CN116434791A - Configuration method and system for audio player - Google Patents

Configuration method and system for audio player Download PDF

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Publication number
CN116434791A
CN116434791A CN202310688045.1A CN202310688045A CN116434791A CN 116434791 A CN116434791 A CN 116434791A CN 202310688045 A CN202310688045 A CN 202310688045A CN 116434791 A CN116434791 A CN 116434791A
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monitoring
audio
audio player
time
real
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CN116434791B (en
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杜小微
冯米奥
陈烈辉
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Shenzhen Fuyuan Digital Technology Co ltd
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Shenzhen Fuyuan Digital Technology Co ltd
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    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B20/00Signal processing not specific to the method of recording or reproducing; Circuits therefor
    • G11B20/10Digital recording or reproducing
    • G11B20/18Error detection or correction; Testing, e.g. of drop-outs
    • G11B20/1816Testing
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B20/00Signal processing not specific to the method of recording or reproducing; Circuits therefor
    • G11B20/10Digital recording or reproducing
    • G11B20/10009Improvement or modification of read or write signals
    • G11B20/10018Improvement or modification of read or write signals analog processing for digital recording or reproduction
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management

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  • Reverberation, Karaoke And Other Acoustics (AREA)

Abstract

The invention discloses a configuration method and a configuration system for an audio player, which belong to the field of audio and are used for solving the problems that the current audio player is poor in tone quality and not perceived as being different in tone color and a judgment method matched with the audio player cannot be configured through equipment conditions.

Description

Configuration method and system for audio player
Technical Field
The invention belongs to the field of audio players, relates to a configuration technology, and in particular relates to a configuration method and a configuration system for an audio player.
Background
All sounds that a human being can hear, which may include noise, etc., are commonly referred to as audio. After the sound is recorded, either the speaking voice, singing voice, musical instrument can be processed by digital music software or it can be made into a CD, all of which is unchanged at this time, since CD is a type of audio file. Whereas audio is simply sound stored in a computer. If a computer is added with a corresponding audio card, namely a sound card which is often called by us, all the sounds can be recorded, and the acoustic characteristics of the sounds, such as the sound level, can be stored in a computer hard disk file mode.
At present, only when the situation of blocking or incapacity of playing occurs, a user can know that the audio player fails, but the problems of poor tone quality, inaccurate tone color and the like of the audio player cannot be detected by the user, and meanwhile, an adaptive playing judgment method cannot be configured based on the equipment situation of the audio player;
to this end, we propose a configuration method and system for an audio player.
Disclosure of Invention
Aiming at the defects existing in the prior art, the invention aims to provide a configuration method and a configuration system for an audio player.
The technical problems to be solved by the invention are as follows:
how the device case configures the adapted play decision criteria for the audio player.
The aim of the invention can be achieved by the following technical scheme:
the configuration system for the audio player comprises a data acquisition module, a data comparison module, a history monitoring module, a storage module, a standard setting module, a user terminal and a server, wherein the user terminal is used for associating the audio player with the server;
the history monitoring module is used for monitoring the history playing condition of the audio player, obtaining a playing monitoring value of the audio player and feeding the playing monitoring value back to the server, and the server sends the playing monitoring value of the audio player to the standard setting module;
the storage module is also used for storing the monitoring standards of the audio players under different preset monitoring levels and sending the monitoring standards of the audio players under different preset monitoring levels to the standard setting module;
the standard setting module is used for setting the monitoring standard of the audio player according to the play monitoring value, so as to obtain the monitoring standard of the audio player, and feeding the monitoring standard back to the server, and the server sends the monitoring standard of the audio player to the data comparison module;
the data acquisition module is used for acquiring real-time audio data of the comparison music played by the audio player and sending the real-time audio data to the data comparison module through the server; the user terminal is used for uploading preset audio data of the comparison music by a user and sending the preset audio data to the data comparison module through the server;
the data comparison module is used for comparing the working conditions of the audio player and generating a play abnormal signal or a play normal signal.
Further, the historical playing data are the playing times of the audio player, the playing time length and the failure times of each playing, the maintenance time length and the playing deviation times after each failure.
Further, the monitoring process of the history monitoring module is specifically as follows:
acquiring the playing times of the audio player and the playing time length of each playing time, and adding and summing the playing time lengths of each playing time to obtain the total playing time length of the audio player;
then obtaining the number of faults of the audio player and the maintenance time after each fault, and obtaining the maintenance average time of the audio player by adding and summing the maintenance time after each fault and dividing the sum by the number of faults;
simultaneously acquiring the play deviation times of the audio player;
and calculating a play monitoring value of the audio player.
