CN105787234A - Monitoring method and electronic device - Google Patents

Abstract

The invention discloses a monitoring method and an electronic device using the same. The monitoring method comprises the steps of acquiring a first sound signal by a first processing unit in the electronic device; judging whether the acquired first sound signal meets a predetermined condition or not, and generating a first judgment result; based on the first judgment result, indicating that the acquired first sound signal meets the predetermined condition, and sending first instruction information to a second processing unit by the first processing unit; based on the first instruction information, starting the second processing unit; and controlling the electronic device to apply a stimulating signal to a user by the second processing unit through first control information contained in the first instruction information.

Description

Monitoring method and electronic equipment

Technical field

The present invention relates to Sleep-Monitoring field.More particularly it relates to an the electronic equipment of monitoring method and this monitoring method of use.

Background technology

Along with social competition encourages further, the rhythm of life of people is accelerated, and life stress is big, and the problem of poor sleeping quality is more and more general.Constantly raise with the sickness rate of sleep apnea syndrome that pernicious snoring is cardinal symptom.Snoring makes sleep-respiratory repeatedly suspend, and causes brain, blood severe depletion of oxygen, forms hypoxemia, thus bringing out the diseases such as hypertension, brain cardiopathia, arrhythmia, myocardial infarction, angina pectoris.At present, snoring has become life-threatening stealthy killer.Additionally, serious snore brings interference also to the people of surrounding, affect other people quality of life.

Therefore, desirable to provide a kind of electronic equipment monitored method and use this monitoring method, it can pass through the sleep procedure process monitoring for user, generates outside stimulus when detecting and the sound of snoring occur and gets involved, to eliminate or to alleviate snoring, promote the sleep quality of user.

Summary of the invention

Because above-mentioned situation, the invention provides a kind of electronic equipment monitored method and use this monitoring method.

According to one embodiment of present invention, it is provided that a kind of monitoring method, being applied to electronic equipment, described monitoring method includes: the first processing unit in described electronic equipment gathers the first acoustical signal；Judge whether described first acoustical signal gathered meets predetermined condition, generate the first judged result；Described first acoustical signal gathered based on described first judged result instruction meets described predetermined condition, and described first processing unit sends the first command information to the second processing unit；Based on described first command information, described second processing unit starts；Described second processing unit utilizes the first control information comprised in described first command information, controls described electronic equipment and applies stimulus signal to described user.

Additionally, monitoring method according to an embodiment of the invention, also include: gathering before described first acoustical signal, gather second sound signal, and using described second sound signal as template acoustical signal；Wherein, it is judged that whether described first acoustical signal of collection meets predetermined condition includes judging whether described first acoustical signal of collection matches with described template acoustical signal.

In addition, monitoring method according to an embodiment of the invention, wherein judge whether described first acoustical signal gathered meets predetermined condition and include: in the first predetermined amount of time, it is judged that number that described first acoustical signal of collection and described template acoustical signal match and/or intensity whether second predetermined condition.

In addition, monitoring method according to an embodiment of the invention, wherein control described electronic equipment to apply stimulus signal to described user and include: after applying the first stimulus signal to described user, during the second predetermined amount of time, again judge that the 3rd acoustical signal gathered meets described predetermined condition, applying the second stimulus signal to described user, wherein, the intensity of described second stimulus signal is more than the intensity of described first stimulus signal.

Additionally, monitoring method according to an embodiment of the invention, also include: when the number of times applying stimulus signal to described user continuously exceedes predetermined threshold, stop in response to the acoustical signal gathered.

Additionally, monitoring method according to an embodiment of the invention, the power consumption of wherein said second processing unit is higher than the power consumption of described first processing unit.

Additionally, monitoring method according to an embodiment of the invention, wherein based on described first command information, before described second processing unit starts, described second processing unit is in the first state；After described second processing unit starts, described second processing unit is in the second state, and wherein, described second processing unit power consumption in said second condition is higher than power consumption in said first condition.

