CN113220196B - Awakening method for designated application in breath screen state - Google Patents

Abstract

The invention discloses a method for awakening designated application in a screen-off state, which belongs to the technical field of screen-off and aims to solve the problem of rapidly awakening the designated application; setting a fingerprint motion analysis module, wherein the fingerprint motion analysis module is used for setting a fingerprint motion path and verifying the fingerprint motion path; the application code module is used for setting an application code for the application in the equipment; through setting up the pronunciation password unit, set up the pronunciation password through the pronunciation password unit, the pronunciation password unit is used for when customer voice goes wrong, speaks the pronunciation password, and user tone quality will no longer be verified to the voice module, can not directly awaken up the problem of using when having avoided user customer voice to go wrong.

Description

Awakening method for designated application in breath screen state

Technical Field

The invention belongs to the technical field of information screens; in particular to a wake-up method of appointed application in a breath screen state.

Background

With the progress of technology, more and more technologies in the field of consumer electronics are applied to the field of household appliances, wherein the screen-rest technology is widely applied to the power saving technology of mobile phone screens, the texture of color and the cool black technological sense of the screen are more and more popular with household appliance interface designers, and the multimedia terminal with the touch screen becomes an important component in the life of people, and with the emphasis of people on the privacy of the multimedia terminal and the improvement of user experience requirements. However, when people unlock a locked screen, the screen is usually unlocked by sliding a visible track, and due to the problems of the system, the unlocking track is usually simple and regular, and the safety is low. In addition, when some software needs to be opened, the software is usually opened by lighting a screen, unlocking the screen, finding the software and taking a long time. In addition, as the number of installed applications increases, the response time of the applications increases accordingly, resulting in a slower screen-brightening process.

Patent publication No. CN104461358A discloses a method and device for lighting a screen, and belongs to the technical field of computers. The method comprises the following steps: when receiving a screen-on operation in a screen-off state, generating a wake-up message; when the generation of the awakening message is detected, timing a screen-on response process according to a first preset response duration; sending the awakening message to a target application program, so that the target application program receiving the awakening message returns an awakening response, and sending the awakening message to other target application programs; and when the timing reaches the first preset response duration, lightening the screen.

According to the invention, the awakening message is generated in the screen-off state, the screen-on response process is timed according to the first preset response duration, then the awakening message is sent to the target application program, the awakening response returned by the target application program is received, and then the screen is lightened when the timed time reaches the first preset response duration, so that the screen can be lightened, and the screen lightening process is faster. However, the above patent only solves the problem of how to wake up the screen and does not solve the problem of how to wake up the specified application quickly.

Disclosure of Invention

The invention aims to provide a method for waking up a specified application in a screen-saving state, which solves the problem of quickly waking up the specified application.

The purpose of the invention can be realized by the following technical scheme:

a wake-up method for appointed application in a breath screen state comprises the following steps:

the method comprises the following steps: setting a screen-saving module, starting the screen-saving module when the equipment is in a screen-saving state, wherein the screen-saving module is used for operating the equipment when the equipment is in the screen-saving state;

step two: setting a fingerprint motion analysis module, wherein the fingerprint motion analysis module is used for setting a fingerprint motion path and verifying the fingerprint motion path;

step three: the application code module is used for setting an application code for the application in the equipment;

step four: a voice module is arranged and used for collecting voice information of a user and verifying the voice information of the user;

step five: setting a wake-up module, wherein the wake-up module is used for waking up the application in the screen-on-screen state;

step A41: the application label is spoken while the fingerprint motion path is verified;

step A42: the voice module verifies the voice information spoken by the user, acquires an application code in the voice information when the voice information is verified to be passed, and inputs the application code into the code module; when the voice information is not verified, directly displaying that the verification fails;

step A43: matching the application code with the label in the label table, generating a preparation starting signal when the application code is successfully matched with the label in the label table, generating a wake-up signal when the fingerprint motion path is verified, and directly waking up the application corresponding to the application code by a wake-up module; and when the matching of the application code and the label in the label table fails, directly displaying the awakening failure.

