CN112102829A - Player control system and method based on voice recognition - Google Patents

Abstract

The invention discloses a player control system based on voice recognition and a method thereof, wherein the system comprises a setting module, an input module, a recognition module, a control module and an output module; the method comprises the following steps: setting a system operation mode; receiving external sound, performing decibel detection on the received external sound, performing voice recognition if a decibel detection result is greater than a corresponding system command activation decibel value, and judging whether a voice recognition result is matched with system operation mode setting or not; controlling the current player according to the voice recognition result, further comparing the decibel value of the detected external sound with the system recovery decibel value, and controlling the current player to recover the state before recognition if the decibel value is lower than the system recovery decibel value; and outputting the audio played by the current player and the voice recognition result. The invention can enable the user to know the external condition in time, and effectively avoids the problem that the user encounters danger or misses other relevant information of the outside.

Description

Player control system and method based on voice recognition

Technical Field

The invention relates to the technical field of voice recognition, in particular to a player control system based on voice recognition and a method thereof.

Background

With the continuous development of information technology, smart phones have already occupied a very important position in people's daily life, basic communication functions are removed, smart phones are used more in aspects of playing games, listening music, watching videos and the like, earphones are usually selected to be used under various use scenes so as not to disturb others and obtain better sound experience effects, and are classified into a plurality of types, namely head-wearing types, earphones, earplugs and the like, the connection mode of the earphones is also divided into wired connection and wireless connection, however, the earphone products have a problem that people cannot hear outside sounds when using the earphones, and therefore communication inconvenience and potential safety hazards that outside sounds cannot be sensed are caused.

Therefore, how to provide a player control system capable of performing speech recognition on external sounds and a method thereof are problems that need to be solved by those skilled in the art.

Disclosure of Invention

In view of this, the present invention provides a player control system based on voice recognition and a method thereof, and aims to solve the problem of potential safety hazard caused by the fact that once an earphone is used to play a media, the sound in the external environment cannot be heard clearly.

In order to achieve the purpose, the invention adopts the following technical scheme:

a player control system based on speech recognition, comprising: the device comprises a setting module, an input module, an identification module, a control module and an output module; wherein the content of the first and second substances,

the setting module is used for setting system operation modes, and each operation mode corresponds to a system command activation decibel value and a system recovery decibel value respectively;

the input module is used for receiving external sound and transmitting the received external sound to the identification module;

the recognition module is used for carrying out decibel detection on the received external sound, carrying out voice recognition if a decibel detection result is greater than a corresponding system command activation decibel value, acquiring a voice recognition result, judging whether the voice recognition result is matched with the system operation mode setting, and transmitting the voice recognition result to the control module if the voice recognition result is matched with the system operation mode setting;

the control module is used for controlling the current player according to the voice recognition result, transmitting the voice recognition result to the output module, further comparing the detected decibel of the external sound with the system recovery decibel value, and controlling the current player to recover the state before recognition if the detected decibel is lower than the system recovery decibel value;

and the output module is used for outputting the audio played by the current player and the voice recognition result.

Preferably, the setting module comprises a mode setting unit, a keyword setting unit and a storage unit;

the mode setting unit is used for setting the operation mode of the system;

the keyword setting unit is used for setting and identifying keywords;

the storage unit is used for storing system parameters, audio materials and contents set by the mode setting unit and the keyword setting unit, the system parameters comprise a storage system command activation decibel value and a system recovery decibel value, and the audio materials comprise: police car siren, fire engine siren, ambulance siren, bicycle bell, dog cry.

Preferably, the mode setting unit includes a keyword recognition mode setting and a sound class recognition mode setting.

Preferably, the input module is a radio device on a mobile device terminal or a radio device on an earphone adapted to the mobile device terminal.

Preferably, the identification module comprises a decibel detection unit, a first comparison unit, an identification unit and a judgment unit;

the decibel detection unit is used for carrying out decibel detection on the received external sound;

the first comparison unit is used for comparing the detected decibel of the external sound with the corresponding system command activation decibel value;

the identification unit is used for respectively identifying the received external sounds according to a system mode;

and the judging unit is used for judging whether the voice recognition result is matched with the system operation mode setting, judging whether the recognized result is matched with a preset keyword or not in the keyword recognition mode, and judging whether the recognized result is matched with the audio content in the audio material or not in the sound type recognition mode.

