CN109125926A - A kind of sleep dynamic restoring method, device and equipment based on negative ion concentration - Google Patents

Abstract

A kind of sleep dynamic restoring method based on negative ion concentration includes: the corresponding relationship of the first sleep state and first time point in the first predetermined period before obtaining user's current time；Negative ion concentration adjustment time point, time point corresponding to starting point of the negative ion concentration adjustment time point for the second scheduled duration before the first time point on the same day are determined according to the corresponding relationship of first sleep state and first time point；In the negative ion concentration adjustment time point, the negative ion concentration of scene where user is adjusted to the first negative ion concentration corresponding to the first sleep state.It allows users to enter the first sleep state as early as possible according to the negative ion concentration of adjustment, shift to an earlier date user and entered for the first dormant time, in the case where the time of wakeing up is constant, effectively the sleep of user can be repaired, dependence is generated there is no drug side-effect or to drug, and it can be adjusted, be worked very fast according to the state of user itself, it is easy to spread.

Description

A kind of sleep dynamic restoring method, device and equipment based on negative ion concentration

Technical field

The application belong to healthy sleep field more particularly to a kind of sleep dynamic restoring method based on negative ion concentration, Device and equipment.

Background technique

With the quickening of modern life rhythm, operating pressure, the life stress of people also increasingly increases.Excessive pressure is held It easily makes one not falling asleep, so that insomnia has been that part population brings puzzlement；Also, life of the quality of sleep quality to people Living, study and work can have a huge impact again, be easy to produce pressure and recycle with the evil of insomnia greatly.

In order to solve the problems, such as that people have a sleepless night, the main solution studied at present includes two kinds: on the one hand being passed through Pharmaceutical hypnosis, by improving existing drug or researching and developing new drug, to improve the sleeper effect of insomnia user and reduce side effect. However when passing through pharmaceutical hypnosis, side effects of pharmaceutical drugs, dependence and drug resistance are that this method is mostly important and now still eventually To solve the problems, such as；It on the other hand is to be dredged by psychological counseling the psychology of user, to overcome the resistance in its mood to sleep Association, thus the insomnia problem solved the problems, such as.The method of psychological counseling is compared with pharmaceutical hypnosis, although there is no side effect, according to The problem of relying property and drug resistance etc., but action is relatively slow, special messenger is needed to guide, and generalization is poor.

Summary of the invention

In view of this, the embodiment of the present application provides a kind of sleep dynamic restoring method, apparatus based on negative ion concentration And equipment, to solve to use pharmaceutical hypnosis in the prior art, there are side effects, generate dependence to drug, or use psychological counseling When, work slower, the poor problem of generalization.

The first aspect of the embodiment of the present application provides a kind of sleep dynamic restoring method based on negative ion concentration, described Method includes:

The first sleep state in the first predetermined period before obtaining user's current time is corresponding with first time point Relationship；

Negative ion concentration adjustment time point, institute are determined according to the corresponding relationship of first sleep state and first time point State time point corresponding to the starting point of the second scheduled duration before the first time point that negative ion concentration adjustment time point is the same day；

In the negative ion concentration adjustment time point, the negative ion concentration of scene where user is adjusted to the first sleep shape First negative ion concentration corresponding to state.

With reference to first aspect, in the first possible implementation of first aspect, first sleep state is gently to sleep State, deep sleep or extreme deep sleep.

The possible implementation of with reference to first aspect the first, in second of possible implementation of first aspect, institute Stating the first dormant determining factor includes the head of user in pillow top dynamic frequency.

The possible implementation of second with reference to first aspect, in the third possible implementation of first aspect, when When the head dynamic frequency is in first frequency range, user, which is in, gently sleeps state；

When the head dynamic frequency is in second frequency range, user is in deep sleep；

When the head dynamic frequency is in third frequency range, user is in extreme deep sleep state；

Wherein, the frequency of first frequency range, the frequency of second frequency range, the frequency of third frequency range successively subtract It is small.

The possible implementation of with reference to first aspect the first, in the 4th kind of possible implementation of first aspect, institute When stating user and being in light sleep state, corresponding user's head is 1-2 times/30 minutes in the head dynamic frequency of the same area, And it is small in the frequency that total head dynamic frequency of different zones was less than 3 times/30 minutes and user's head is in pillow up conversion position In 2 times/30 minutes, corresponding first negative ion concentration are as follows: total negative ion concentration is 8000-12000/cubic centimetre, granule Diameter negative ion concentration is 5000-8000/cubic centimetre；

When the user is in deep sleep state, the head of corresponding user is in the head dynamic frequency of the same area 1 time/30 minutes, and frequency of the user's head in pillow up conversion position is 0 time/30 minutes, corresponding first negative ion concentration Are as follows: total negative ion concentration is 12000-15000/cubic centimetre, and small particle negative ion concentration is 8000-10000/cubes lis Rice；

When the user is in extreme deep sleep state, frequency is moved in the head of the same area in the head of corresponding user Rate is 0 time/30 minutes, and frequency of the user's head in pillow up conversion position is 0 time/30 minutes, corresponding first anion Concentration are as follows: total negative ion concentration is 15000-20000/cubic centimetre, small particle negative ion concentration is 12000-15000/ Cubic centimetre；

Wherein, the small particle anion is that mobility is less than 0.04cm2/ (V`s).

