CN112581956A - Voice recognition method of dual-mode terminal and dual-mode terminal - Google Patents

Abstract

The application provides a voice recognition method, which is applied to a dual-mode terminal, wherein the dual-mode terminal comprises a broadband chip and a narrow-band chip; the broadband chip comprises a voice recognition module; the method comprises the following steps: the broadband chip closes the voice recognition function and enters the dormancy state under the condition of screen-off standby; the method comprises the steps that when a narrow-band chip detects a voice to be recognized, the voice to be recognized is cached, and the wide-band chip is awakened; after waking up the broadband chip, the narrowband chip sends the voice to be recognized to the broadband chip; the broadband chip acquires an instruction in the voice to be recognized. The method and the device can ensure that the dual-mode terminal receives and processes the voice to be recognized in real time and can also ensure that the dual-mode terminal saves electricity.

Description

Voice recognition method of dual-mode terminal and dual-mode terminal

Technical Field

The present application relates to the field of speech recognition, and in particular, to a speech recognition method for a dual-mode terminal and a dual-mode terminal.

Background

Currently, a voice service (e.g., a voice assistant service) on the terminal can receive a user voice and execute instructions in the voice, so that manual operations of the user on the terminal are reduced, and great convenience is brought to our life.

However, for voice services of most terminals, if voice can be received and processed in real time (the voice services are always in an activated state), the terminal is required to be not dormant, power consumption is high, and standby time of the terminal is greatly affected. Therefore, in order to avoid the problem that the terminal consumes too much power, the terminal enters the sleep state under the condition that certain conditions are met, when the terminal is in the sleep state, the voice service function is closed, and if a user needs to use the voice service, the user needs to trigger the voice service to be started through manual operation, namely, the terminal has the problem that the power saving and real-time receiving and voice processing cannot be simultaneously achieved.

For a dual-mode terminal, the problem that power saving and real-time receiving and voice processing cannot be simultaneously achieved exists.

Disclosure of Invention

The application provides a voice recognition method and a dual-mode terminal, aiming at ensuring the dual-mode terminal to save power and receiving and processing voice in real time.

In order to achieve the above object, the present application provides the following technical solutions:

the application provides a voice recognition method, which is applied to a dual-mode terminal, wherein the dual-mode terminal comprises a broadband chip and a narrow-band chip; the broadband chip comprises a voice recognition module;

the method comprises the following steps:

the broadband chip closes the voice recognition function and enters the dormancy state under the condition of screen-off standby;

the narrowband chip caches the voice to be recognized and awakens the broadband chip under the condition that the narrowband chip detects the voice to be recognized;

after the narrow-band chip wakes up the broadband chip, the voice to be recognized is sent to the broadband chip;

and the broadband chip acquires the instruction in the voice to be recognized.

Optionally, the obtaining, by the broadband chip, the instruction in the speech to be recognized includes:

the broadband chip judges the recognition mode of the voice to be recognized; the identification mode is local identification or server identification;

and under the condition that the recognition mode of the voice to be recognized is local recognition, the broadband chip analyzes the instruction in the voice to be recognized through the included voice recognition module.

Optionally, after the broadband chip determines the recognition mode of the speech to be recognized, the method further includes:

under the condition that the recognition mode of the voice to be recognized is server recognition, the broadband chip sends the voice to be recognized to a server;

and the broadband chip receives the instruction in the voice to be recognized, which is recognized by the server.

Optionally, the method further includes:

the broadband chip sends a message to the narrowband chip under the condition of screen-off standby; the message instructs the narrowband chip to detect speech to be recognized.

Optionally, the turning off the voice recognition function and entering into the sleep mode when the broadband chip is in the screen off standby state includes:

after the broadband chip sends the message to the narrowband chip, the voice recognition function is closed, and the narrowband chip enters dormancy.

The present application also provides a dual mode terminal, including: a broadband chip and a narrowband chip; the broadband chip comprises a voice recognition module;

the broadband chip is used for turning off the voice recognition function and entering dormancy under the condition of screen-off standby;

the narrow-band chip is used for caching the voice to be recognized and awakening the wide-band chip under the condition that the voice to be recognized is detected;

the narrow-band chip is also used for sending the voice to be recognized to the wide-band chip after awakening the wide-band chip;

the broadband chip is further used for acquiring the instruction in the voice to be recognized.

Optionally, the broadband chip is configured to obtain an instruction in the speech to be recognized, and includes:

the broadband chip is specifically used for judging the recognition mode of the voice to be recognized; the identification mode is local identification or server identification; and under the condition that the recognition mode of the voice to be recognized is local recognition, the broadband chip analyzes the instruction in the voice to be recognized through the included voice recognition module.

Optionally, the wideband chip is further configured to send the speech to be recognized to a server when the recognition mode of the speech to be recognized is server recognition; and receiving an instruction in the speech to be recognized, which is recognized by the server.

