and carrying out next real-time phase information validity judgment on the repeater signal;

if the second amplitude matching judgment result is that the real-time amplitude is not matched with the set amplitude;

and taking the temporarily stored first amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the second amplitude matching judgment result, and abandoning the repeater signal.

Further, the step of determining the validity of the real-time phase information in step S2 specifically includes:

identifying the repeater signal and reading the real-time phase of the repeater signal;

performing first phase matching judgment on the real-time phase and the set phase through a common judgment unit;

if the first phase matching judgment result is that the real-time phase is matched with the set phase;

then the first phase matching judgment result is used as an actual phase matching judgment result to finish the validity judgment of the real-time phase information;

if the first phase matching judgment result is that the real-time phase is not matched with the set phase;

temporarily storing the first phase matching judgment result, and performing second phase matching judgment on the real-time phase and the set phase through a standby judgment unit;

if the second phase matching judgment result is that the real-time phase is matched with the set phase;

taking the second phase matching judgment result as an actual phase matching judgment result, and abandoning the temporarily stored first phase matching judgment result to finish the validity judgment of the real-time phase information;

if the second phase matching judgment result is that the real-time phase is not matched with the set phase;

and taking the temporary storage first phase matching judgment result as an actual phase matching judgment result, abandoning the second phase matching judgment result, and abandoning the repeater signal.

Further, the step of determining the validity of the feedback amplitude information in step S4 specifically includes:

identifying the repeater signal and reading the feedback amplitude of the repeater signal;

performing first amplitude matching judgment on the feedback amplitude and the set amplitude through a common judgment unit;

if the first amplitude matching judgment result is that the feedback amplitude is matched with the set amplitude;

taking the first amplitude matching judgment result as an actual amplitude matching judgment result, and carrying out next-step feedback phase information validity judgment on the repeater signal;

if the first amplitude matching judgment result is that the feedback amplitude is not matched with the set amplitude;

temporarily storing the first amplitude matching judgment result, and performing second amplitude matching judgment on the feedback amplitude and the set amplitude through a standby judgment unit;

if the second amplitude matching judgment result is that the feedback amplitude is matched with the set amplitude;

taking the second amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the temporarily stored first amplitude matching judgment result, and performing the next feedback phase information validity judgment on the repeater signal;

if the second amplitude matching judgment result is that the feedback amplitude is not matched with the set amplitude;

and taking the temporarily stored first amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the second amplitude matching judgment result, and abandoning the repeater signal.

Further, the validity judgment of the feedback phase information in step S4 specifically includes:

identifying the repeater signal and reading the feedback phase of the repeater signal;

performing first phase matching judgment on the feedback phase and the set phase through a common judgment unit;

if the first phase matching judgment result is that the feedback phase is matched with the set phase;

then the first phase matching judgment result is used as an actual phase matching judgment result to finish the validity judgment of the feedback phase information;

if the first phase matching judgment result is that the feedback phase is not matched with the set phase;

temporarily storing the first phase matching judgment result, and performing second phase matching judgment on the feedback phase and the set phase through a standby judgment unit;

if the second phase matching judgment result is that the feedback phase is matched with the set phase;

taking the second phase matching judgment result as an actual phase matching judgment result, and abandoning the temporarily stored first phase matching judgment result to finish the validity judgment of the feedback phase information;

if the second phase matching judgment result is that the feedback phase is not matched with the set phase;

and taking the temporary storage first phase matching judgment result as an actual phase matching judgment result, abandoning the second phase matching judgment result, and abandoning the repeater signal.

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

the technical scheme has the innovation points that whether the amplitude detection software and the phase detection software are automatically upgraded according to control or not and whether the upgrading is successful or not are correspondingly guaranteed; by correspondingly screening and judging the authenticity and the effectiveness of the acquired data, the subsequent peak clipping processing can not generate misoperation; and simultaneously, feeding back whether the peak clipping result reaches the standard.