With reference to first aspect, in the 5th kind of possible implementation of first aspect, the acquisition user current time it The step of corresponding relationship of the first sleep state and first time point in the first preceding predetermined period includes:

The user in the first predetermined period before obtaining current time entered for the first dormant time point；

Weight is determined according to the interval duration of the time point of acquisition and current time, is got over the interval duration of current time Short, weight is higher；

According to the time point of acquisition and corresponding weight, first time corresponding to the first sleep state is calculated Point.

With reference to first aspect, in the 6th kind of possible implementation of first aspect, the method also includes:

According to the feedback result that user's sleep is repaired, determining and suitable second scheduled duration of user.

The second aspect of the embodiment of the present application provides a kind of sleep dynamic repairing device based on negative ion concentration, described Device includes:

Historical data acquiring unit, for obtaining the first sleep shape in the first predetermined period before user's current time The corresponding relationship of state and first time point；

Negative ion concentration adjustment time point determination unit, for pair according to first sleep state and first time point Before should being related to that determining negative ion concentration adjustment time point, the negative ion concentration adjustment time point are the first time point on the same day The second scheduled duration starting point corresponding to time point；

Negative ion concentration adjustment unit is used in the negative ion concentration adjustment time point, by the negative of scene where user Ion concentration is adjusted to the first negative ion concentration corresponding to the first sleep state.

The third aspect of the embodiment of the present application provides a kind of sleep dynamic restoring equipment based on negative ion concentration, including Memory, processor and storage in the memory and the computer program that can run on the processor, the place Reason device realizes the sleep dynamic restoring as described in any one of first aspect based on negative ion concentration when executing the computer program The step of method.

The fourth aspect of the embodiment of the present application provides a kind of computer readable storage medium, the computer-readable storage Media storage has computer program, realizes when the computer program is executed by processor and is based on as described in any one of first aspect The step of sleep dynamic restoring method of negative ion concentration.

Existing beneficial effect is the embodiment of the present application compared with prior art: before acquisition user's current time The corresponding relationship of the first sleep state in first predetermined period and first time point, and before the first time point on the day of The starting point of second scheduled duration is determined as negative ion concentration adjustment time point, and according to the negative ion concentration adjustment time point, The negative ion concentration of scene where user is adjusted to the first negative ion concentration corresponding to the first sleep state, so that with Family can enter as early as possible the first sleep state according to the negative ion concentration of adjustment, i.e., user is dormant into first in advance Time can effectively repair the sleep of user, there is no drug side-effects in the case where the time of wakeing up is constant Or dependence is generated to drug, and can be adjusted according to the state of user itself, and it works very fast, it is easy to spread.

Detailed description of the invention

It in order to more clearly explain the technical solutions in the embodiments of the present application, below will be to embodiment or description of the prior art Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only some of the application Embodiment for those of ordinary skill in the art without any creative labor, can also be according to these Attached drawing obtains other attached drawings.

Fig. 1 is a kind of realization of sleep state dynamic restoring method based on negative ion concentration provided by the embodiments of the present application Flow diagram；

Fig. 2 is a kind of structural schematic diagram for detecting dormant device provided by the embodiments of the present application；

Fig. 3 is a kind of implementation process schematic diagram for obtaining first time point provided by the embodiments of the present application；

Fig. 4 A is the time data form provided by the embodiments of the present application for entering under different negative ion concentrations and gently sleeping state；

Fig. 4 B is the time data form provided by the embodiments of the present application for entering deep sleep state under different negative ion concentrations；

Fig. 4 C is the time number provided by the embodiments of the present application for entering extreme deep sleep state under different negative ion concentrations According to table；

Fig. 5 is the schematic diagram of the sleep dynamic repairing device provided by the embodiments of the present application based on negative ion concentration；

Fig. 6 is the schematic diagram of the sleep dynamic restoring equipment provided by the embodiments of the present application based on negative ion concentration.

Specific embodiment

In being described below, for illustration and not for limitation, the tool of such as particular system structure, technology etc is proposed Body details, so as to provide a thorough understanding of the present application embodiment.However, it will be clear to one skilled in the art that there is no these specific The application also may be implemented in the other embodiments of details.In other situations, it omits to well-known system, device, electricity The detailed description of road and method, so as not to obscure the description of the present application with unnecessary details.

In order to illustrate technical solution described herein, the following is a description of specific embodiments.

It is as shown in Figure 1 a kind of sleep state restorative procedure realization based on negative ion concentration provided by the embodiments of the present application Flow diagram, details are as follows:

In step s101, the first sleep state and first in the first predetermined period before acquisition user's current time The corresponding relationship at time point；

Specifically, herein described first predetermined period, can be set to a week, five days or two weeks etc.. It can be adjusted flexibly according to the historical sleep data of user.For example when new user carries out sleep state dynamic restoring, then may Including using one day, two days before current time or three days historical datas etc..I.e. when the historical data that can be obtained when It, then can be using whole historical datas that the period can get as the basis calculated when section is less than the first predetermined period.