Preferably, the control module comprises a pause unit, a second comparison unit and a play unit;

the pause unit is used for realizing the pause playing of the current player;

the second comparison unit is used for comparing the magnitude between the decibel value of the currently detected external sound and the system recovery decibel value;

and the playing unit is used for realizing the replay of the current player according to the comparison result of the second comparison unit.

Preferably, the control module further comprises a vibrator for vibrating the mobile device terminal after the playing of the current player is suspended.

Preferably, the device further includes a media volume adjusting module, where the media volume adjusting module is configured to receive the external sound acquired by the input module, adjust the volume of the media played by the current player and the volume of the external sound output by the output module, and adjust the volume to a preset ratio, where the volume of the media played by the current player is greater than the volume of the acquired external sound.

A player control method based on voice recognition comprises the following steps:

s1, setting system operation modes, wherein each operation mode corresponds to a system command activation decibel value and a system recovery decibel value respectively;

s2, receiving external sound, performing decibel detection on the received external sound, performing voice recognition if a decibel detection result is greater than a corresponding system command activation decibel value, acquiring a voice recognition result, and judging whether the voice recognition result is matched with system operation mode setting or not;

s3, if the voice recognition result is matched with the system operation mode setting, controlling the current player according to the voice recognition result, further comparing the decibel value of the detected external sound with the system recovery decibel value, and if the decibel value is lower than the system recovery decibel value, controlling the current player to recover the state before recognition;

and S4, outputting the audio played by the current player and the voice recognition result.

Preferably, S2 further includes the following:

receiving external sound, adjusting the volume of the media played by the current player and the volume of the acquired external sound to a preset proportion, wherein the volume of the media played by the current player is larger than the volume of the acquired external sound; and carrying out decibel detection on the received external sound, carrying out voice recognition if the decibel detection result is greater than the corresponding system command activation decibel value, acquiring a voice recognition result, and judging whether the voice recognition result is matched with the system operation mode setting.

According to the technical scheme, compared with the prior art, the player control system based on the voice recognition and the method thereof can effectively input the external sound to the recognition module through the input unit, the recognition module is used for detecting and judging, if the content matched with the keyword or the music material is recognized, the external sound needs to be heard by a user, the player of the user is controlled to stop playing the audio, the external sound is heard by the user through the output device, the user can know the external condition in time, and the problem that the user is in danger or misses other related information of the external is effectively avoided.

Drawings

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

FIG. 1 is a schematic diagram of a player control system based on speech recognition according to the present invention;

fig. 2 is a schematic flow chart of a player control method based on speech recognition according to the present invention.

Detailed Description

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

The embodiment of the invention discloses a player control system based on voice recognition, which comprises: the device comprises a setting module, an input module, an identification module, a control module and an output module; wherein the content of the first and second substances,

the system comprises a setting module, a recovery module and a control module, wherein the setting module is used for setting system operation modes, and each operation mode corresponds to a system command activation decibel value and a system recovery decibel value respectively;

the input module is used for receiving external sound and transmitting the received external sound to the identification module;

the recognition module is used for carrying out decibel detection on the received external sound, carrying out voice recognition if the decibel detection result is greater than the activation decibel value of a corresponding system command, acquiring a voice recognition result, judging whether the voice recognition result is matched with the system operation mode setting or not, and transmitting the voice recognition result to the control module if the voice recognition result is matched with the system operation mode setting;

the control module is used for controlling the current player according to the voice recognition result, transmitting the voice recognition result to the output module, further comparing the detected decibel of the external sound with the system recovery decibel value, and controlling the current player to recover the state before recognition if the detected decibel is lower than the system recovery decibel value;

and the output module is used for outputting the audio played by the current player and the voice recognition result.

It needs to be further explained that:

when the decibel detection result is smaller than the corresponding system command activation decibel value, the player is not controlled;

the user can also speak the keyword for recovering the player when the player needs to recover the state before recognition by setting the keyword for recovering the player, and the player is controlled to recover after voice recognition.