According to another embodiment of the invention, it is provided that a kind of electronic equipment, including: the first processing unit, it is used for gathering the first acoustical signal, and judges whether described first acoustical signal gathered meets predetermined condition, generate the first judged result；Second processing unit, for receiving the first command information from described first processing unit, described first acoustical signal gathered based on described first judged result instruction meets described predetermined condition, described first processing unit sends described first command information to the second processing unit, and based on described first command information, described second processing unit starts；And stimulation applying unit, for applying stimulus signal to user；Wherein, described second processing unit utilizes the first control information comprised in described first command information, controls described stimulation applying unit and applies stimulus signal to described user.

Additionally, electronic equipment according to another embodiment of the invention, described first processing unit, before gathering described first acoustical signal, gathers second sound signal, and using described second sound signal as template acoustical signal；And judge whether described first acoustical signal gathered matches with described template acoustical signal, to judge whether described first acoustical signal gathered meets predetermined condition.

In addition, electronic equipment according to another embodiment of the invention, wherein said first processing unit is in the first predetermined amount of time, judging whether number that described first acoustical signal and the described template acoustical signal that gather match and/or intensity meet second pre-conditioned, whether described first acoustical signal to judge collection meets predetermined condition.

In addition, electronic equipment according to another embodiment of the invention, wherein after described stimulation applying unit applies the first stimulus signal to described user, during the second predetermined amount of time, described first processing unit judges that the 3rd acoustical signal gathered meets described predetermined condition again, described second processing unit controls described stimulation applying unit and applies the second stimulus signal to described user, and wherein, the intensity of described second stimulus signal is more than the intensity of described first stimulus signal.

Additionally, electronic equipment according to another embodiment of the invention, wherein described stimulation applying unit to described user apply continuously the number of times of stimulus signal exceed predetermined threshold time, described first processing unit stops in response to the acoustical signal gathered.

Additionally, electronic equipment according to another embodiment of the invention, the power consumption of wherein said second processing unit is higher than the power consumption of described first processing unit.

Additionally, electronic equipment according to another embodiment of the invention, wherein based on described first command information, before described second processing unit starts, described second processing unit is in the first state；After described second processing unit starts, described second processing unit is in the second state, and wherein, described second processing unit power consumption in said second condition is higher than power consumption in said first condition.

The electronic equipment of monitoring method according to embodiments of the present invention and this monitoring method of use, it can pass through the sleep procedure process monitoring for user, generate outside stimulus when detecting and the sound of snoring occurring to get involved, in order to eliminate or alleviate snoring, promote the sleep quality of user.Further, the electronic equipment of monitoring method according to embodiments of the present invention and this monitoring method of use, user's acoustical signal under various uncomfortable situations can also be recorded, and when the acoustical signal that coupling occurs in user being detected, apply stimulus signal to remind user to user.

Accompanying drawing explanation

Fig. 1 is the block diagram illustrating electronic equipment according to embodiments of the present invention；

Fig. 2 is the flow chart of the first example illustrating monitoring method according to embodiments of the present invention；

Fig. 3 is the flow chart of the second example illustrating monitoring method according to embodiments of the present invention；

Fig. 4 is the flow chart of the 3rd example illustrating monitoring method according to embodiments of the present invention；

Fig. 5 is the flow chart of the 4th example illustrating monitoring method according to embodiments of the present invention；And

Fig. 6 is the schematic diagram illustrating electronic equipment according to embodiments of the present invention.

Detailed description of the invention

Hereinafter, by preferred embodiments of the present invention will be described in detail with reference to the annexed drawings.

First, with reference to Fig. 1, electronic equipment according to embodiments of the present invention will be described.Electronic equipment according to embodiments of the present invention is such as able to the electronic equipment possessing the sleep procedure process monitoring for user, and it includes but not limited to the intelligent electronic device that the users such as Intelligent bracelet, intelligent watch, intelligence eyeshield, intelligence mattress dress or contact.