Further, the setting process of the standard setting module is specifically as follows:
acquiring a play monitoring value of an audio player;
comparing the play monitoring value with a play monitoring threshold value, and judging the real-time monitoring level of the audio player;
and comparing the real-time monitoring grade of the audio player with a preset monitoring grade to obtain a monitoring standard corresponding to the audio player.
Further, the real-time monitoring levels include a first real-time monitoring level, a second real-time monitoring level, and a third real-time monitoring level, the level of the first real-time monitoring level being higher than the level of the second real-time monitoring level, the level of the second real-time monitoring level being higher than the level of the third real-time monitoring level;
the preset monitoring levels comprise a first preset monitoring level, a second preset monitoring level and a third preset monitoring level, wherein the level of the first preset monitoring level is higher than that of the second preset monitoring level, and the level of the second preset monitoring level is higher than that of the third preset monitoring level;
the first real-time monitoring grade corresponds to a first preset monitoring grade, the second real-time monitoring grade corresponds to a second preset monitoring grade, and the third real-time monitoring grade corresponds to a third preset monitoring grade;
the monitoring standard is the allowable frequency offset difference value of the audio player when in operation, the allowable frequency offset difference value of the first real-time monitoring level is smaller than the allowable frequency offset difference value of the second real-time monitoring level, and the allowable frequency offset difference value of the second real-time monitoring level is smaller than the allowable frequency offset difference value of the third real-time monitoring level.
Further, the real-time audio data is a real-time audio map with a time axis when the comparison music is played through the audio player;
the preset audio data is a preset audio map with a time axis when the music is played.
Further, the data comparison module is used for comparing the working conditions of the audio player, and the comparison process is specifically as follows:
acquiring a real-time audio map when the audio player plays comparison music;
then a preset audio map of the comparison music is obtained;
intercepting real-time audio segments and preset audio maps in the real-time audio maps and the preset audio maps according to the same starting time and ending time;
stacking the real-time audio map and the preset audio map, so as to obtain an intersection point and a non-overlapping area of the real-time audio map and the preset audio map;
counting the number of the intersections of the real-time audio map and the preset audio map, and mapping the number of the intersections into the number of deviation points PD of the audio player playing comparison music;
similarly, calculating the area mapping of the non-overlapped area of the real-time audio map and the preset audio map to obtain the deviation area PM of the audio player playing comparison music;
calculating an audio deviation value YP of the audio player playing comparison music according to a formula YP= (PD×b1+PM×b2)/(b1+b2); wherein b1 and b2 are proportionality coefficients with fixed values, and the values of b1 and b2 are larger than zero;
acquiring a monitoring standard corresponding to the audio player, acquiring an allowable audio frequency deviation value of the audio player according to the monitoring standard, generating a play abnormal signal if the audio frequency deviation value is greater than or equal to the allowable audio frequency deviation value, and generating a play normal signal if the audio frequency deviation value is less than the allowable audio frequency deviation value.
Further, the data comparison module feeds back the abnormal playing signal or the normal playing signal to the server;
if the server receives the play normal signal, no operation is performed, if the server receives the play abnormal signal, the play abnormal signal is sent to the user terminal, meanwhile, the server records the play deviation of the audio player once, and the user terminal is used for configuring the play condition of the audio player after receiving the play abnormal signal.
In a second aspect, a configuration method for an audio player, the method specifically comprises:
step S100, when the audio player is used after being associated with a server, the storage module sends stored historical play data to the historical monitoring module, the historical monitoring module monitors the historical play condition of the audio player, and a play monitoring value of the audio player is obtained and sent to the standard setting module through the server;
step S200, the storage module also sends the stored monitoring standards of the audio player under different preset monitoring levels to a standard setting module, and the standard setting module sets the monitoring standards of the audio player according to the playing monitoring values and sends the set monitoring standards to a data comparison module through a server;
step S300, the data acquisition module acquires real-time audio data of the comparison music played by the audio player, and sends the real-time audio data to the data comparison module through the server, and the user terminal uploads preset audio data of the comparison music to the data comparison module;
step S400, the data comparison module compares the working conditions of the audio player, and generates a play abnormal signal or a play normal signal by comparison and feeds the play abnormal signal back to the server;
step S500, if the server receives the abnormal playing signal, the abnormal playing signal is sent to the user terminal, and the user terminal checks the audio player according to the abnormal playing signal.