Drawings

FIG. 1 is a schematic flow chart of the steps of an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to fig. 1 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 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, a method for upgrading repeater monitoring software is proposed, which is characterized by comprising the following steps:

s1: upgrading and detecting monitoring software of the repeater, wherein the monitoring software comprises amplitude detection software and phase detection software, reading real-time amplitude detection software information and real-time phase detection software information of the repeater, and judging whether the real-time amplitude detection software information and the real-time phase detection software information are upgraded successfully, if the real-time amplitude detection software information and the real-time phase detection software information are upgraded successfully, entering a step S2, otherwise, continuously upgrading the amplitude detection software and the phase detection software;

s2: amplitude detection and phase detection are carried out on the repeater signals, and corresponding real-time amplitude information and real-time phase information are obtained; the effectiveness judgment is carried out on the real-time amplitude information, and the effectiveness judgment is further carried out on the real-time phase information; if both are in accordance with the validity judgment, go to step S3;

s3: performing amplitude peak clipping control corresponding to the repeater signal according to the real-time amplitude information, and then performing phase recovery control on the repeater signal subjected to the amplitude peak clipping control according to the real-time phase information;

s4: performing feedback amplitude detection and feedback phase detection on the repeater signals subjected to amplitude peak clipping control and phase recovery control to obtain corresponding feedback amplitude information and feedback phase information, and performing validity judgment on the feedback amplitude information and the feedback phase information;

wherein, the successful judgment of the upgrade of the real-time amplitude detection software information in the step S1 specifically includes:

reading real-time amplitude detection software information of the repeater signal;

performing first amplitude detection software information matching judgment on the real-time amplitude detection software information and the set amplitude detection software information through a common judgment unit;

if the first-time amplitude detection software information matching judgment result is that the real-time amplitude detection software information is matched with the set amplitude detection software information;

taking the first amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, and carrying out the next real-time phase detection software information upgrading success judgment on the repeater signal;

if the first-time amplitude detection software information matching judgment result is that the real-time amplitude detection software information is not matched with the set amplitude detection software information;

temporarily storing the first amplitude detection software information matching judgment result, and performing second amplitude detection software information matching judgment on the real-time amplitude detection software information and the set amplitude detection software information through a standby judgment unit;

if the second amplitude detection software information matching judgment result is that the real-time amplitude detection software information is matched with the set amplitude detection software information;

taking the second amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, simultaneously abandoning the temporarily stored first amplitude detection software information matching judgment result, and carrying out the next real-time phase detection software information upgrading success judgment on the repeater signal;

if the second amplitude detection software information matching judgment result is that the real-time amplitude detection software information is not matched with the set amplitude detection software information;

taking the temporarily stored first amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, simultaneously abandoning the second amplitude detection software information matching judgment result, and continuously upgrading the amplitude detection software;

the successful judgment of the upgrade of the real-time phase detection software information specifically comprises the following steps:

reading real-time phase detection software information of the repeater signal;

performing first phase detection software information matching judgment on the real-time phase detection software information and the set phase detection software information through a common judgment unit;

if the first time phase detection software information matching judgment result is that the real-time phase detection software information is matched with the set phase detection software information;

taking the first time phase detection software information matching judgment result as an actual phase detection software information matching judgment result, and entering the step S2;

if the first time phase detection software information matching judgment result is that the real-time phase detection software information is not matched with the set phase detection software information;

temporarily storing the first-time phase detection software information matching judgment result, and performing second-time phase detection software information matching judgment on the real-time phase detection software information and the set phase detection software information through a standby judgment unit;

if the second time phase detection software information matching judgment result is that the real-time phase detection software information is matched with the set phase detection software information;

taking the second-time phase detection software information matching judgment result as an actual phase detection software information matching judgment result, discarding the temporarily stored first-time phase detection software information matching judgment result, and entering step S2;

if the second time phase detection software information matching judgment result is that the real-time phase detection software information is not matched with the set phase detection software information;

taking the temporary stored first phase detection software information matching judgment result as an actual phase detection software information matching judgment result, simultaneously abandoning the second phase detection software information matching judgment result, and continuously upgrading the phase detection software;

the step of determining the validity of the real-time amplitude information in step S2 specifically includes:

identifying the repeater signal and reading the real-time amplitude of the repeater signal;

carrying out first amplitude matching judgment on the real-time amplitude and the set amplitude through a common judgment unit;

if the first amplitude matching judgment result is that the real-time amplitude is matched with the set amplitude;

taking the first amplitude matching judgment result as an actual amplitude matching judgment result, and carrying out next real-time phase information validity judgment on the repeater signal;