First sleep state can be determined according to the brain wave frequency of user and the wave amplitude of brain wave.In general, When brain wave frequency transits to 0.5-4Hz by 8-15Hz, and the wave amplitude of brain wave is transitioned into 5-30uV by 35-60uV, institute Stating the first sleep state is to have sleepiness state.

When brain wave frequency is 5-10Hz, and wave amplitude is in 10-50uV, first sleep state is shallowly to sleep shape State.

When the ratio for belonging to the part 5-10Hz in brain wave frequency is greater than predetermined value, such as when 80%, and with 12-26Hz Brain wave, and when wave amplitude is in 10-50uV, first sleep state is shallowly to sleep state.

When brain wave frequency belongs to 1-5Hz, first sleep state is deep sleep.

When brain wave frequency belongs to 1-3Hz, first sleep state is extreme deep sleep.

In order to detect dormant convenience, present applicant proposes a kind of head based on user on pillow dynamic time Number is counted and/or shifted one's position to determine dormant method.Wherein head moves number, refers to that the head of user is become from stopping state Dynamic number.Concrete behavior indicated by dynamic number may include that face upward just sleeping becomes lie on one's side (left or right side) Behavior, head is transformed in the just sleeping etc. of position B upward and in the just sleeping of position A by face.It shifts one's position number, refers to use The changed number in position of the head at family on pillow, can be divided into multiple regions for pillow, when the head of user institute Region change when, then it is assumed that evolution has occurred in the head of user, for example, can be lain according to longitudinal direction, i.e. user Under direction, pillow is divided into three regions.

It is corresponding with brain wave frequency and wave amplitude, it can also include the dynamic number of head of user, or further include user's Number of the head in pillow up conversion position.

Can number directly be moved according to the head in preset duration, i.e. head dynamic frequency judges the sleep state of user, for example, When the head dynamic frequency is in second frequency range, user, which is in, shallowly sleeps state；

When the head dynamic frequency is in third frequency range, user, which is in, gently sleeps state；

When the head dynamic frequency is in four frequency ranges, user is in deep sleep；

When the head dynamic frequency is in five frequency ranges, user is in extreme deep sleep state；

Wherein, the frequency of first frequency range, the frequency of second frequency range, the frequency of third frequency range, the 4th frequency The frequency of the frequency of rate range and the 5th frequency range is sequentially reduced.

More specifically:

It is and big in total head dynamic frequency of different zones when the head dynamic frequency in the same area is greater than 3 times/10 minutes When in 6 times/30 minutes and user's head, the frequency in pillow up conversion position was greater than 2 times/30 minutes, user, which is in have, to sleep Meaning state；

When the head dynamic frequency in the same area is less than or equal to 3 times/10 minutes, and it is dynamic in total head of different zones Frequency be the frequency of 3-6 time/30 minutes and user's head in pillow up conversion position less than or equal to 2 times/30 minutes when, User is in sleeping state；

It is and small in total head dynamic frequency of different zones when the head dynamic frequency in the same area is 1-2 times/30 minutes In 3 times/30 minutes and user's head pillow up conversion position frequency less than 2 times/30 minutes, user is in light sleep State；

When the head dynamic frequency in the same area is 1 time/30 minutes, and user's head is in the frequency of pillow up conversion position When rate is 0 time/30 minutes, user is in deep sleep state；

When the head dynamic frequency in the same area is 0 time/30 minutes, and user's head is in the frequency of pillow up conversion position When rate is 0 time/30 minutes, user is in extreme deep sleep state.

Through detecting, by sleep state determined by above-mentioned head dynamic frequency and the frequency shifted one's position, examined with brain wave The sleep state measured coincide.

Wherein, the change of head position refers to that in the given time head position when user is in same sleeping position occurs The number of change, for example in first time point, the position lain on one's side is A, is B in the position that the second time point lay on one's side, if A and B It is different, then it is assumed that head position changes, if first time point is to lie on one's side, the second time point was to lie on the back, then can basis First time point or the sleeping position at the second time point carry out speculative computation, obtain position of two time points when being in identical sleeping position, Whether comparison position is identical again.And head dynamic frequency then includes the number of transitions of head difference sleeping position in the given time, be can wrap It includes and pillow is divided into multiple regions in advance, for example can be 3 regions, determine the head dynamic frequency in each region.Alternatively, can also Central point centered on the head position according to user, as region；The radius in region can be transformed to for head by lying on the back Farthest moving distance when lying on one's side, such as the central point by lying on the back, to the distance for the farthest side lain on one's side.

It is described to have sleepiness state as in the optional embodiment of the application, it can be when the head in the same area Dynamic frequency be greater than 3 times/10 minutes, different zones total head dynamic frequency be greater than 6 times/30 minutes, user's head is on pillow When any two condition when the frequency shifted one's position is greater than 2 times/30 minutes in these three conditions meets, it can confirm that user works as Preceding be in has sleepiness state.Equally, when the head dynamic frequency in the same area is less than or equal to 3 times/10 minutes, in not same district Total head dynamic frequency in domain is 3-6 times/30 minutes, and frequency of the user's head in pillow up conversion position is less than or equal to 2 times/30 Minute, when any two in these three conditions are met the requirements, it can also confirm that user has been currently at and shallowly sleep state.