Optionally, the wideband chip is further configured to send a message to the narrowband chip when the screen is turned off for standby; the message instructs the narrowband chip to detect speech to be recognized.

Optionally, the broadband chip is configured to close the voice recognition function and enter into a sleep mode when the screen is turned off and is in standby, and the method includes:

the wideband chip is specifically configured to turn off a voice recognition function and enter a sleep mode after sending the message to the narrowband chip.

According to the voice recognition method and the dual-mode terminal, after the broadband chip is in the dormant state, the narrow-band chip detects the voice to be recognized, the recognized voice to be recognized is sent to the broadband chip, and the broadband chip acquires the instruction in the voice to be recognized. Therefore, the method and the device ensure that the broadband chip can be dormant, ensure that the dual-mode terminal can receive and process the voice to be recognized in real time, and ensure that the broadband chip can be dormant by sacrificing the dormancy of the narrowband chip because the narrowband chip in the dual-mode terminal does not have the dormancy due to business reasons.

Therefore, the method and the device can ensure that the dual-mode terminal receives and processes the voice to be recognized in real time and can also ensure that the dual-mode terminal saves electricity.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of a speech recognition method disclosed in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a dual-mode terminal disclosed in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

Fig. 1 is a speech recognition method applied to a dual-mode terminal according to an embodiment of the present application, where the dual-mode terminal includes a wideband chip and a narrowband chip, and a speech recognition module is configured in the wideband chip. The speech recognition method may include the steps of:

s101, the broadband chip sends a message to the narrowband chip under the condition of screen-off standby.

In this step, the broadband chip will be turned off to standby when it meets certain conditions. The specific content of the condition is the prior art, and is not described herein again.

In this step, the message sent by the wideband chip to the narrowband chip is used to instruct the narrowband chip to detect the voice to be recognized.

In practice, this step is an optional step.

S102, under the condition that the broadband chip is in standby state after screen turning off, the voice recognition function is closed, and the broadband chip enters the sleep mode.

In this embodiment, the broadband chip turns off the voice recognition function and enters into sleep mode when the broadband chip is in standby mode.

In practice, the specific implementation manner of this step is the prior art, and is not described herein again.

It should be noted that, in the embodiment, the wideband chip sends a message to the narrowband chip when the narrowband chip is in a standby state, and the speech recognition function is turned off and the narrowband chip enters the sleep state, where the precedence relationship between the two operations is not limited.

Optionally, in this embodiment, the broadband chip sends a message to the narrowband chip first when the broadband chip is in a screen-off standby state, and then the voice service function is turned off and the narrowband chip enters a sleep state, so as to ensure that the voice to be recognized is not missed.

S103, the narrow-band chip caches the voice to be recognized and awakens the wide-band chip when detecting the voice to be recognized.

In this embodiment, after receiving a message sent by the broadband chip, the narrowband chip detects the voice to be recognized by detecting the input of the microphone all the time, and when detecting the voice to be recognized, buffers the voice to be recognized and wakes up the broadband chip.

The specific implementation manner of waking up the broadband chip is the prior art, and is not described herein again.

And S104, after the narrowband chip wakes up the broadband chip, the speech to be recognized is sent to the broadband chip.

In this step, after waking up the wideband chip, the narrowband chip sends the speech to be recognized to the wideband chip.

And S105, the broadband chip acquires the instruction in the voice to be recognized.

Optionally, in this embodiment, a specific implementation manner of the broadband chip acquiring the instruction in the speech to be recognized may include:

the broadband chip judges the recognition mode of the voice to be recognized, wherein the recognition mode is local recognition or server recognition. Specifically, the broadband chip may determine whether to perform networking currently, wherein if networking currently is performed, it is determined that the recognition mode of the speech to be recognized is local recognition, and otherwise, it is determined that the recognition mode of the speech to be recognized is server recognition.

And under the condition that the recognition mode of the voice to be recognized is local recognition, the broadband chip starts the voice recognition function, and analyzes the voice to be recognized through the included voice recognition module to obtain an instruction in the voice to be recognized.

And under the condition that the recognition mode of the voice to be recognized is server recognition, the broadband chip sends the voice to be recognized to the server, the server analyzes the instruction in the voice to be recognized, and the analyzed instruction is fed back to the broadband chip.

And S106, the broadband chip executes the instruction.

In this step, a specific implementation manner of the broadband chip executing the instruction is the prior art, and is not described herein again.

Fig. 2 is a dual-mode terminal provided in an embodiment of the present application, including: a wideband chip 201 and a narrowband chip 202, wherein the wideband chip includes a voice recognition module.

The broadband chip 201 is used for turning off the voice recognition function and entering dormancy under the condition of screen-off standby.

And the narrowband chip 202 is used for buffering the voice to be recognized and waking up the wideband chip under the condition that the voice to be recognized is detected.

The narrowband chip 202 is further configured to send the speech to be recognized to the wideband chip after waking up the wideband chip.