Compared with the prior art, the invention has the beneficial effects that:
according to the invention, the historical playing condition of the audio player is monitored through the historical monitoring module, the playing monitoring value of the audio player is obtained and sent to the standard setting module, the standard setting module sets the monitoring standard of the audio player according to the playing monitoring value, the set monitoring standard is sent to the data comparison module through the server, the working condition of the audio player is compared through the data comparison module, and the playing abnormal signal or the playing normal signal is generated through comparison.
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The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.
FIG. 1 is an overall system block diagram of the present invention;
fig. 2 is a flow chart of the operation of the present invention.
Detailed Description
The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
In an embodiment, referring to fig. 1, a configuration system for an audio player is provided, which includes a data acquisition module, a data comparison module, a history monitoring module, a storage module, a standard setting module, a user terminal and a server;
the user terminal is used for associating the audio player with the server, wherein the association mode is specifically as follows: the method comprises the steps that a user terminal scans a software two-dimension code on an audio player to download appointed audio software, the audio player generates a wireless local area network with the user terminal, the user terminal is connected with the wireless local area network, then the audio player is connected with the appointed wireless local area network through the audio software in the user terminal, after the audio player is connected with the appointed wireless local area network, the user terminal can withdraw from the audio software, a server is connected with the same wireless local area network as the audio player, audio drivers corresponding to the audio player are imported into the server, and the association between the server and the audio player can be achieved;
after the audio player is associated with the server, when the audio player is used, the storage module is used for recording the historical playing data of the audio player and sending the historical playing data to the historical monitoring module;
the historical playing data are the playing times of the audio player, the playing time length and the failure times of each playing, the maintenance time length and the playing deviation times after each failure;
the history monitoring module is used for monitoring the history playing condition of the audio player, and the monitoring process is specifically as follows:
the method comprises the steps of obtaining the playing times of an audio player and the playing time length of each playing time, and adding and summing the playing time length of each playing time to obtain the playing total time length BT of the audio player;
then, the fault frequency GC of the audio player and the maintenance time length after each fault are obtained, and the maintenance time length after each fault is added, summed and divided by the fault frequency to obtain the maintenance average time length WT of the audio player;
meanwhile, the play deviation times of the audio player are obtained, and the play deviation times are marked as BPC;
the play monitoring value BJ of the audio player is calculated by the formula BJ=BT×a1+GC×a2+WT×a3+BPC×a4; wherein a1, a2, a3 and a4 are weight coefficients with fixed values, and the values of a1, a2, a3 and a4 are all larger than zero;
the history monitoring module feeds back the play monitoring value of the audio player to the server, and the server sends the play monitoring value of the audio player to the standard setting module;
in this embodiment, the storage module is further configured to store the monitoring standards of the audio player under different preset monitoring levels, and send the monitoring standards of the audio player under different preset monitoring levels to the standard setting module; the preset monitoring levels comprise a first preset monitoring level, a second preset monitoring level and a third preset monitoring level, wherein the level of the first preset monitoring level is higher than that of the second preset monitoring level, and the level of the second preset monitoring level is higher than that of the third preset monitoring level;
in the implementation, the monitoring standard is specifically an allowable audio frequency offset difference value when the audio player works, the allowable audio frequency offset difference value corresponding to the first preset monitoring level is smaller than the allowable audio frequency offset difference value corresponding to the second preset monitoring level, and the allowable audio frequency offset difference value corresponding to the second real-time monitoring level is smaller than the allowable audio frequency offset difference value corresponding to the third real-time monitoring level;
the standard setting module is used for setting the monitoring standard of the audio player according to the play monitoring value, and the setting process is specifically as follows:
acquiring the play monitoring value of the audio player obtained by calculation;