By obtain user head move number, or further include user head in the number of pillow up conversion position, can Effectively to determine the current sleep state of user.

In order to effectively detect that the head of user moves the head of number and user in the secondary of pillow up conversion position Number, present applicant proposes a kind of dormant detection device of user, the sleep state detection device is to be arranged under pillow Side, or be arranged on pillow, including it is multiple side by side, longitudinally disposed deformation induction device, as shown in Fig. 2, the deformation Sensing device includes deformation apparatus 21 and sensing device 22, and deformation apparatus 21 can (flexible cavity can be with for flexible cavity Select air bag or liquid capsule), the deformation apparatus 21 is connected with deformation induction device 22, and in deformation apparatus, deformation occurs, such as When being squeezed, deformation induction device can detecte whether deformation occurs.The deformation apparatus 21 includes flexible cavity 211, Soft layer 212 can also be set on the surface of flexible cavity, to protect the flexible cavity.The side of the flexible cavity is arranged Have and portal, the gas in flexible cavity 211 or liquid after compression squeeze to the right, force the deformation position in sensing device 22 It moves device 221 to be subjected to displacement, the deformational displacement device can be sliding block, elastic membrane etc..When deformational displacement device 221 is subjected to displacement, The contact 222 being arranged on the moving direction of deformational displacement device 221 is squeezed, so that the conduction between two contacts State changes, and detects that deformation apparatus 21 is extruded state by controller.In order to control the position of deformational displacement device 221 It sets, limiter 223 is additionally provided in the moving direction of deformational displacement device 221, so as to effectively control deformational displacement device 221 Maximum moving distance.

That is: when pressure when flexible cavity by user's head, the change of position occurs for the deformational displacement device, passes through institute What is be arranged can incude the contact 222 of the change in location of the deformational displacement device, when deformation inductor is pressurized, then two contacts 222 conductings, can detecte the variation of the state by processor.If flexible cavity switchs to not pressured state by pressured state When, deformation apparatus restores to the original state, and two contacts disconnect, and processor detects two contact off-states, and determination is currently at Non- pressured state.

In preferred embodiment, the spacing between the central axes of the flexible cavity can be 2-5 centimetres, on pillow The number of the flexible cavity of setting 14-18.Particularly, different situation possible for the length of pillow, can be according to user Head sleep the flexible cavity number that is pressurized on pillow to determine the spacing and number of flexible cavity, for example use can be set Family is slept when on pillow, while the number for the flexible cavity being pressurized is 3 or 4 etc..

It, can be according to sound state of the user's head on pillow, root as a kind of specific embodiment of the application The head dynamic frequency of the user is determined according to the sound state, comprising:

In step A1, pass through the deformation of the longitudinal multiple deformation apparatus for being disposed in parallel in pillow position of sensing device detection Signal obtains the corresponding sense state of sensing device of different serial numbers；

Specifically, the multiple deformation induction devices being longitudinally set side by side can be numbered, such as the setting of pillow position There are 16 deformation induction devices, serial number is followed successively by 1-16, when wherein the deformation of any one or multiple deformation induction devices fills It sets and is pressed constantly, the sensing device of corresponding sequence detects pressing signal.

In general, according to the difference of the spacing of setting, having multiple deformation senses when the head of user is rested the head on pillow Device is answered to be able to detect that pressing signal.For example, user sleeps when the width of corresponding three deformation induction devices of the width on head When in the middle part of pillow, it may detect that serial number is respectively the deformation inductive signal of 7,8,9 three deformation apparatus, such as deformation Signal be 1 (indicating be currently pressured state), other there is no the deformation inductive signal of the deformation apparatus of deformation is 0 (expression It is currently non-pressured state).

When user is from middle part side moving-head to the left, the deformation induction device of serial number 9 reverts to 0, serial number 6,7,8 The deformation inductive signal of deformation apparatus be 1, it is lasting to detect, may detect that the deformation sense of the deformation apparatus of serial number 5,6,7 Induction signal is 1.

In step A2, when the sense state of any one sensing device changes, determine that the user occurs It is mobile；

When the sense state of all deformation induction devices remains unchanged, then show that user is in static state, when wherein appointing When the sense state of what sensing device changes, for example become 0 from deformation signal from 1, or become 1 from 0.Wherein, When the sense state of any one sensing device changes, the number of the deformation apparatus in pressured state that may be total is not sent out Raw to change, therefore, it is necessary to the serial numbers by determining the changed sensing device of sense state, to determine that user currently moves Dynamic mode.

In step A3, the time of movement is occurred according to the user and direction determines the head dynamic frequency.

Since user is in moving process, the variation of lasting sense state may be caused, for example user is from intermediate Lie on the back when switching to lie on one's side, the serial number of the deformation apparatus in pressured state may be followed successively by (7,8,9), (6,7,8), (5,6,7), (4,5,6).And the change of this three sequence number can make the head of statistics move the accuracy rate of number if statistics is dynamic for head three times It is not high.