As it is shown in figure 1, electronic equipment 1 according to embodiments of the present invention includes first processing unit the 10, second processing unit 20 and stimulates applying unit 30.It is easily understood that electronic equipment 1 according to embodiments of the present invention can also include other functional units, such as memory module, display unit etc., only illustrate at this and modular unit being closely related with the present invention is only shown.

Specifically, described first processing unit 10 is for collected sound signal.In a preferred embodiment of the invention, the user that described processing unit 10 gathers electronic equipment 1 is in the acoustical signal under sleep state.Described processing unit 10 judges whether described first acoustical signal gathered meets predetermined condition, generates the first judged result.In a preferred embodiment of the invention, described first processing unit 10, before gathering described first acoustical signal, gathers second sound signal.At this, described second sound signal is that user simulates acoustical signal produced by self the sound of snoring, it is also possible to be under sleep state produced by the real sound of snoring acoustical signal for user.Described first processing unit 10 using described second sound signal as template acoustical signal.In the preferred embodiment, described processing unit 10 judges whether described first acoustical signal gathered meets predetermined condition is exactly judge whether described first acoustical signal gathered matches with described template acoustical signal.If the first judged result indicates described first acoustical signal and described template acoustical signal to match, then show that described first acoustical signal collected is the sound of snoring signal that user sends.If on the contrary, the first judged result indicates described first acoustical signal and described template acoustical signal not to match that, then showing that described first acoustical signal collected is not the sound of snoring signal that user sends.

When the acoustical signal that the first judged result instruction gathers meets predetermined condition, described first processing unit 10 sends the first command information to described second processing unit 20.In a preferred embodiment of the invention, described second processing unit 20 starts based on described first command information, or described second processing unit 20 is switched to the second state (duty) based on described first command information from the first state (not actuated or resting state).Described second processing unit 20 power consumption in said second condition is higher than power consumption in said first condition.In a preferred embodiment of the invention, described first processing unit 10 can be implemented by the sound trigger based on special IC scheme, and it has collected sound signal and the ability acoustical signal gathered and prearranged signals compared.Described second processing unit 20 then can be implemented with the primary processor (CPU) of described electronic equipment 1.Therefore, the power consumption of described second processing unit 20 is higher than the power consumption of described first processing unit 10.Specifically, described first processing unit 10 can run with the operating frequency of 2MHz, and its power consumption is about 2mW.Therefore, by being performed control function in real time by described first processing unit 10, and only activate high-power described second processing unit 20 when monitoring echo signal, thus implementing for the dormant long-time monitor in real time of user with low-power consumption cost.

Described stimulation applying unit 30 is for applying stimulus signal to user.In a preferred embodiment of the invention, described second processing unit 20 utilizes the first control information comprised in described first command information, controls described stimulation applying unit 30 and applies stimulus signal to described user.Described stimulation applying unit 30 includes but not limited to apply the stimulus signals such as vibrations stimulation, microelectric current to user, in order to stimulate user to adjust sleeping position when not exclusively waking user up, thus improving the state of snoring.

Above, each functional unit of electronic equipment according to embodiments of the present invention is outlined with reference to Fig. 1.Hereinafter, monitoring method according to embodiments of the present invention will be described in further detail with reference to Fig. 2 to Fig. 5.

Fig. 2 is the flow chart of the first example illustrating monitoring method according to embodiments of the present invention.As in figure 2 it is shown, the first example of monitoring method according to embodiments of the present invention comprises the following steps.

In step s 201, the first processing unit 10 in described electronic equipment 1 gathers the first acoustical signal.Hereafter, process enters step S202.

In step S202, the first processing unit 10 judges whether described first acoustical signal gathered meets predetermined condition, generates the first judged result.Hereinafter, with reference to Fig. 3 and Fig. 4 in detail described predetermined condition will be described in detail.