The broadband chip 201 is further configured to obtain an instruction in the speech to be recognized.

Optionally, the broadband chip 201 is configured to obtain an instruction in the speech to be recognized, and includes:

the broadband chip 201 is specifically used for judging the recognition mode of the voice to be recognized; the identification mode is local identification or server identification; when the recognition mode of the speech to be recognized is local recognition, the broadband chip 201 analyzes the instruction in the speech to be recognized through the included speech recognition module.

Optionally, the broadband chip 201 is further configured to send the speech to be recognized to the server when the recognition mode of the speech to be recognized is server recognition; and receiving an instruction in the voice to be recognized by the server.

Optionally, the wideband chip 201 is further configured to send a message to the narrowband chip in the screen standby state; the message instructs the narrowband chip to detect the speech to be recognized.

Optionally, the broadband chip 201 is configured to close the voice recognition function and enter into a sleep mode when the screen is turned off and is in standby, and includes:

the wideband chip 201 is specifically configured to turn off the voice recognition function and enter a sleep mode after the message is sent to the narrowband chip.

The functions described in the method of the embodiment of the present application, if implemented in the form of software functional units and sold or used as independent products, may be stored in a storage medium readable by a computing device. Based on such understanding, part of the contribution to the prior art of the embodiments of the present application or part of the technical solution may be embodied in the form of a software product stored in a storage medium and including several instructions for causing a computing device (which may be a personal computer, a server, a mobile computing device or a network device) to execute all or part of the steps of the method described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. 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 application. Thus, the present application 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 speech recognition method is characterized in that the speech recognition method is applied to a dual-mode terminal, wherein the dual-mode terminal comprises a broadband chip and a narrowband chip; the broadband chip comprises a voice recognition module;

the method comprises the following steps:

the broadband chip closes the voice recognition function and enters the dormancy state under the condition of screen-off standby;

the narrowband chip caches the voice to be recognized and awakens the broadband chip under the condition that the narrowband chip detects the voice to be recognized;

after the narrow-band chip wakes up the broadband chip, the voice to be recognized is sent to the broadband chip;

and the broadband chip acquires the instruction in the voice to be recognized.

2. The method of claim 1, wherein the broadband chip obtains the instruction in the speech to be recognized, and comprises:

the broadband chip judges the recognition mode of the voice to be recognized; the identification mode is local identification or server identification;

and under the condition that the recognition mode of the voice to be recognized is local recognition, the broadband chip analyzes the instruction in the voice to be recognized through the included voice recognition module.

3. The method according to claim 2, wherein after the wideband chip determines the recognition mode of the speech to be recognized, the method further comprises:

under the condition that the recognition mode of the voice to be recognized is server recognition, the broadband chip sends the voice to be recognized to a server;

and the broadband chip receives the instruction in the voice to be recognized, which is recognized by the server.

4. The method of claim 1, further comprising:

the broadband chip sends a message to the narrowband chip under the condition of screen-off standby; the message instructs the narrowband chip to detect speech to be recognized.

5. The method of claim 4, wherein turning off the voice recognition function and entering into sleep when the broadband chip is in standby state comprises:

after the broadband chip sends the message to the narrowband chip, the voice recognition function is closed, and the narrowband chip enters dormancy.

6. A dual mode terminal, comprising: a broadband chip and a narrowband chip; the broadband chip comprises a voice recognition module;

the broadband chip is used for turning off the voice recognition function and entering dormancy under the condition of screen-off standby;

the narrow-band chip is used for caching the voice to be recognized and awakening the wide-band chip under the condition that the voice to be recognized is detected;

the narrow-band chip is also used for sending the voice to be recognized to the wide-band chip after awakening the wide-band chip;

the broadband chip is further used for acquiring the instruction in the voice to be recognized.

7. The dual-mode terminal as claimed in claim 6, wherein the broadband chip is configured to obtain the instruction in the speech to be recognized, and comprises:

the broadband chip is specifically used for judging the recognition mode of the voice to be recognized; the identification mode is local identification or server identification; and under the condition that the recognition mode of the voice to be recognized is local recognition, the broadband chip analyzes the instruction in the voice to be recognized through the included voice recognition module.

8. The dual mode terminal of claim 7,

the broadband chip is also used for sending the voice to be recognized to a server under the condition that the recognition mode of the voice to be recognized is server recognition; and receiving an instruction in the speech to be recognized, which is recognized by the server.

9. The dual mode terminal of claim 6,

the broadband chip is also used for sending messages to the narrowband chip under the condition of screen-off standby; the message instructs the narrowband chip to detect speech to be recognized.

10. The dual-mode terminal as claimed in claim 9, wherein the broadband chip is configured to turn off the voice recognition function and enter into sleep mode in the event of off-screen standby, and comprises:

the wideband chip is specifically configured to turn off a voice recognition function and enter a sleep mode after sending the message to the narrowband chip.

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