In order to improve counted head move number accuracy rate, can specifically include:

S1, when the second movement, and the second mobile direction and first movement direction phase adjacent before occur for the user Meanwhile second mobile time point and first movement adjacent before time point interval it is long be less than scheduled duration, then count First movement and the second movement are that primary head is dynamic；

S2, when the second movement, and the direction in the second mobile direction and first movement adjacent before occur for the user On the contrary, then statistics second is mobile and first movement is dynamic for head twice；

S3 moves number according to the head of statistics, determines the head dynamic frequency.

When the user occurs repeatedly mobile, needs to obtain the moving direction repeatedly moved and time interval, pass through shifting Dynamic direction and time interval determine repeatedly whether mobile be that primary head is dynamic or repeatedly head is dynamic jointly.In this application, movement is Refer to that the sense state of sensing device changes, i.e., it is believed that movement has occurred in the head of user.But the head of user is dynamic to be occurred Mobile number can not be equivalent to head and move number, this is because primary head is dynamic to will include the process repeatedly moved, such as above-mentioned The serial number of the deformation apparatus in pressured state successively change as (7,8,9), (6,7,8), (5,6,7), (4,5,6), including It moves three times, but whole process is that primary head is dynamic.

In order to effectively count dynamic number of lifting one's head, by obtaining the moving direction repeatedly moved and repeatedly movement Time interval, if the time interval repeatedly moved is less than scheduled duration, such as 5 seconds kinds, and when mobile direction is identical, Then think repeatedly mobile to occur in the movement that primary head moves.

If time interval is more than scheduled duration, or the moving direction repeatedly moved changes, then it is believed that current Movement be in movement before in the movement that head is dynamic twice.

By the acquisition to features such as mobile time intervals and moving direction, more structurally sound use can be counted Head corresponding to the movement in account portion moves number, so as to more accurately count on the head dynamic frequency of user.

As a kind of specific embodiment of the application, the statistics of the head dynamic frequency, can by choose it is scheduled when It is long, to need the time point counted as starting point, scheduled duration is chosen forward, and the head counted in the scheduled duration moves number, leads to Crossing the dynamic number of the head counted in the scheduled duration can determine a dynamic frequency.For example, when scheduled duration is 30 minutes, if necessary The head dynamic frequency of any point-in-time (for example being 12:00) is counted, it can be to need time point for counting subtract 30 forward minute (as 11:30), the head for obtaining the period (11:30-12:00) moves number.If head move number be 3 times, head dynamic frequency be 3 times/ 30 minutes.

First time point described in the embodiment of the present application, refers to the time point in one day, for example, 10 points at night, ten thirty, Ten one points etc..It can the first time point in the time of every day.Obtain first before user's current time The first sleep state in predetermined period with and a time point corresponding relationship the step of, can be as shown in Figure 3, comprising:

In step S301, it is dormant that the user in the first predetermined period before obtaining current time enters first Time point；

If the historical data of user is more abundant, first predetermined period can be a week, not limit to certainly It can also be fortnight or five days etc. in this.It obtains in every day in first predetermined period, user is entering the One dormant time point.For example, can detect by brain wave, or by the sound state of pillow, collect user Into the first dormant time point.Enter first in scheduled time slot by the user counted on June 16 as shown in the table The table of dormant time:

Table 1-1

In step s 302, weight is determined according to the interval duration of the time point of acquisition and current time, with current time Interval duration it is shorter, weight is higher；

Influence in order to significantly more efficient determining historical data to user's current sleep time, can be when will be earliest Between put and time point removal the latest, then seek the average value at remaining time point, or can also be according to where time point Date, determine different weights, closer apart from current time, identified weight is higher, such as the weight that can be distributed according to It is secondary are as follows: 0.21,0.18,0.16,0.14,0.12,0.1,0.09.

If removing earliest time point 9:10 and latest time point 10:40, remaining 5 time points are averaged can : (10:15+9:45+9:35+9:15+9:55)/5=9:45.

In step S303, according to the time point of acquisition and corresponding weight, it is right that the first sleep state institute is calculated The first time point answered.

According to predetermined weight, and in period in a week for collecting, user enters the first sleep state Time point, first time point can be calculated, i.e., various time points are multiplied with corresponding weight, then again to product It takes and first time point can be obtained.For example, according to entrance the first dormant time point and the weight of above-mentioned acquisition, It can carry out calculating first time point are as follows: 10:45*0.21+10:15*0.18+9:45*0.16+9:35*0.14+9:10*0.12+ 9:15*0.1+9:55*0.09=9:53.

It is weighted by statistical history dormant data, and to historical data, it can be with more structurally sound determining user Possibly into the first dormant time point on the day of, repaired so as to preferably be directed to the subsequent sleep of time point progress Multiple operation.

In step s 102, negative ion concentration is determined according to the corresponding relationship of first sleep state and first time point Adjustment time point, the negative ion concentration adjustment time point be the same day first time point before the second scheduled duration starting point Corresponding time point；

In order to be repaired to sleep, after first time point corresponding to the first sleep state has been determined, for first At time point, determine negative ion concentration adjustment time point, i.e. the starting point of second scheduled duration of the selection before first time point is made For negative ion concentration adjustment time point.

For example, the second scheduled duration undetermined is 20 points after the first time point that user is determined by calculation is 9:53 Clock, then, negative ion concentration adjustment time point is 9:33.