comparing the play monitoring value with a play monitoring threshold value;
if the play monitoring value is smaller than the first play monitoring threshold value, the real-time monitoring level of the audio player is a third real-time monitoring level;
if the play monitoring value is greater than or equal to the first play monitoring threshold value and less than the second play monitoring threshold value, the real-time monitoring level of the audio player is the second real-time monitoring level;
if the play monitoring value is greater than or equal to the second play monitoring threshold value, the real-time monitoring level of the audio player is the first real-time monitoring level; wherein the value of the first play monitoring threshold is greater than the value of the second play monitoring threshold;
it can be appreciated that the first real-time monitoring level is higher than the second real-time monitoring level, which is higher than the third real-time monitoring level;
comparing the real-time monitoring grade of the audio player with a preset monitoring grade to obtain a monitoring standard corresponding to the audio player; the first real-time monitoring grade corresponds to a first preset monitoring grade, the second real-time monitoring grade corresponds to a second preset monitoring grade, and the third real-time monitoring grade corresponds to a third preset monitoring grade;
the standard setting module feeds the monitoring standard of the audio player back to the server, and the server sends the monitoring standard of the audio player to the data comparison module;
in specific implementation, the data acquisition module is used for acquiring real-time audio data of the comparison music played by the audio player and sending the real-time audio data to the server, and the server sends the real-time audio data to the data comparison module;
the user terminal is used for uploading preset audio data of the comparison music to the server by a user, and the server sends the preset audio data of the played comparison music to the data comparison module;
the method specifically needs to be explained, the real-time audio data is a real-time audio image with a time axis when the comparison music is played through the audio player, the preset audio data is a preset audio image with a time axis when the comparison music is played, and the data acquisition module can be an audio acquisition device or audio acquisition software when the method is specifically implemented;
the data comparison module is used for comparing the working conditions of the audio player, and the comparison process is specifically as follows:
acquiring a real-time audio map when the audio player plays comparison music;
then a preset audio map of the comparison music is obtained;
intercepting real-time audio segments and preset audio maps in the real-time audio maps and the preset audio maps according to the same starting time and ending time;
stacking the real-time audio map and the preset audio map, so as to obtain an intersection point and a non-overlapping area of the real-time audio map and the preset audio map;
counting the number of the intersections of the real-time audio map and the preset audio map, and mapping the number of the intersections into the number of deviation points PD of the audio player playing comparison music;
similarly, calculating the area mapping of the non-overlapped area of the real-time audio map and the preset audio map to obtain the deviation area PM of the audio player playing comparison music;
calculating an audio deviation value YP of the audio player playing comparison music according to a formula YP= (PD×b1+PM×b2)/(b1+b2); wherein b1 and b2 are proportionality coefficients with fixed values, and the values of b1 and b2 are larger than zero;
acquiring a monitoring standard corresponding to the audio player, acquiring an allowable audio frequency deviation value of the audio player according to the monitoring standard, generating a play abnormal signal if the audio frequency deviation value is greater than or equal to the allowable audio frequency deviation value, and generating a play normal signal if the audio frequency deviation value is less than the allowable audio frequency deviation value;
the data comparison module feeds back a play abnormal signal or a play normal signal to the server, if the server receives the play normal signal, no operation is performed, if the server receives the play abnormal signal, the play abnormal signal is sent to the user terminal, meanwhile, the server records the play deviation of the audio player once, the user terminal is used for checking and configuring the play condition of the audio player after receiving the play abnormal signal, and the configuration is specifically to convert and switch different sampling rates, frequencies and channel numbers of the audio player; various transformations such as fade-in, fade-out, volume adjustment, etc. are performed on the audio data itself; transformation by digital filtering algorithms, such as high pass, low pass filters, etc.
In the present application, if a corresponding calculation formula appears, the above calculation formulas are all dimensionality-removed and numerical calculation, and the size of the weight coefficient, the scale coefficient and other coefficients existing in the formulas is a result value obtained by quantizing each parameter, so long as the proportional relation between the parameter and the result value is not affected.