Further, the specific method for setting the fingerprint motion path and verifying the fingerprint motion path according to the step two comprises the following steps:

step A11: the fingerprint acquisition unit is arranged and used for acquiring fingerprint information of a user, acquiring fingerprint information of any two fingers of the user and sending the acquired fingerprint information to the storage module for storage;

step A12: setting moving paths of two fingers, performing fingerprint verification at a starting end and a terminating end in each moving path of the fingers, wherein the starting end and the terminating end are not fixed, the starting end is regarded as the starting end when the finger stays for more than three seconds initially, and the terminating end is regarded as the terminating end when the finger stops for more than three seconds;

step A13: when the two fingers finish verification at the starting end, the two fingers move according to the set finger moving path, when the two fingers move to the termination end, fingerprint verification is performed again, and when the fingerprint verification at the termination end passes and the length of the finger moving path needs to exceed the length of the set finger moving path, the fingerprint moving path verification passes.

Further, the specific method for setting the application code number for the application in the device according to the application code number module in the step three comprises the following steps:

step A21: acquiring application information of application awakening required by a user in a breath screen state, and marking the application required to be applied and awakened in the breath screen state as a first application;

step A22: the first applications are sequenced and are numbered, the first applications after being sequenced are collected into a number list, and when a user is not satisfied with the number of the first applications in the number list, the first applications are manually changed according to the requirements of the user.

Further, the specific method for acquiring the voice information of the user according to the voice module in the step four and verifying the voice information of the user comprises the following steps:

step A31: a character tone acquisition unit is arranged, a section of characters are arranged in the character tone acquisition unit, a user needs to read aloud according to the set section of characters, acquire the voice information of a client and send the acquired voice information of the client to a storage module for storage;

step A32: a voice password unit is arranged, and a voice password is arranged through the voice password unit, the voice password unit is used for speaking the voice password when the voice of a client is in a problem, and the voice module does not verify the tone of the user any more;

step A33: obtaining the voice information spoken by the client, comparing the tone in the voice information spoken by the client with the tone stored in the storage module, failing to verify the tone when the tone in the voice information spoken by the client is different from the tone stored in the storage module, and successfully verifying the tone when the tone in the voice information spoken by the client is the same as the tone stored in the storage module to obtain the character information in the voice information spoken by the client;

step A34: and when the voice password passes the verification, acquiring character information in the voice information which is uttered again by the user within a specified time, and when the voice password does not pass the verification, failing to verify the voice information.

Further, according to the operation of the screen saver module on the device when the device is in the screen saver state in the first step, the specific operation method comprises the following steps:

step A51: when the equipment is in a screen-off state, starting a screen-off module, and controlling the fingerprint motion analysis module, the application code module and the voice module to be started completely;

step A52: the method comprises the steps that a detection unit is arranged and used for detecting the running states of a fingerprint motion analysis module, an application code module, a voice module and a wake-up module, the detection unit comprises a signal transmitting end, a signal route and a signal receiving end, and the signal route starts from the signal transmitting end, sequentially passes through the fingerprint motion analysis module, the voice module, the application code module and the wake-up module and finally reaches the signal receiving end;

step A53: by signal transmission end transmission detected signal, when fingerprint motion analysis module, applied code number module, voice module and awaken up the module and do not have the problem, detected signal will pass through fingerprint motion analysis module in proper order, voice module, applied code number module and awaken up the module, finally received by signal receiving end, when any one module goes wrong in fingerprint motion analysis module, applied code number module, voice module and the module of awakening up, then detected signal will be in the module department that has the problem stop moving, and generate fault signal.

Further, the specific method for sorting the first application according to step a22 includes the following steps:

step A61: acquiring first application information, setting all the first application information to correspond to a threshold, wherein the value range of the threshold is greater than zero and less than one, matching the first application information with all the first application information to acquire the corresponding threshold and marking the threshold as i, wherein i =1, 2, … … and n is a positive integer;

step A62: acquiring the weekly use times of the first application, and marking the weekly use times of the first application as Pi;

step A63: acquiring a memory occupied by a first application, and marking the memory occupied by the first application as Li;

step A64: obtaining the percentage of the first application to the power supply, marking the percentage of the first application to the power supply as Ki, removing dimensions of the first application information, the weekly using times of the first application, the memory occupied by the first application and the percentage of the first application to the power supply, and calculating the numerical value;

step A65: obtaining a priority value Qi according to a formula Qi = lambda [ (b 1 Pi)/(b 2 Li b3 Ki) ], wherein b1, b2 and b3 are all proportional coefficients, the value range is 1< b1<2, 0< b2 is not less than 1, 0< b3 is not more than 1, lambda is a correction factor, and the value range is 0< lambda is not less than 1;

step A66: the first applications are sorted according to the priority value Qi.