Certainly, second scheduled duration can be according to the sleep adjustment of user as a result, flexibly adjustment.For example, working as institute When stating the selection of the second scheduled duration T1 minutes, user entered for the first dormant time point for X1, when the described second pre- timing When length is selected T2 minutes, user entered for the first dormant time point for X2, if X1, earlier than X2, preferential selection second is pre- Periodically a length of T1.

It, can be by way of gradually adjusting in order to select preferably the second scheduled duration, determination is more matched with user The second scheduled duration.

In step s 103, in the negative ion concentration adjustment time point, by the negative ion concentration tune of scene where user Whole is the first negative ion concentration corresponding to the first sleep state.

Specifically, the first corresponding negative ion concentration is total anion when the first sleep state is light sleep state Concentration is 12000-15000/cubic centimetre, and small particle negative ion concentration is 8000-10000/cubic centimetre；

When the first sleep state is deep sleep state, the first corresponding negative ion concentration is that total negative ion concentration is 12000-15000/cubic centimetre, small particle negative ion concentration is 8000-10000/cubic centimetre；

When the first sleep state is extreme deep sleep state, the first corresponding negative ion concentration is total negative ion concentration For 15000-20000/cubic centimetre, small particle negative ion concentration is 12000-15000/cubic centimetre；

Wherein, the small particle anion is that mobility is less than 0.04cm2/ (V`s), and big partial size anion is that mobility is big In the anion of 0.4cm2/ (V`s), falling between is middle partial size anion.

Wherein, the first dormant determination, can be according to the head dynamic frequency of user, or can be combined with the head of user The number of portion's evolution determines, so here is no more repetition.

Wherein, corresponding first negative ion concentration of first sleep state, by choose 30 testers (wherein Including 10 female, 20 male), test in 30 days by a definite date is carried out, and guarantee to maintain identical environmental parameter (packet during the test Include identical humidity, gas concentration lwevel, air temperature and current speed), it adjusts in the daily same time to a certain negative ion concentration Afterwards, it obtains user and enters the first dormant duration under different negative ion concentrations.It is as shown in Figure 4 A different anions Under concentration range, according to given negative ion concentration range since 10 points, 11 selected users, which enter, gently sleeps state Identified time point:

It is 8000~12000/CM3, granule in total negative ion concentration from Fig. 4 A it has been confirmed that for being tested personnel 1 It is 10:28 into the time point for gently sleeping state in the environment of 5000~8000/CM3 of concentration of diameter anion；Always bear from Sub- concentration is 3000~5000/CM3, in the environment of 2000~3000/CM3 of concentration of small particle anion, is entered light The time point for sleeping state is 10:32；It is 5000~8000/CM3, the concentration 3000 of small particle anion in total negative ion concentration It is 10:30 into the time point for gently sleeping state in the environment of~5000/CM3；Total negative ion concentration be 12000~ 15000/CM3, in the environment of 8000~10000/CM3 of concentration of small particle anion, enter the time for gently sleeping state Point is 10:28；It is 15000~20000/CM3, the concentration 12000~15000 of small particle anion in total negative ion concentration It is 10:28 into the time point for gently sleeping state in the environment of a/CM3.In conjunction with multiple users it is found that relative to it is other bear from Sub- concentration range is 5000~8000/CM3 in total 8000~12000/CM3 of negative ion concentration small particle negative ion concentration When, being entered with the most fast time has sleepiness state.

According to same verification method, as shown in Figure 4 B, in total 12000~15000/CM3 of negative ion concentration small particle In the environment of negative ion concentration is 8000~10000/CM3, relative to other negative ion concentration ranges, with the most fast time into Enter deep sleep state.As shown in Figure 4 C, in total 15000~20000/CM3 of negative ion concentration, small particle negative ion concentration is In the environment of 12000~15000/CM3, relative to other negative ion concentration ranges, extreme sound sleep is entered with the most fast time Dormancy state.

It can be obtained by Fig. 4 A-4C: when the first sleep state is gently to sleep state, the first corresponding negative ion concentration are as follows: total Negative ion concentration is 8000~100000/CM3,5000~8000/CM3 of concentration of small particle anion；When the first sleep When state is deep sleep, the first corresponding negative ion concentration is total 12000~15000/CM3 of negative ion concentration small particle Negative ion concentration is 8000~10000/CM3；When the first sleep state be extreme deep sleep when, corresponding first it is negative from Sub- concentration is that total 15000~20000/CM3 of negative ion concentration small particle negative ion concentration is 12000~15000/CM3.

In addition, improving the efficiency of getting up of user after sleep in order to improve comfort level of the user after awake state, sleeping When the state of waking up, can control environment negative ion concentration is total 8000~9000/CM3 of negative ion concentration small particle negative ion concentration For 5000~6000/CM3.Wherein, the user is the detection of awake state, can be by detecting whether in extreme sound sleep After dormancy state, and the head of user moves number and is greater than 20 times/30 minutes, or further includes shift one's position number of the head on pillow When more than or equal to 20 times/30 minutes, user is in awake state.It is, of course, also possible to by brain wave detect user whether be Awake state.