In order to further implement the technical scheme, the setting module comprises a mode setting unit, a keyword setting unit and a storage unit;

the mode setting unit is used for setting the operation mode of the system;

a keyword setting unit for setting an identification keyword;

the storage unit is used for storing the contents set by the system parameters, the audio materials, the storage mode setting unit and the keyword setting unit, the system parameters comprise a storage system command activation decibel value and a system recovery decibel value, and the audio materials comprise: police car siren, fire engine siren, ambulance siren, bicycle bell, dog cry.

In order to further implement the above technical solution, the mode setting unit includes a keyword recognition mode setting and a sound category recognition mode setting.

In order to further implement the technical scheme, the input module is a radio receiving device on the mobile equipment terminal or a radio receiving device on an earphone matched with the mobile equipment terminal.

In order to further implement the technical scheme, the identification module comprises a decibel detection unit, a first comparison unit, an identification unit and a judgment unit;

the decibel detection unit is used for carrying out decibel detection on the received external sound;

the first comparison unit is used for comparing the magnitude between the detected decibel of the external sound and the corresponding system command activation decibel value;

the recognition unit is used for respectively recognizing the received external sounds according to the system mode;

and the judging unit is used for judging whether the voice recognition result is matched with the system operation mode setting, judging whether the recognized result is matched with a preset keyword or not in the keyword recognition mode, and judging whether the recognized result is matched with the audio content in the audio material or not in the sound category recognition mode.

It should be noted that:

if the detected decibel of the external sound is smaller than the activation decibel value of the corresponding system command, the player keeps the original state, and if the detected decibel of the external sound is larger than the activation decibel value of the corresponding system command, the system starts to recognize, judge and other subsequent controls.

In the keyword recognition mode, judging whether the recognized result is matched with a preset keyword or not, if so, indicating that the playing of the original audio in the player needs to be suspended, and if not, eliminating the need of the next action by the system;

and under the sound type identification mode, judging whether the identified result is matched with the audio content in the audio material, if so, indicating that the original audio in the player needs to be paused, and if not, the system does not need to carry out the next action.

In order to further implement the above technical solution, the control module includes a pause unit, a second comparing unit, and a play unit;

the pause unit is used for realizing the pause playing of the current player;

the second comparison unit is used for comparing the magnitude between the decibel value of the currently detected external sound and the system recovery decibel value;

and the playing unit is used for realizing the replay of the current player according to the comparison result of the second comparison unit.

In order to further implement the above technical solution, the control module further includes a vibrator for starting vibration of the mobile device terminal after the play of the current player is paused.

In order to further implement the above technical solution, the mobile terminal further includes a media volume adjusting module, where the media volume adjusting module is configured to receive the external sound acquired by the input module, adjust the volume of the media played by the current player and the volume of the external sound output by the output module, and adjust the volume to a preset ratio, where the volume of the media played by the current player is greater than the volume of the acquired external sound.

A player control method based on voice recognition comprises the following steps:

s1, setting system operation modes, wherein each operation mode corresponds to a system command activation decibel value and a system recovery decibel value respectively;

s2, receiving external sound, performing decibel detection on the received external sound, performing voice recognition if a decibel detection result is greater than a corresponding system command activation decibel value, acquiring a voice recognition result, and judging whether the voice recognition result is matched with the system operation mode setting;

s3, if the voice recognition result is matched with the system operation mode setting, controlling the current player, further comparing the decibel value of the detected external sound with the system recovery decibel value, and if the decibel value is lower than the system recovery decibel value, controlling the current player to recover the state before recognition;

and S4, outputting the audio played by the current player and a voice recognition result.

In order to further implement the above technical solution, S2 further includes the following:

receiving external sound, adjusting the volume of the media played by the current player and the volume of the acquired external sound to a preset proportion, wherein the volume of the media played by the current player is larger than the volume of the acquired external sound; and carrying out decibel detection on the received external sound, carrying out voice recognition if the decibel detection result is greater than the corresponding system command activation decibel value, acquiring a voice recognition result, and judging whether the voice recognition result is matched with the system operation mode setting.