The invention has the beneficial effects that: by setting the application code number module, the application to be awakened is simply and conveniently set with a specific code number, so that a user can conveniently and specifically awaken the specific application; the voice password unit is arranged, the voice password is arranged through the voice password unit, the voice password unit is used for speaking the voice password when the voice of a user is in a problem, the voice module does not verify the tone of the user any more, the problem that the user cannot wake up the application directly when the voice of the user is in a problem is avoided, and the acquired tone of the user is ensured to be accurate through the character tone acquisition unit;

by arranging the screen-off module, when the equipment is in a screen-off state, the screen-off module is started, the fingerprint motion analysis module, the application code number module and the voice module are controlled to be started completely, and the detection unit is arranged to detect the running states of the fingerprint motion analysis module, the application code number module, the voice module and the awakening module, so that the normal running of each module is ensured, problems can be found in time when the problems occur, the problem positions are found, and maintenance is facilitated for maintenance personnel; the fingerprint motion analysis module is arranged to collect fingerprint information of any two fingers of a user, the moving paths of the two fingers are arranged, fingerprint verification is carried out on a starting end and a terminating end in the moving path of each finger, the starting end and the terminating end are not fixed, the starting end is regarded as the starting end when the finger stays for more than three seconds initially, and the terminating end is regarded as the finger when the finger stops moving for more than three seconds; after two fingers are all verified at the initiating terminal, move according to the finger movement path that sets up, when moving to the termination end, carry out fingerprint verification once more, pass through when terminating end fingerprint verification, and when finger movement path length need exceed the finger movement path length that sets up, then fingerprint motion path is verified and is passed through, because the migration distance that can not just in time be the distance that sets up, increase maneuverability, increase the interest when increasing the security, avoid touching unintentionally and lead to awakening up screen and application, bring unnecessary trouble for the user.

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 some embodiments of the present invention, 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 the method of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

As shown in fig. 1, a specific method for waking up a specific application in a breath screen state includes the following steps:

the method comprises the following steps: setting a screen-saving module, starting the screen-saving module when the equipment is in a screen-saving state, wherein the screen-saving module is used for operating the equipment when the equipment is in the screen-saving state;

step two: setting a fingerprint motion analysis module, wherein the fingerprint motion analysis module is used for setting a fingerprint motion path and verifying the fingerprint motion path;

step three: the application code module is used for setting an application code for the application in the equipment;

step four: a voice module is arranged and used for collecting voice information of a user and verifying the voice information of the user;

step five: setting a wake-up module, wherein the wake-up module is used for waking up the application in the screen-on-screen state;

step A41: the application label is spoken while the fingerprint motion path is verified;

step A42: the voice module verifies the voice information spoken by the user, acquires an application code in the voice information when the voice information is verified to be passed, and inputs the application code into the code module; when the voice information is not verified, directly displaying that the verification fails;

step A43: matching the application code with the label in the label table, generating a preparation starting signal when the application code is successfully matched with the label in the label table, generating a wake-up signal when the fingerprint motion path is verified, and directly waking up the application corresponding to the application code by a wake-up module; when the matching of the application code and the label in the label table fails, directly displaying the awakening failure;

the specific method for setting the fingerprint motion path and verifying the fingerprint motion path according to the step two comprises the following steps:

step A11: the fingerprint acquisition unit is arranged and used for acquiring fingerprint information of a user, acquiring fingerprint information of any two fingers of the user and sending the acquired fingerprint information to the storage module for storage;

step A12: setting moving paths of two fingers, and performing fingerprint verification at the starting end and the terminating end in each moving path of the fingers, namely placing the fingers at the starting end and the terminating end for not less than three seconds, wherein the starting end and the terminating end are not fixed, the fingers which stay for more than three seconds initially are regarded as the starting end, and the fingers which stop moving for more than three seconds are regarded as the terminating end;

step A13: when the fingerprint verification at the termination end passes and the length of the finger moving path needs to exceed the length of the set finger moving path, the fingerprint moving path verification passes, namely the length of the moving finger path exceeds the length of the set finger moving path, and the moving distance cannot be exactly the set distance;

the specific method for setting the application code number for the application in the equipment according to the application code number module in the step three comprises the following steps:

step A21: acquiring application information of application awakening required by a user in a breath screen state, and marking the application required to be applied and awakened in the breath screen state as a first application;

step A22: the first applications are sequenced, the sequenced first applications are labeled, the labels are the codes, the labeled first applications are all gathered into a label table, and when a user is not satisfied with the labels of the first applications in the label table, the labels can be manually changed according to the requirements of the user;

the specific method for acquiring the voice information of the user and verifying the voice information of the user according to the voice module in the fourth step comprises the following steps:

step A31: a character tone acquisition unit is arranged, a section of characters are arranged in the character tone acquisition unit, a user needs to read aloud according to the set section of characters, acquire the voice information of a client and send the acquired voice information of the client to a storage module for storage;

step A32: a voice password unit is arranged, and a voice password can be set through the voice password unit, wherein the voice password can be a number, a sentence and the like, the voice password unit is used for speaking the voice password when the voice of a client is in a problem, and the voice module does not verify the tone of the user any more;

step A33: obtaining the voice information spoken by the client, comparing the tone in the voice information spoken by the client with the tone stored in the storage module, failing to verify the tone when the tone in the voice information spoken by the client is different from the tone stored in the storage module, and successfully verifying the tone when the tone in the voice information spoken by the client is the same as the tone stored in the storage module to obtain the character information in the voice information spoken by the client;

step A34: when the tone verification fails, the voice password is used for verification, when the voice password passes the verification, the text information in the voice information which is uttered again by the user within the set time is obtained, the set time is the time set by the user after the voice password passes the verification, when the user does not use the set time, the default is one minute, and when the voice password does not pass the verification, the voice information fails to be verified;

the specific method for ranking the first application according to step a22 includes the steps of:

step A61: acquiring first application information, setting all the first application information to correspond to a threshold, wherein the value range of the threshold is greater than zero and less than one, matching the first application information with all the first application information to acquire the corresponding threshold and marking the threshold as i, wherein i =1, 2, … … and n is a positive integer;

step A62: acquiring the weekly use times of the first application, and marking the weekly use times of the first application as Pi;

step A63: acquiring a memory occupied by a first application, and marking the memory occupied by the first application as Li;

step A64: obtaining the percentage of the first application to the power supply, marking the percentage of the first application to the power supply as Ki, removing dimensions of the first application information, the weekly using times of the first application, the memory occupied by the first application and the percentage of the first application to the power supply, and calculating the numerical value;

step A65: obtaining a priority value Qi according to a formula Qi = lambda [ (b 1 Pi)/(b 2 Li b3 Ki) ], wherein b1, b2 and b3 are all proportional coefficients, the value range is 1< b1<2, 0< b2 is not less than 1, 0< b3 is not more than 1, lambda is a correction factor, and the value range is 0< lambda is not less than 1;

step A66: sequencing the first application according to the height of the priority value Qi;

according to the first step, when the equipment is in the screen-off state, the screen-off module operates the equipment, and the specific operation method comprises the following steps:

step A51: when the equipment is in a screen-off state, starting a screen-off module, and controlling the fingerprint motion analysis module, the application code module and the voice module to be started completely;

step A52: the detection unit is arranged and used for detecting the running states of the fingerprint motion analysis module, the application code module, the voice module and the awakening module and detecting whether the faults exist or not; the detection unit comprises a signal transmitting end, a signal route and a signal receiving end, wherein the signal route starts from the signal transmitting end, sequentially passes through the fingerprint motion analysis module, the voice module, the application code module and the awakening module and finally reaches the signal receiving end;

step A53: the method comprises the steps that a signal transmitting end transmits a detection signal, when the fingerprint motion analysis module, the application code number module, the voice module and the awakening module have no problems, the detection signal sequentially passes through the fingerprint motion analysis module, the voice module, the application code number module and the awakening module and is finally received by a signal receiving end, and when any one of the fingerprint motion analysis module, the application code number module, the voice module and the awakening module has a problem, the detection signal stops moving at the module with the problem and generates a fault signal; the detection signal is equivalent to waking up the application with all correct operation, but not true wake-up of the application.