if the first amplitude matching judgment result is that the real-time amplitude is not matched with the set amplitude;

temporarily storing the first amplitude matching judgment result, and performing second amplitude matching judgment on the real-time amplitude and the set amplitude through a standby judgment unit;

if the second amplitude matching judgment result is that the real-time amplitude is matched with the set amplitude;

taking the second amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the temporarily stored first amplitude matching judgment result, and carrying out next real-time phase information validity judgment on the repeater signal;

if the second amplitude matching judgment result is that the real-time amplitude is not matched with the set amplitude;

and taking the temporarily stored first amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the second amplitude matching judgment result, and abandoning the repeater signal.

Further, the step of determining the validity of the real-time phase information in step S2 specifically includes:

identifying the repeater signal and reading the real-time phase of the repeater signal;

performing first phase matching judgment on the real-time phase and the set phase through a common judgment unit;

if the first phase matching judgment result is that the real-time phase is matched with the set phase;

then the first phase matching judgment result is used as an actual phase matching judgment result to finish the validity judgment of the real-time phase information;

if the first phase matching judgment result is that the real-time phase is not matched with the set phase;

temporarily storing the first phase matching judgment result, and performing second phase matching judgment on the real-time phase and the set phase through a standby judgment unit;

if the second phase matching judgment result is that the real-time phase is matched with the set phase;

taking the second phase matching judgment result as an actual phase matching judgment result, and abandoning the temporarily stored first phase matching judgment result to finish the validity judgment of the real-time phase information;

if the second phase matching judgment result is that the real-time phase is not matched with the set phase;

and taking the temporary storage first phase matching judgment result as an actual phase matching judgment result, abandoning the second phase matching judgment result, and abandoning the repeater signal.

Further, the step of determining the validity of the feedback amplitude information in step S4 specifically includes:

identifying the repeater signal and reading the feedback amplitude of the repeater signal;

performing first amplitude matching judgment on the feedback amplitude and the set amplitude through a common judgment unit;

if the first amplitude matching judgment result is that the feedback amplitude is matched with the set amplitude;

taking the first amplitude matching judgment result as an actual amplitude matching judgment result, and carrying out next-step feedback phase information validity judgment on the repeater signal;

if the first amplitude matching judgment result is that the feedback amplitude is not matched with the set amplitude;

temporarily storing the first amplitude matching judgment result, and performing second amplitude matching judgment on the feedback amplitude and the set amplitude through a standby judgment unit;

if the second amplitude matching judgment result is that the feedback amplitude is matched with the set amplitude;

taking the second amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the temporarily stored first amplitude matching judgment result, and performing the next feedback phase information validity judgment on the repeater signal;

if the second amplitude matching judgment result is that the feedback amplitude is not matched with the set amplitude;

and taking the temporarily stored first amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the second amplitude matching judgment result, and abandoning the repeater signal.

Further, the validity judgment of the feedback phase information in step S4 specifically includes:

identifying the repeater signal and reading the feedback phase of the repeater signal;

performing first phase matching judgment on the feedback phase and the set phase through a common judgment unit;

if the first phase matching judgment result is that the feedback phase is matched with the set phase;

then the first phase matching judgment result is used as an actual phase matching judgment result to finish the validity judgment of the feedback phase information;

if the first phase matching judgment result is that the feedback phase is not matched with the set phase;

temporarily storing the first phase matching judgment result, and performing second phase matching judgment on the feedback phase and the set phase through a standby judgment unit;

if the second phase matching judgment result is that the feedback phase is matched with the set phase;

taking the second phase matching judgment result as an actual phase matching judgment result, and abandoning the temporarily stored first phase matching judgment result to finish the validity judgment of the feedback phase information;

if the second phase matching judgment result is that the feedback phase is not matched with the set phase;

and taking the temporary storage first phase matching judgment result as an actual phase matching judgment result, abandoning the second phase matching judgment result, and abandoning the repeater signal.

The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.