The following is further illustrated by the specific examples:

example 1: the input module is a mobile phone with MIC, the playing control software is corresponding media playing software, a media playing software interface is opened to set a trigger mode, intelligent voice recognition is selected, a tester name LY is input, a playing keyword music is input, the voice recognition tolerance is selected to be 90%, a system command activation decibel value is set, the main interface is returned to use the media playing software to normally play related media contents, the tester wears an earphone and wears an eye mask, the tester stands behind the tester to say the tester name LY one meter away, the mobile phone MIC recognition interrupt person sends out a sound higher than the system command activation decibel value, the software carries out voice recognition after receiving external audio, recognizes the tester name contained in the audio, triggers a media playing pause command after recognition is completed, and outputs an MIC audio signal to the earphone to play, so that the tester can realize barrier-free communication between the earphone worn by the tester and the external interrupt person, after the communication is finished, the system detects whether the external sound decibel is lower than a preset value, the media is restored to play after the external sound decibel is lower than the preset value, and the player can also speak the playing keyword 'music' to perform media replay.

Example 2: the input module is a mobile phone with MIC, the broadcast control software is corresponding media broadcast software, the media broadcast software is opened to set a trigger mode, the alarm sound is selected, the options of a police car, an ambulance, a fire engine, a bicycle and a dog are selected, the vibration prompt is started, a system alarm activation decibel value of 60 is set, the main interface is returned to and used for normally broadcasting related media contents by using the media broadcast software, a tester wears earphones and wears eyepatches, the tester interrupts one meter behind the tester to use the sound equipment to broadcast a police car siren, a fire engine siren, an ambulance siren, a bicycle bell and a dog call, the sound emitted after the MIC identification of the mobile phone is higher than the system command activation decibel value of 60, the software performs voice identification after receiving external audio, when the content in the audio frequency is the same as the selected sound, the media broadcast pause command is triggered and a vibration command is sent to a mobile phone vibrator, meanwhile, the MIC audio signal of the mobile phone covers the original media audio and is output to the earphone to be played, and barrier-free communication with the external environment when a tester wears the earphone and meets an emergency is realized. After the communication is finished, the system detects whether the external sound decibel is lower than a preset value, the media is restored to play after the external sound decibel is lower than the preset value, and the player can also speak the playing keyword 'music' to perform media replay.

Example 3: the input module is a Bluetooth earphone with MIC, the playing control software is corresponding media playing software, a media playing software interface is opened to set a trigger mode, intelligent voice recognition is selected, a tester name LY is input, a playing keyword music is input, the voice recognition tolerance is selected to be 90%, a system command activation decibel value is set, the main interface is returned to use the media playing software to normally play related media contents, the tester wears an earphone and an eyeshade, the tester stands behind the tester to speak the tester name LY one meter away, the sound emitted by the Bluetooth earphone MIC recognition interrupt is higher than the system command activation decibel value, the software carries out voice recognition after receiving external audio, recognizes that the audio contains the tester name, triggers a media playing pause command after recognition is finished, and outputs an MIC audio signal to the Bluetooth earphone to play covering the original media audio, the tester can wear the earphone to communicate with the external interrupt person without obstacles. After the communication is finished, the system detects whether the external sound decibel is lower than a preset value, the media is restored to play after the external sound decibel is lower than the preset value, and the player can also speak the playing keyword 'music' to perform media replay.

Example 4: the input module is a Bluetooth headset with a MIC, the broadcast control software is corresponding media playing software, a media playing software interface is opened to set a trigger mode, a media playing software interface is opened to set an audio mode, a music mode is changed into a virtual and real audio mixing mode, the media volume is adjusted to be 70%, the external volume is adjusted to be 30%, the main interface is returned to use the media playing software to normally play related media contents, a tester wears the headset and wears an eyeshade, the tester can hear 30% of external sound and 70% of media sound in real time, a test interrupt person stands behind the tester to say the name 'LY' of the tester one meter away, the software covers the original media audio with MIC audio signals and outputs the MIC audio signals to the Bluetooth headset to be broadcast, and barrier-free communication between the tester wearing the headset and the external interrupt person is achieved. After the communication is finished, the system detects whether the external sound decibel is lower than a preset value, the media is restored to play in a virtual-real sound mixing mode after the external sound decibel is lower than the preset value, and the player can also speak a playing keyword 'music' to play the media in the virtual-real sound mixing mode.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A player control system based on speech recognition, comprising: the device comprises a setting module, an input module, an identification module, a control module and an output module; wherein the content of the first and second substances,

the setting module is used for setting system operation modes, and each operation mode corresponds to a system command activation decibel value and a system recovery decibel value respectively;

the input module is used for receiving external sound and transmitting the received external sound to the identification module;