The above formulas are all calculated by removing dimensions and taking values thereof, the formula is one closest to the real situation obtained by collecting a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

When the device is in a screen-off state, a screen-off module is started, the fingerprint motion analysis module, the application code number module and the voice module are controlled to be started completely, a detection signal is transmitted by a signal transmitting end, when the fingerprint motion analysis module, the application code number module, the voice module and the awakening module have no problem, the detection signal passes through the fingerprint motion analysis module, the voice module, the application code number module and the awakening module in sequence and is finally received by a signal receiving end, and when any one of the fingerprint motion analysis module, the application code number module, the voice module and the awakening module has a problem, the detection signal stops moving at the module with the problem and generates a fault signal; fingerprint information of any two fingers of a user is collected, and the collected fingerprint information is sent to a storage module to be stored; when the two fingers finish verification at the starting end, the two fingers move according to the set finger moving path, when the two fingers move to the terminating end, fingerprint verification is performed again, and when the fingerprint verification at the terminating end passes and the length of the finger moving path needs to exceed the length of the set finger moving path, the fingerprint moving path verification passes; acquiring application information of application awakening of a user in a breath screen state, marking the application needing application awakening in the breath screen state as a first application, sequencing the first application, acquiring a priority value Qi according to a formula Qi = lambda [ (b 1 Pi)/(b 2 Li b3 Ki) ], and sequencing the first application according to the priority value Qi; the sorted first applications are labeled, the labeled first applications are all gathered into a label table, and when a user is unsatisfied with the label of the first application in the label table, the label can be manually changed according to the user requirement;

the voice password is set through the voice password unit, the voice information spoken by the client is obtained, the tone in the voice information spoken by the client is compared with the tone stored in the storage module, when the tone in the voice information spoken by the client is different from the tone stored in the storage module, the tone verification fails, when the tone in the voice information spoken by the client is the same as the tone stored in the storage module, the verification succeeds, and the character information in the voice information spoken by the client is obtained; when the tone verification fails, the voice password is used for verification, when the voice password passes the verification, the text information in the voice information which is uttered again by the user within the set time is obtained, the set time is the time set by the user after the voice password passes the verification, when the user does not use the set time, the default is one minute, and when the voice password does not pass the verification, the voice information fails to be verified; the application label is spoken while the fingerprint motion path is verified; the voice module verifies the voice information spoken by the user, acquires an application code in the voice information when the voice information is verified to be passed, and inputs the application code into the code module; when the voice information is not verified, directly displaying that the verification fails; matching the application code with the label in the label table, generating a preparation starting signal when the application code is successfully matched with the label in the label table, generating a wake-up signal when the fingerprint motion path is verified, and directly waking up the application corresponding to the application code by a wake-up module; and when the matching of the application code and the label in the label table fails, directly displaying the awakening failure.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (4)

1. A wake-up method for appointed application in a breath screen state is characterized by comprising the following steps:

the method comprises the following steps: setting a screen-saving module, starting the screen-saving module when the equipment is in a screen-saving state, wherein the screen-saving module is used for operating the equipment when the equipment is in the screen-saving state;

step two: setting a fingerprint motion analysis module, wherein the fingerprint motion analysis module is used for setting a fingerprint motion path and verifying the fingerprint motion path;

step three: the application code module is used for setting an application code for the application in the equipment;

step four: a voice module is arranged and used for collecting voice information of a user and verifying the voice information of the user;

step five: setting a wake-up module, wherein the wake-up module is used for waking up the application in the screen-on-screen state;

step A41: the application label is spoken while the fingerprint motion path is verified;

step A42: the voice module verifies the voice information spoken by the user, acquires an application code in the voice information when the voice information is verified to be passed, and inputs the application code into the code module; when the voice information is not verified, directly displaying that the verification fails;

step A43: matching the application code with the label in the label table, generating a preparation starting signal when the application code is successfully matched with the label in the label table, generating a wake-up signal when the fingerprint motion path is verified, and directly waking up the application corresponding to the application code by a wake-up module; when the matching of the application code and the label in the label table fails, directly displaying the awakening failure;

the specific method for setting the application code number for the application in the equipment according to the application code number module in the step three comprises the following steps:

step A21: acquiring application information of application awakening required by a user in a breath screen state, and marking the application required to be applied and awakened in the breath screen state as a first application;

step A22: the first applications are sequenced and are numbered, the numbered first applications are all gathered into a number list, and when a user is not satisfied with the number of the first applications in the number list, the first applications are manually changed according to the requirements of the user;

the specific method for ranking the first application according to step a22 includes the steps of:

step A61: acquiring first application information, setting all the first application information to correspond to a threshold, wherein the value range of the threshold is greater than zero and less than one, matching the first application information with all the first application information to acquire the corresponding threshold and marking the threshold as i, wherein i =1, 2, … … and n is a positive integer;

step A62: acquiring the weekly use times of the first application, and marking the weekly use times of the first application as Pi;

step A63: acquiring a memory occupied by a first application, and marking the memory occupied by the first application as Li;

step A64: obtaining the percentage of the first application to the power supply, marking the percentage of the first application to the power supply as Ki, removing dimensions of the first application information, the weekly using times of the first application, the memory occupied by the first application and the percentage of the first application to the power supply, and calculating the numerical value;

step A65: obtaining a priority value Qi according to a formula Qi = lambda [ (b 1 Pi)/(b 2 Li b3 Ki) ], wherein b1, b2 and b3 are all proportional coefficients, the value range is 1< b1<2, 0< b2 is not less than 1, 0< b3 is not more than 1, lambda is a correction factor, and the value range is 0< lambda is not less than 1;

step A66: the first applications are sorted according to the priority value Qi.

2. The method for waking up a specific application in a breath screen state according to claim 1, wherein the specific method for setting the fingerprint motion path and verifying the fingerprint motion path according to step two comprises the following steps:

step A11: the fingerprint acquisition unit is arranged and used for acquiring fingerprint information of a user, acquiring fingerprint information of any two fingers of the user and sending the acquired fingerprint information to the storage module for storage;

step A12: setting moving paths of two fingers, performing fingerprint verification at a starting end and a terminating end in each moving path of the fingers, wherein the starting end and the terminating end are not fixed, the starting end is regarded as the starting end when the finger stays for more than three seconds initially, and the terminating end is regarded as the terminating end when the finger stops for more than three seconds;

step A13: when the two fingers finish verification at the starting end, the two fingers move according to the set finger moving path, when the two fingers move to the termination end, fingerprint verification is performed again, and when the fingerprint verification at the termination end passes and the length of the finger moving path needs to exceed the length of the set finger moving path, the fingerprint moving path verification passes.

3. The method for waking up a specific application in a breath screen state according to claim 1, wherein the specific method for collecting the user voice information and verifying the user voice information according to the voice module in step four comprises the following steps:

step A31: a character tone acquisition unit is arranged, a section of characters are arranged in the character tone acquisition unit, a user needs to read aloud according to the set section of characters, acquire the voice information of a client and send the acquired voice information of the client to a storage module for storage;

step A32: a voice password unit is arranged, and a voice password is arranged through the voice password unit, the voice password unit is used for speaking the voice password when the voice of a client is in a problem, and the voice module does not verify the tone of the user any more;

step A33: obtaining the voice information spoken by the client, comparing the tone in the voice information spoken by the client with the tone stored in the storage module, failing to verify the tone when the tone in the voice information spoken by the client is different from the tone stored in the storage module, and successfully verifying the tone when the tone in the voice information spoken by the client is the same as the tone stored in the storage module to obtain the character information in the voice information spoken by the client;

step A34: and when the voice password passes the verification, acquiring character information in the voice information which is uttered again by the user within a specified time, and when the voice password does not pass the verification, failing to verify the voice information.

4. The method for waking up a specific application in a screen saver state according to claim 1, wherein according to the first step, when the device is in the screen saver state, the screen saver module operates the device, and the specific operation method includes the following steps:

step A51: when the equipment is in a screen-off state, starting a screen-off module, and controlling the fingerprint motion analysis module, the application code module and the voice module to be started completely;

step A52: the method comprises the steps that a detection unit is arranged and used for detecting the running states of a fingerprint motion analysis module, an application code module, a voice module and a wake-up module, the detection unit comprises a signal transmitting end, a signal route and a signal receiving end, and the signal route starts from the signal transmitting end, sequentially passes through the fingerprint motion analysis module, the voice module, the application code module and the wake-up module and finally reaches the signal receiving end;

step A53: by signal transmission end transmission detected signal, when fingerprint motion analysis module, applied code number module, voice module and awaken up the module and do not have the problem, detected signal will pass through fingerprint motion analysis module in proper order, voice module, applied code number module and awaken up the module, finally received by signal receiving end, when any one module goes wrong in fingerprint motion analysis module, applied code number module, voice module and the module of awakening up, then detected signal will be in the module department that has the problem stop moving, and generate fault signal.

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