If obtaining positive result in step S202, described first acoustical signal that namely described first judged result instruction gathers meets described predetermined condition, then process and enter step S203.If on the contrary, obtain negative decision in step S202, described first acoustical signal that namely described first judged result instruction gathers is unsatisfactory for described predetermined condition, then the processing returns to step S201 and continue to gather the first acoustical signal to perform monitoring.

In step S203, described first processing unit 10 sends the first command information to the second processing unit 20.Described first command information comprises for indicating described second processing unit 20 to start and applying the command information stimulated to user.Hereafter, process enters step S204.

In step S204, based on described first command information, described second processing unit 20 starts.As it has been described above, described second processing unit 20 startup includes described second processing unit 20 and is switched to the second state (duty) based on described first command information from the first state (not actuated or resting state).Described second processing unit 20 power consumption in said second condition is higher than power consumption in said first condition.Hereafter, process enters step S205.

In step S205, described second processing unit 20 utilizes the first control information comprised in described first command information, controls described electronic equipment 1 and applies stimulus signal to described user.Specifically, as mentioned above, described second processing unit 20 controls described stimulation applying unit 30 and applies stimulus signal to described user, include but not limited to apply the stimulus signals such as vibrations stimulation, microelectric current to user, to stimulate user to adjust sleeping position when not exclusively waking user up, thus improving the state of snoring.

Above, monitoring method according to embodiments of the present invention is outlined with reference to Fig. 2.Hereinafter, with reference to Fig. 3 and Fig. 4, monitoring method according to embodiments of the present invention will be described in further detail, be based particularly on different predetermined conditions and perform the concrete example that monitoring controls.

Fig. 3 is the flow chart of the second example illustrating monitoring method according to embodiments of the present invention.As it is shown on figure 3, the second example of monitoring method according to embodiments of the present invention comprises the following steps.

In step S300, the first processing unit 10 in described electronic equipment 1 gathers second sound signal, and using described second sound signal as template acoustical signal.In a preferred embodiment of the invention, described second sound signal is that user simulates acoustical signal produced by self the sound of snoring.In another preferred embodiment of the invention, described second sound signal can be under sleep state produced by the real sound of snoring acoustical signal for user.Hereafter, process enters step S301.

In step S301, described first processing unit 10 gathers the first acoustical signal.Hereafter, process enters step S302.

In step s 302, described first processing unit 10 judges whether described first acoustical signal gathered matches with the described template acoustical signal of setting in step S300, generates the first judged result.If obtaining positive result in step s 302, described first acoustical signal that namely described first judged result instruction gathers matches with described template acoustical signal, and described first acoustical signal of collection is the sound of snoring signal of user, then process and enter step S303.On the contrary, if obtaining negative decision in step s 302, namely described first acoustical signal that described first judged result instruction gathers does not match that with described template acoustical signal, described first acoustical signal gathered is not the sound of snoring signal of user, then the processing returns to step S301 and continue to gather the first acoustical signal to perform monitoring.

The process of step S303 to step S305 is identical with the process of step S203 to step S205 respectively, will omit its repeated description at this.

Fig. 4 is the flow chart of the 3rd example illustrating monitoring method according to embodiments of the present invention.As shown in Figure 4, the 3rd example of monitoring method according to embodiments of the present invention comprises the following steps.

The process of step S400 and step S401 is identical with the process of step S300 and step S301 respectively, will omit its repeated description at this.