the recognition module is used for carrying out decibel detection on the received external sound, carrying out voice recognition if a decibel detection result is greater than a corresponding system command activation decibel value, acquiring a voice recognition result, judging whether the voice recognition result is matched with the system operation mode setting, and transmitting the voice recognition result to the control module if the voice recognition result is matched with the system operation mode setting;

the control module is used for controlling the current player according to the voice recognition result, transmitting the voice recognition result to the output module, further comparing the detected decibel of the external sound with the system recovery decibel value, and controlling the current player to recover the state before recognition if the detected decibel is lower than the system recovery decibel value;

and the output module is used for outputting the audio played by the current player and the voice recognition result.

2. The player control system based on voice recognition according to claim 1, wherein the setting module comprises a mode setting unit, a keyword setting unit and a storage unit;

the mode setting unit is used for setting the operation mode of the system;

the keyword setting unit is used for setting and identifying keywords;

the storage unit is used for storing system parameters, audio materials and contents set by the mode setting unit and the keyword setting unit, the system parameters comprise a storage system command activation decibel value and a system recovery decibel value, and the audio materials comprise: police car siren, fire engine siren, ambulance siren, bicycle bell, dog cry.

3. The player control system based on speech recognition according to claim 2, wherein the mode setting unit includes a keyword recognition mode setting and a sound class recognition mode setting.

4. The player control system based on voice recognition as claimed in claim 1, wherein the input module is a sound receiving device on a mobile device terminal or a sound receiving device on an earphone adapted to the mobile device terminal.

5. The player control system based on voice recognition according to claim 3, wherein the recognition module comprises a decibel detection unit, a first comparison unit, a recognition unit and a judgment unit;

the decibel detection unit is used for carrying out decibel detection on the received external sound;

the first comparison unit is used for comparing the detected decibel of the external sound with the corresponding system command activation decibel value;

the identification unit is used for respectively identifying the received external sounds according to a system mode;

and the judging unit is used for judging whether the voice recognition result is matched with the system operation mode setting, judging whether the recognized result is matched with a preset keyword or not in the keyword recognition mode, and judging whether the recognized result is matched with the audio content in the audio material or not in the sound type recognition mode.

6. The player control system based on voice recognition according to claim 1, wherein the control module comprises a pause unit, a second comparison unit and a play unit;

the pause unit is used for realizing the pause playing of the current player;

the second comparison unit is used for comparing the magnitude between the decibel value of the currently detected external sound and the system recovery decibel value;

and the playing unit is used for realizing the replay of the current player according to the comparison result of the second comparison unit.

7. The system of claim 1, wherein the control module further comprises a vibrator for vibrating the mobile device terminal after the playing of the current player is suspended.

8. The player control system based on speech recognition according to claim 1, further comprising a media volume adjusting module, wherein the media volume adjusting module is configured to receive the external sound acquired by the input module, adjust the volume of the media currently played by the player and the volume of the external sound output by the output module, and adjust the volume to a preset ratio, and the volume of the media currently played by the player is greater than the volume of the acquired external sound.

9. A player control method based on voice recognition is characterized by comprising the following steps:

s1, setting system operation modes, wherein each operation mode corresponds to a system command activation decibel value and a system recovery decibel value respectively;

s2, receiving external sound, performing decibel detection on the received external sound, performing voice recognition if a decibel detection result is greater than a corresponding system command activation decibel value, acquiring a voice recognition result, and judging whether the voice recognition result is matched with system operation mode setting or not;

s3, if the voice recognition result is matched with the system operation mode setting, controlling the current player, further comparing the decibel value of the detected external sound with the system recovery decibel value, and if the decibel value is lower than the system recovery decibel value, controlling the current player to recover the state before recognition;

and S4, outputting the audio played by the current player and the voice recognition result.

10. The player control method based on speech recognition according to claim 9, wherein S2 further includes the following contents:

receiving external sound, adjusting the volume of the media played by the current player and the volume of the acquired external sound to a preset proportion, wherein the volume of the media played by the current player is larger than the volume of the acquired external sound; and carrying out decibel detection on the received external sound, carrying out voice recognition if the decibel detection result is greater than the corresponding system command activation decibel value, acquiring a voice recognition result, and judging whether the voice recognition result is matched with the system operation mode setting.

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