It should be understood that the size of the serial number of each step is not meant that the order of the execution order in above-described embodiment, each process Execution sequence should be determined by its function and internal logic, the implementation process without coping with the embodiment of the present application constitutes any limit It is fixed.

Fig. 5 is a kind of structural representation of sleep dynamic repairing device based on negative ion concentration provided by the embodiments of the present application Figure, details are as follows:

The sleep dynamic repairing device based on negative ion concentration, comprising:

Historical data acquiring unit 501 is slept for first in the first predetermined period before obtaining user's current time The corresponding relationship of dormancy state and first time point；

Negative ion concentration adjustment time point determination unit 502, for according to first sleep state and first time point Corresponding relationship determine negative ion concentration adjustment time point, the negative ion concentration adjustment time point is the first time point on the same day Time point corresponding to the starting point of the second scheduled duration before；

Negative ion concentration adjustment unit 503 is used in the negative ion concentration adjustment time point, by scene where user Negative ion concentration is adjusted to the first negative ion concentration corresponding to the first sleep state.

Preferably, first sleep state is to have sleepiness state, shallowly sleep state, gently sleep state, deep sleep or extreme Deep sleep.

Preferably, the described first dormant determining factor includes the head of user in pillow top dynamic frequency.

Preferably, when the head dynamic frequency is in first frequency range, user, which is in, gently sleeps state；

When the head dynamic frequency is in second frequency range, user is in deep sleep；

When the head dynamic frequency is in third frequency range, user is in extreme deep sleep state；

Wherein, the frequency of first frequency range, the frequency of second frequency range, the frequency of third frequency range successively subtract It is small.

Preferably, when the user is in light sleep state, corresponding user's head moves frequency in the head of the same area Rate be 1-2 times/30 minutes, and in total head dynamic frequency of different zones less than 3 times/30 minutes and user's head in pillow The frequency of up conversion position was less than 2 times/30 minutes, corresponding first negative ion concentration are as follows: total negative ion concentration is 8000- 12000/cubic centimetre, small particle negative ion concentration are 5000-8000/cubic centimetre；

When the user is in deep sleep state, the head of corresponding user is in the head dynamic frequency of the same area 1 time/30 minutes, and frequency of the user's head in pillow up conversion position is 0 time/30 minutes, corresponding first negative ion concentration Are as follows: total negative ion concentration is 12000-15000/cubic centimetre, and small particle negative ion concentration is 8000-10000/cubes lis Rice；

When the user is in extreme deep sleep state, frequency is moved in the head of the same area in the head of corresponding user Rate is 0 time/30 minutes, and frequency of the user's head in pillow up conversion position is 0 time/30 minutes, corresponding first anion Concentration are as follows: total negative ion concentration is 15000-20000/cubic centimetre, small particle negative ion concentration is 12000-15000/ Cubic centimetre；

Wherein, the small particle anion is that mobility is less than 0.04cm2/ (V`s).

Preferably, the historical data acquiring unit includes:

Time point obtains subelement, enters first for the user in the first predetermined period before obtaining current time and sleeps The time point of dormancy state；

Weight determines subelement, for determining weight according to the time point of acquisition and the interval duration of current time, and works as The interval duration of preceding time is shorter, and weight is higher；

Computation subunit, for according to acquisition time point and corresponding weight, the first sleep state institute is calculated Corresponding first time point.

Preferably, described device further include:

Second scheduled duration determination unit, the feedback result for being repaired according to user's sleep are determining to be mutually suitable for user The second scheduled duration.

Sleep state prosthetic device described in Fig. 5 based on negative ion concentration, with sleeping based on negative ion concentration described in Fig. 1 Dormancy state restorative procedure is corresponding, so here is no more repetition.

Fig. 6 is the schematic diagram for the sleep dynamic restoring equipment based on negative ion concentration that one embodiment of the application provides.Such as Shown in Fig. 6, the sleep dynamic restoring equipment 6 based on negative ion concentration of the embodiment include: processor 60, memory 61 and It is stored in the computer program 62 that can be run in the memory 61 and on the processor 60, such as based on negative ion concentration Sleep dynamic restoring program.The processor 60 is realized above-mentioned each dense based on anion when executing the computer program 62 Step in the sleep dynamic restoring embodiment of the method for degree, such as step 101 shown in FIG. 1 is to 103.Alternatively, the processor The function of each module/unit in above-mentioned each Installation practice, such as mould shown in Fig. 5 are realized when the 60 execution computer program 62 The function of block 501 to 503.

Illustratively, the computer program 62 can be divided into one or more module/units, it is one or Multiple module/units are stored in the memory 61, and are executed by the processor 60, to complete the application.Described one A or multiple module/units can be the series of computation machine program instruction section that can complete specific function, which is used for Implementation procedure of the computer program 62 in the sleep dynamic restoring equipment 6 based on negative ion concentration is described.For example, The computer program 62 can be divided into historical data acquiring unit, negative ion concentration adjustment time point determination unit and bear Ion concentration adjustment unit, each unit concrete function are as follows:

Historical data acquiring unit, for obtaining the first sleep shape in the first predetermined period before user's current time The corresponding relationship of state and first time point；

Negative ion concentration adjustment time point determination unit, for pair according to first sleep state and first time point Before should being related to that determining negative ion concentration adjustment time point, the negative ion concentration adjustment time point are the first time point on the same day The second scheduled duration starting point corresponding to time point；

Negative ion concentration adjustment unit is used in the negative ion concentration adjustment time point, by the negative of scene where user Ion concentration is adjusted to the first negative ion concentration corresponding to the first sleep state.