In step S402, described first processing unit 10 judges in the first predetermined amount of time, number that described first acoustical signal of collection and described template acoustical signal match and/or intensity whether second predetermined condition.In a preferred embodiment of the invention, described first predetermined amount of time is such as 30 seconds, described second predetermined condition be the number that matches of described first acoustical signal and the described template acoustical signal gathered be more than or equal to pre-determined number (such as, 10 times) and/or the intensity of described first acoustical signal that matches with described template acoustical signal more than predetermined strength (such as, 60 decibels).If obtaining positive result in step S402, namely number that described first acoustical signal and the described template acoustical signal that described first judged result instruction gathers matches and/or intensity second predetermined condition, gather described first acoustical signal be user repeatedly and/or loud sound of snoring signal, then process enter step S403.On the contrary, if obtaining negative decision in step S402, namely number and/or intensity that described first acoustical signal that described first judged result instruction gathers and described template acoustical signal match are unsatisfactory for the second predetermined condition, gather described first acoustical signal be not user repeatedly and/or loud sound of snoring signal, then the processing returns to step S401 continue gather the first acoustical signal to perform monitoring.So, only in, when monitoring the sound of snoring continuously and/or monitor the big sound of snoring, just applying user to stimulate, it is to avoid apply continually user irrelevantly to stimulate.

Fig. 5 is the flow chart of the 4th example illustrating monitoring method according to embodiments of the present invention.As it is shown in figure 5, the 4th example of monitoring method according to embodiments of the present invention comprises the following steps.

Step S500 to S505 in Fig. 5 is corresponding with step S300 to the S305 in Fig. 3 and step S400 to the S405 in Fig. 4 respectively, will omit its repeated description at this.In step S505, described second processing unit 20 utilizes the first control information comprised in described first command information, controls described electronic equipment 1 to after described user applies stimulus signal, processing and enter step S506.

In step S506, described first processing unit 10, during the second predetermined amount of time, judges that the 3rd acoustical signal gathered meets described predetermined condition again.As it was previously stated, described predetermined condition can be the acoustical signal gathered is that described template acoustical signal matches.Alternately, described predetermined condition can also is that the number and/or intensity second predetermined condition that the acoustical signal of collection and described template acoustical signal match.

If obtaining positive result in step S506, namely during the second predetermined amount of time, again monitor the 3rd acoustical signal meeting described predetermined condition, then process and enter step S507.If on the contrary, obtain negative decision in step S506, namely during the second predetermined amount of time, it does not have monitor the 3rd acoustical signal meeting described predetermined condition, say, that the snoring status releasing of user, then the processing returns to step S501.After the processing returns to step S501, continued collected sound signal to be monitored by described first processing unit 10, described second processing unit 20 is switched back into from second state (duty) of high power consumption first state (resting state) of low-power consumption simultaneously.

In step s 507, described second processing unit 20 controls described stimulation applying unit 30 and applies the second stimulus signal to described user.In a preferred embodiment of the invention, owing to described stimulation applying unit 30 fails to improve the snoring state of user to the first stimulus signal that described user applies, the intensity of the second stimulus signal again applied will be greater than the intensity of described first stimulus signal.Hereafter, process enters step S508.

In step S508, described first processing unit 10 judges whether the number of times applying stimulus signal to described user continuously exceedes predetermined threshold.If obtaining positive result in step S508, namely applying the number of times of stimulus signal continuously to described user and alreading more than predetermined threshold, then process and enter step S509, in step S509, described first processing unit 10 will stop in response to the acoustical signal gathered.

If on the contrary, obtain negative decision in step S508, namely applying the number of times of stimulus signal continuously to described user and be not above predetermined threshold, then the processing returns to step S506, in order to continue to monitor whether to monitor the acoustical signal meeting predetermined condition continuously.

So, by monitoring method according to embodiments of the present invention as shown in Figure 5, if continuing to monitor the sound of snoring signal of user, then it is stepped up the stimulus intensity that user is applied.Additionally, after the stimulation exceeding pre-determined number applies, if still failing to change the snoring state of user, then stop in response to the acoustical signal monitored.