In another embodiment, referring to fig. 2, based on another concept of the same invention, a configuration method for an audio player is now provided, and the method specifically includes:
step S100, a user terminal associates an audio player with a server, after the audio player is associated with the server and when the audio player is used, a storage module sends stored historical play data to a historical monitoring module, the historical monitoring module monitors the historical play condition of the audio player, the play times of the audio player and the play time length of each play are obtained, the play time length of each play is added and summed to obtain the play total time length of the audio player, then the failure times of the audio player and the maintenance time length after each failure are obtained, the maintenance time length after each failure is added and summed and divided by the failure times to obtain the maintenance average time length of the audio player, meanwhile, the play deviation times of the audio player are obtained, the play monitoring value of the audio player is calculated, the historical monitoring module feeds back the play monitoring value of the audio player to the server, and the server sends the play monitoring value of the audio player to a standard setting module;
step 200, the storage module further sends the stored monitoring standards of the audio player under different preset monitoring levels to the standard setting module, the standard setting module sets the monitoring standards of the audio player according to the playing monitoring values, the playing monitoring values of the audio player are obtained, the playing monitoring values are compared with the playing monitoring threshold values, if the playing monitoring values are smaller than the first playing monitoring threshold values, the real-time monitoring level of the audio player is a third real-time monitoring level, if the playing monitoring values are larger than or equal to the first playing monitoring threshold values and smaller than the second playing monitoring threshold values, the real-time monitoring level of the audio player is a second real-time monitoring level, if the playing monitoring values are larger than or equal to the second playing monitoring threshold values, the real-time monitoring level of the audio player is a first real-time monitoring level, the real-time monitoring level of the audio player is compared with the preset monitoring levels, the corresponding monitoring standards of the audio player are obtained, the standard setting module feeds back the monitoring standards of the audio player to the server, and the server sends the monitoring standards of the audio player to the data comparison module;
step S300, a data acquisition module acquires real-time audio data of comparison music played by an audio player, the real-time audio data are sent to a server, the server sends the real-time audio data to a data comparison module, a user uploads preset audio data of the comparison music to the server through a user terminal, and the server sends the preset audio data of the play comparison music to the data comparison module;
step S400, the data comparison module compares the working conditions of the audio players, a real-time audio image is obtained when the audio players play the comparison music, then a preset audio image of the comparison music is obtained, real-time audio segments and preset audio images are intercepted in the real-time audio image and the preset audio image according to the same starting time and ending time, the real-time audio image and the preset audio image are stacked, so that the cross points and non-overlapping areas of the real-time audio image and the preset audio image are obtained, the number of the cross points of the real-time audio image and the preset audio image is counted and mapped to the number of the deviation points of the audio players playing the comparison music, the area of the non-overlapping areas of the real-time audio image and the preset audio image is mapped to the deviation area of the audio players playing the comparison music, the audio frequency deviation difference value of the audio players is calculated, the monitoring standard corresponding to the audio players is obtained, the allowable frequency deviation value of the audio players is obtained according to the monitoring standard, if the audio frequency deviation difference value is larger than or equal to the allowable audio frequency deviation difference value, a playing abnormal signal is generated, if the audio frequency deviation difference value is smaller than the allowable frequency deviation value, a playing normal signal is generated, and the data comparison module compares the playing abnormal signal or the playing signal to the server is fed back to the normal signal;
step S500, if the server receives the play normal signal, no operation is performed, if the server receives the play abnormal signal, the play abnormal signal is sent to the user terminal, meanwhile, the server records the play deviation of the audio player once, and the user terminal checks the play condition of the audio player after receiving the play abnormal signal.
The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (9)

1. The configuration system for the audio player is characterized by comprising a data acquisition module, a data comparison module, a history monitoring module, a storage module, a standard setting module, a user terminal and a server, wherein the user terminal is used for associating the audio player with the server, and when the audio player is used, the storage module is used for recording the history playing data of the audio player and sending the history playing data to the history monitoring module;
the history monitoring module is used for monitoring the history playing condition of the audio player, obtaining a playing monitoring value of the audio player and feeding the playing monitoring value back to the server, and the server sends the playing monitoring value of the audio player to the standard setting module;
the storage module is also used for storing the monitoring standards of the audio players under different preset monitoring levels and sending the monitoring standards of the audio players under different preset monitoring levels to the standard setting module;
the standard setting module is used for setting the monitoring standard of the audio player according to the play monitoring value, so as to obtain the monitoring standard of the audio player, and feeding the monitoring standard back to the server, and the server sends the monitoring standard of the audio player to the data comparison module;
the data acquisition module is used for acquiring real-time audio data of the comparison music played by the audio player and sending the real-time audio data to the data comparison module through the server; the user terminal is used for uploading preset audio data of the comparison music by a user and sending the preset audio data to the data comparison module through the server;
the data comparison module is used for comparing the working conditions of the audio player and generating a play abnormal signal or a play normal signal.
2. The system of claim 1, wherein the historical playing data is a number of playing times of the audio player, a playing time period at each playing time, a number of failures, a maintenance time period after each failure, and a number of playing deviations.
3. A configuration system for an audio player according to claim 2, wherein the history monitoring module monitors the following process:
acquiring the playing times of the audio player and the playing time length of each playing time, and adding and summing the playing time lengths of each playing time to obtain the total playing time length of the audio player;
then obtaining the number of faults of the audio player and the maintenance time after each fault, and obtaining the maintenance average time of the audio player by adding and summing the maintenance time after each fault and dividing the sum by the number of faults;
simultaneously acquiring the play deviation times of the audio player;
and calculating a play monitoring value of the audio player.