Claims (4)

1. A repeater monitoring software upgrading method is characterized by comprising the following steps:

s1: upgrading and detecting monitoring software of the repeater, wherein the monitoring software comprises amplitude detection software and phase detection software, reading real-time amplitude detection software information and real-time phase detection software information of the repeater, and judging whether the real-time amplitude detection software information and the real-time phase detection software information are upgraded successfully, if the real-time amplitude detection software information and the real-time phase detection software information are upgraded successfully, entering a step S2, otherwise, continuously upgrading the amplitude detection software and the phase detection software;

s2: amplitude detection and phase detection are carried out on the repeater signals, and corresponding real-time amplitude information and real-time phase information are obtained; the effectiveness judgment is carried out on the real-time amplitude information, and the effectiveness judgment is further carried out on the real-time phase information; if both are in accordance with the validity judgment, go to step S3;

s3: performing amplitude peak clipping control corresponding to the repeater signal according to the real-time amplitude information, and then performing phase recovery control on the repeater signal subjected to the amplitude peak clipping control according to the real-time phase information;

s4: performing feedback amplitude detection and feedback phase detection on the repeater signals subjected to amplitude peak clipping control and phase recovery control to obtain corresponding feedback amplitude information and feedback phase information, and performing validity judgment on the feedback amplitude information and the feedback phase information;

wherein, the successful judgment of the upgrade of the real-time amplitude detection software information in the step S1 specifically includes:

reading real-time amplitude detection software information of the repeater signal;

performing first amplitude detection software information matching judgment on the real-time amplitude detection software information and the set amplitude detection software information through a common judgment unit;

if the first-time amplitude detection software information matching judgment result is that the real-time amplitude detection software information is matched with the set amplitude detection software information;

taking the first amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, and carrying out the next real-time phase detection software information upgrading success judgment on the repeater signal;

if the first-time amplitude detection software information matching judgment result is that the real-time amplitude detection software information is not matched with the set amplitude detection software information;

temporarily storing the first amplitude detection software information matching judgment result, and performing second amplitude detection software information matching judgment on the real-time amplitude detection software information and the set amplitude detection software information through a standby judgment unit;

if the second amplitude detection software information matching judgment result is that the real-time amplitude detection software information is matched with the set amplitude detection software information;

taking the second amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, simultaneously abandoning the temporarily stored first amplitude detection software information matching judgment result, and carrying out the next real-time phase detection software information upgrading success judgment on the repeater signal;

if the second amplitude detection software information matching judgment result is that the real-time amplitude detection software information is not matched with the set amplitude detection software information;

taking the temporarily stored first amplitude detection software information matching judgment result as an actual amplitude detection software information matching judgment result, simultaneously abandoning the second amplitude detection software information matching judgment result, and continuously upgrading the amplitude detection software;

the successful judgment of the upgrade of the real-time phase detection software information specifically comprises the following steps:

reading real-time phase detection software information of the repeater signal;

performing first phase detection software information matching judgment on the real-time phase detection software information and the set phase detection software information through a common judgment unit;

if the first time phase detection software information matching judgment result is that the real-time phase detection software information is matched with the set phase detection software information;

taking the first time phase detection software information matching judgment result as an actual phase detection software information matching judgment result, and entering the step S2;

if the first time phase detection software information matching judgment result is that the real-time phase detection software information is not matched with the set phase detection software information;

temporarily storing the first-time phase detection software information matching judgment result, and performing second-time phase detection software information matching judgment on the real-time phase detection software information and the set phase detection software information through a standby judgment unit;

if the second time phase detection software information matching judgment result is that the real-time phase detection software information is matched with the set phase detection software information;

taking the second-time phase detection software information matching judgment result as an actual phase detection software information matching judgment result, discarding the temporarily stored first-time phase detection software information matching judgment result, and entering step S2;

if the second time phase detection software information matching judgment result is that the real-time phase detection software information is not matched with the set phase detection software information;

taking the temporary stored first phase detection software information matching judgment result as an actual phase detection software information matching judgment result, simultaneously abandoning the second phase detection software information matching judgment result, and continuously upgrading the phase detection software;

the step of determining the validity of the real-time amplitude information in step S2 specifically includes:

identifying the repeater signal and reading the real-time amplitude of the repeater signal;

carrying out first amplitude matching judgment on the real-time amplitude and the set amplitude through a common judgment unit;

if the first amplitude matching judgment result is that the real-time amplitude is matched with the set amplitude;

taking the first amplitude matching judgment result as an actual amplitude matching judgment result, and carrying out next real-time phase information validity judgment on the repeater signal;