In addition, although being shown without, monitoring method according to embodiments of the present invention is also possible that after the stimulation exceeding pre-determined number applies, if still failing to change the snoring state of user, then start alarm mechanism (not shown) further, described alarm mechanism includes but not limited to send alarm to the medical monitoring structure of user, in order to call the intervention of care provider, it is to avoid the user's brain caused owing to seriously snoring and the severe depletion of oxygen of blood.

Fig. 6 is the schematic diagram illustrating electronic equipment according to embodiments of the present invention.The schematic diagram of Fig. 6 includes the hardware and software module of the monitoring method of the enforcement embodiment of the present invention and the signal circulation between them.

As shown in Figure 6, flip-flop chip (Trigger) 602 and DMIC603 are corresponding to aforementioned first processing unit 10, wherein DMIC603 is used for collected sound signal, and flip-flop chip (Trigger) 602 sends for the instruction carrying out judging and performing correspondence based on the acoustical signal gathered.Application processor 601 is corresponding to aforementioned second processing unit 20.Flip-flop chip (Trigger) 602 performs monitoring with low power with the operating frequency of 2MHz.Flip-flop chip (Trigger) performs the exchange of such as clock and data between 602 and DMIC601.Described data include but not limited to the aforementioned DMIC603 acoustical signal gathered.

The communication based on 12C/SPI agreement is performed between flip-flop chip (Trigger) 602 and the application processor 601 corresponding to aforementioned second processing unit 20.When flip-flop chip (Trigger) 602 monitors the acoustical signal meeting predetermined condition, described first command information can be generated and send to application processor 601, thus waking application processor 601 up.Application processor 601 utilizes the first control information comprised in described first command information to apply stimulus signal to user.

Above, describe monitoring method according to embodiments of the present invention referring to figs. 1 through Fig. 6 and use the electronic equipment of this monitoring method, it can pass through the sleep procedure process monitoring for user, generate outside stimulus when detecting and the sound of snoring occurring to get involved, to eliminate or to alleviate snoring, promote the sleep quality of user.And the electronic equipment of monitoring method according to embodiments of the present invention and this monitoring method of use, user's acoustical signal under various uncomfortable situations can also be recorded, and when the acoustical signal that coupling occurs in user being detected, apply stimulus signal to remind user to user.

It should be noted that, in this manual, term " includes ", " comprising " or its any other variant are intended to comprising of nonexcludability, so that include the process of a series of key element, method, article or equipment not only include those key elements, but also include other key elements being not expressly set out, or also include the key element intrinsic for this process, method, article or equipment.When there is no more restriction, statement " including ... " key element limited, it is not excluded that there is also other identical element in including the process of described key element, method, article or equipment.

Finally, in addition it is also necessary to explanation, above-mentioned a series of process not only include the process performed in temporal sequence with order described here, and include the process performed parallel or respectively rather than in chronological order.

Through the above description of the embodiments, those skilled in the art is it can be understood that can add the mode of required hardware platform by software to the present invention and realize, naturally it is also possible to implement all through hardware.Based on such understanding, what background technology was contributed by technical scheme can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, such as ROM/RAM, magnetic disc, CD etc., including some instructions with so that a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the present invention or embodiment.

Above the present invention being described in detail, principles of the invention and embodiment are set forth by specific case used herein, and the explanation of above example is only intended to help to understand method and the core concept thereof of the present invention；Simultaneously for one of ordinary skill in the art, according to the thought of the present invention, all will change in specific embodiments and applications, in sum, this specification content should not be construed as limitation of the present invention.

Claims (14)

1. a monitoring method, is applied to electronic equipment, and described monitoring method includes:

The first processing unit in described electronic equipment gathers the first acoustical signal；

Judge whether described first acoustical signal gathered meets predetermined condition, generate the first judged result；

Described first acoustical signal gathered based on described first judged result instruction meets described predetermined condition, and described first processing unit sends the first command information to the second processing unit；

Based on described first command information, described second processing unit starts；

Described second processing unit utilizes the first control information comprised in described first command information, controls described electronic equipment and applies stimulus signal to described user.