4. The configuration system for an audio player according to claim 1, wherein the setting procedure of the standard setting module is specifically as follows:
acquiring a play monitoring value of an audio player;
comparing the play monitoring value with a play monitoring threshold value, and judging the real-time monitoring level of the audio player;
and comparing the real-time monitoring grade of the audio player with a preset monitoring grade to obtain a monitoring standard corresponding to the audio player.
5. The configuration system for an audio player of claim 4, wherein the real-time monitoring levels include a first real-time monitoring level, a second real-time monitoring level, and a third real-time monitoring level, the first real-time monitoring level being higher than the second real-time monitoring level, the second real-time monitoring level being higher than the third real-time monitoring level;
the preset monitoring levels comprise a first preset monitoring level, a second preset monitoring level and a third preset monitoring level, wherein the level of the first preset monitoring level is higher than that of the second preset monitoring level, and the level of the second preset monitoring level is higher than that of the third preset monitoring level;
the first real-time monitoring grade corresponds to a first preset monitoring grade, the second real-time monitoring grade corresponds to a second preset monitoring grade, and the third real-time monitoring grade corresponds to a third preset monitoring grade;
the monitoring standard is the allowable frequency offset difference value of the audio player when in operation, the allowable frequency offset difference value of the first real-time monitoring level is smaller than the allowable frequency offset difference value of the second real-time monitoring level, and the allowable frequency offset difference value of the second real-time monitoring level is smaller than the allowable frequency offset difference value of the third real-time monitoring level.
6. The configuration system for an audio player of claim 1 wherein the real-time audio data is a real-time audio map with a time axis for comparison of music being played by the audio player;
the preset audio data is a preset audio map with a time axis when the music is played.
7. The system according to claim 6, wherein the data comparison module is configured to compare the working conditions of the audio player, and the comparison process is specifically as follows:
acquiring a real-time audio map when the audio player plays comparison music;
then a preset audio map of the comparison music is obtained;
intercepting real-time audio segments and preset audio maps in the real-time audio maps and the preset audio maps according to the same starting time and ending time;
stacking the real-time audio map and the preset audio map, so as to obtain an intersection point and a non-overlapping area of the real-time audio map and the preset audio map;
counting the number of the intersections of the real-time audio map and the preset audio map, and mapping the number of the intersections into the number of deviation points PD of the audio player playing comparison music;
similarly, calculating the area mapping of the non-overlapped area of the real-time audio map and the preset audio map to obtain the deviation area PM of the audio player playing comparison music;
calculating an audio deviation value YP of the audio player playing comparison music according to a formula YP= (PD×b1+PM×b2)/(b1+b2); wherein b1 and b2 are proportionality coefficients with fixed values, and the values of b1 and b2 are larger than zero;
acquiring a monitoring standard corresponding to the audio player, acquiring an allowable audio frequency deviation value of the audio player according to the monitoring standard, generating a play abnormal signal if the audio frequency deviation value is greater than or equal to the allowable audio frequency deviation value, and generating a play normal signal if the audio frequency deviation value is less than the allowable audio frequency deviation value.
8. The configuration system for an audio player according to claim 7, wherein the data comparison module feeds back a play abnormal signal or a play normal signal to the server;
if the server receives the play normal signal, no operation is performed, if the server receives the play abnormal signal, the play abnormal signal is sent to the user terminal, meanwhile, the server records the play deviation of the audio player once, and the user terminal is used for configuring the play condition of the audio player after receiving the play abnormal signal.
9. A configuration method for an audio player, characterized in that based on a configuration system for an audio player according to any of claims 1-8, the method is in particular as follows:
step S100, when the audio player is used after being associated with a server, the storage module sends stored historical play data to the historical monitoring module, the historical monitoring module monitors the historical play condition of the audio player, and a play monitoring value of the audio player is obtained and sent to the standard setting module through the server;
step S200, the storage module also sends the stored monitoring standards of the audio player under different preset monitoring levels to a standard setting module, and the standard setting module sets the monitoring standards of the audio player according to the playing monitoring values and sends the set monitoring standards to a data comparison module through a server;
step S300, the data acquisition module acquires real-time audio data of the comparison music played by the audio player, and sends the real-time audio data to the data comparison module through the server, and the user terminal uploads preset audio data of the comparison music to the data comparison module;
step S400, the data comparison module compares the working conditions of the audio player, and generates a play abnormal signal or a play normal signal by comparison and feeds the play abnormal signal back to the server;
step S500, if the server receives the abnormal playing signal, the abnormal playing signal is sent to the user terminal, and the user terminal checks the audio player according to the abnormal playing signal.
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