if the first amplitude matching judgment result is that the real-time amplitude is not matched with the set amplitude;

temporarily storing the first amplitude matching judgment result, and performing second amplitude matching judgment on the real-time amplitude and the set amplitude through a standby judgment unit;

if the second amplitude matching judgment result is that the real-time amplitude is matched with the set amplitude;

taking the second amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the temporarily stored first amplitude matching judgment result, and carrying out next real-time phase information validity judgment on the repeater signal;

if the second amplitude matching judgment result is that the real-time amplitude is not matched with the set amplitude;

and taking the temporarily stored first amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the second amplitude matching judgment result, and abandoning the repeater signal.

2. The method for upgrading repeater monitoring software according to claim 1, wherein the step of judging the validity of the real-time phase information in step S2 specifically comprises:

identifying the repeater signal and reading the real-time phase of the repeater signal;

performing first phase matching judgment on the real-time phase and the set phase through a common judgment unit;

if the first phase matching judgment result is that the real-time phase is matched with the set phase;

then the first phase matching judgment result is used as an actual phase matching judgment result to finish the validity judgment of the real-time phase information;

if the first phase matching judgment result is that the real-time phase is not matched with the set phase;

temporarily storing the first phase matching judgment result, and performing second phase matching judgment on the real-time phase and the set phase through a standby judgment unit;

if the second phase matching judgment result is that the real-time phase is matched with the set phase;

taking the second phase matching judgment result as an actual phase matching judgment result, and abandoning the temporarily stored first phase matching judgment result to finish the validity judgment of the real-time phase information;

if the second phase matching judgment result is that the real-time phase is not matched with the set phase;

and taking the temporary storage first phase matching judgment result as an actual phase matching judgment result, abandoning the second phase matching judgment result, and abandoning the repeater signal.

3. The method for upgrading repeater monitoring software according to claim 2, wherein the step of judging the validity of the feedback amplitude information in step S4 specifically comprises:

identifying the repeater signal and reading the feedback amplitude of the repeater signal;

performing first amplitude matching judgment on the feedback amplitude and the set amplitude through a common judgment unit;

if the first amplitude matching judgment result is that the feedback amplitude is matched with the set amplitude;

taking the first amplitude matching judgment result as an actual amplitude matching judgment result, and carrying out next-step feedback phase information validity judgment on the repeater signal;

if the first amplitude matching judgment result is that the feedback amplitude is not matched with the set amplitude;

temporarily storing the first amplitude matching judgment result, and performing second amplitude matching judgment on the feedback amplitude and the set amplitude through a standby judgment unit;

if the second amplitude matching judgment result is that the feedback amplitude is matched with the set amplitude;

taking the second amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the temporarily stored first amplitude matching judgment result, and performing the next feedback phase information validity judgment on the repeater signal;

if the second amplitude matching judgment result is that the feedback amplitude is not matched with the set amplitude;

and taking the temporarily stored first amplitude matching judgment result as an actual amplitude matching judgment result, simultaneously abandoning the second amplitude matching judgment result, and abandoning the repeater signal.

4. The method for upgrading repeater monitoring software according to claim 3, wherein the judging of the validity of the feedback phase information in step S4 specifically comprises:

identifying the repeater signal and reading the feedback phase of the repeater signal;

performing first phase matching judgment on the feedback phase and the set phase through a common judgment unit;

if the first phase matching judgment result is that the feedback phase is matched with the set phase;

then the first phase matching judgment result is used as an actual phase matching judgment result to finish the validity judgment of the feedback phase information;

if the first phase matching judgment result is that the feedback phase is not matched with the set phase;

temporarily storing the first phase matching judgment result, and performing second phase matching judgment on the feedback phase and the set phase through a standby judgment unit;

if the second phase matching judgment result is that the feedback phase is matched with the set phase;

taking the second phase matching judgment result as an actual phase matching judgment result, and abandoning the temporarily stored first phase matching judgment result to finish the validity judgment of the feedback phase information;

if the second phase matching judgment result is that the feedback phase is not matched with the set phase;

and taking the temporary storage first phase matching judgment result as an actual phase matching judgment result, abandoning the second phase matching judgment result, and abandoning the repeater signal.

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