2. monitor method as claimed in claim 1, also include:

Gathering before described first acoustical signal, gathering second sound signal, and using described second sound signal as template acoustical signal；

Wherein, it is judged that whether described first acoustical signal of collection meets predetermined condition includes

Judge whether described first acoustical signal gathered matches with described template acoustical signal.

3. monitor method as claimed in claim 2, wherein judge whether described first acoustical signal gathered meets predetermined condition and include:

In the first predetermined amount of time, it is judged that number that described first acoustical signal of collection and described template acoustical signal match and/or intensity whether second predetermined condition.

4. Claim 1-3 arbitrary as described in monitoring method, wherein control described electronic equipment and apply stimulus signal to described user and include:

After applying the first stimulus signal to described user, during the second predetermined amount of time, again judge that the 3rd acoustical signal gathered meets described predetermined condition, applies the second stimulus signal to described user,

Wherein, the intensity of described second stimulus signal is more than the intensity of described first stimulus signal.

5. Claim 1-3 arbitrary as described in monitoring method, also include:

When the number of times applying stimulus signal to described user continuously exceedes predetermined threshold, stop in response to the acoustical signal gathered.

6. Claim 1-3 arbitrary as described in monitoring method, the power consumption of wherein said second processing unit is higher than the power consumption of described first processing unit.

7. monitoring method as claimed in claim 6, wherein based on described first command information, before described second processing unit starts, described second processing unit is in the first state；

After described second processing unit starts, described second processing unit is in the second state,

Wherein, described second processing unit power consumption in said second condition is higher than power consumption in said first condition.

8. an electronic equipment, including:

First processing unit, is used for gathering the first acoustical signal, and judges whether described first acoustical signal gathered meets predetermined condition, generate the first judged result；

Second processing unit, for receiving the first command information from described first processing unit, described first acoustical signal gathered based on described first judged result instruction meets described predetermined condition, described first processing unit sends described first command information to the second processing unit, and based on described first command information, described second processing unit starts；And

Stimulate applying unit, for applying stimulus signal to user；

Wherein, described second processing unit utilizes the first control information comprised in described first command information, controls described stimulation applying unit and applies stimulus signal to described user.

9. electronic equipment as claimed in claim 8, described first processing unit, before gathering described first acoustical signal, gathers second sound signal, and using described second sound signal as template acoustical signal；And

Judge whether described first acoustical signal gathered matches with described template acoustical signal, to judge whether described first acoustical signal gathered meets predetermined condition.

10. electronic equipment as claimed in claim 9, wherein said first processing unit is in the first predetermined amount of time, judging whether number that described first acoustical signal and the described template acoustical signal that gather match and/or intensity meet second pre-conditioned, whether described first acoustical signal to judge collection meets predetermined condition.

11. claim 8 to 10 arbitrary as described in electronic equipment, wherein after described stimulation applying unit applies the first stimulus signal to described user, during the second predetermined amount of time, described first processing unit judges that the 3rd acoustical signal gathered meets described predetermined condition again, described second processing unit controls described stimulation applying unit and applies the second stimulus signal to described user

Wherein, the intensity of described second stimulus signal is more than the intensity of described first stimulus signal.

12. claim 8 to 10 arbitrary as described in electronic equipment, wherein described stimulation applying unit to described user apply continuously the number of times of stimulus signal exceed predetermined threshold time, described first processing unit stops in response to the acoustical signal gathered.

13. claim 8 to 10 arbitrary as described in electronic equipment, the power consumption of wherein said second processing unit is higher than the power consumption of described first processing unit.

14. electronic equipment as claimed in claim 13, wherein based on described first command information, before described second processing unit starts, described second processing unit is in the first state；

After described second processing unit starts, described second processing unit is in the second state,

Wherein, described second processing unit power consumption in said second condition is higher than power consumption in said first condition.