The sleep dynamic restoring equipment 6 based on negative ion concentration can be directly arranged in bedding setting, be led to It crosses.The sleep dynamic restoring equipment based on negative ion concentration may include, but be not limited only to, processor 60, memory 61.This Field technical staff is appreciated that Fig. 6 is only based on the example of the sleep dynamic restoring equipment 6 of negative ion concentration, not structure The restriction of sleep dynamic restoring equipment 6 based on negative ion concentration in pairs may include components more more or fewer than diagram, or Person combines certain components or different components, such as the sleep dynamic restoring equipment based on negative ion concentration can be with Including input-output equipment, network access equipment, bus etc..

Alleged processor 60 can be central processing unit (Central Processing Unit, CPU), can also be Other general processors, digital signal processor (Digital Signal Processor, DSP), specific integrated circuit (Application Specific Integrated Circuit, ASIC), ready-made programmable gate array (Field- Programmable Gate Array, FPGA) either other programmable logic device, discrete gate or transistor logic, Discrete hardware components etc..General processor can be microprocessor or the processor is also possible to any conventional processor Deng.

The memory 61 can be the storage inside list of the sleep dynamic restoring equipment 6 based on negative ion concentration Member, such as the memory of the sleep dynamic restoring equipment 6 based on negative ion concentration.The memory 61 is also possible to described based on negative The External memory equipment of the sleep dynamic restoring equipment 6 of ion concentration, such as the sleep dynamic based on negative ion concentration are repaired The intelligent memory card (Smart Media Card, SMC) being equipped in multiple equipment 6, secure digital (Secure Digital, SD) Card, flash card (Flash Card) etc..Further, the memory 61 can also both include described based on negative ion concentration The internal storage unit for dynamic restoring equipment 6 of sleeping also includes External memory equipment.The memory 61 by store it is described based on Other programs and data needed for calculation machine program and the sleep dynamic restoring equipment based on negative ion concentration.The storage Device 61 can be also used for temporarily storing the data that has exported or will export.

It is apparent to those skilled in the art that for convenience of description and succinctly, only with above-mentioned each function Can unit, module division progress for example, in practical application, can according to need and by above-mentioned function distribution by different Functional unit, module are completed, i.e., the internal structure of described device is divided into different functional unit or module, more than completing The all or part of function of description.Each functional unit in embodiment, module can integrate in one processing unit, can also To be that each unit physically exists alone, can also be integrated in one unit with two or more units, it is above-mentioned integrated Unit both can take the form of hardware realization, can also realize in the form of software functional units.In addition, each function list Member, the specific name of module are also only for convenience of distinguishing each other, the protection scope being not intended to limit this application.Above system The specific work process of middle unit, module, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, is not described in detail or remembers in some embodiment The part of load may refer to the associated description of other embodiments.

Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed Scope of the present application.

In embodiment provided herein, it should be understood that disclosed device/terminal device and method, it can be with It realizes by another way.For example, device described above/terminal device embodiment is only schematical, for example, institute The division of module or unit is stated, only a kind of logical function partition, there may be another division manner in actual implementation, such as Multiple units or components can be combined or can be integrated into another system, or some features can be ignored or not executed.Separately A bit, shown or discussed mutual coupling or direct-coupling or communication connection can be through some interfaces, device Or the INDIRECT COUPLING or communication connection of unit, it can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated module/unit be realized in the form of SFU software functional unit and as independent product sale or In use, can store in a computer readable storage medium.Based on this understanding, the application realizes above-mentioned implementation All or part of the process in example method, can also instruct relevant hardware to complete, the meter by computer program Calculation machine program can be stored in a computer readable storage medium, the computer program when being executed by processor, it can be achieved that on The step of stating each embodiment of the method.Wherein, the computer program includes computer program code, the computer program Code can be source code form, object identification code form, executable file or certain intermediate forms etc..Computer-readable Jie Matter may include: can carry the computer program code any entity or device, recording medium, USB flash disk, mobile hard disk, Magnetic disk, CD, computer storage, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), electric carrier signal, telecommunication signal and software distribution medium etc..It should be noted that described The content that computer-readable medium includes can carry out increasing appropriate according to the requirement made laws in jurisdiction with patent practice Subtract, such as in certain jurisdictions, according to legislation and patent practice, computer-readable medium do not include be electric carrier signal and Telecommunication signal.

Embodiment described above is only to illustrate the technical solution of the application, rather than its limitations；Although referring to aforementioned reality Example is applied the application is described in detail, those skilled in the art should understand that: it still can be to aforementioned each Technical solution documented by embodiment is modified or equivalent replacement of some of the technical features；And these are modified Or replacement, the spirit and scope of each embodiment technical solution of the application that it does not separate the essence of the corresponding technical solution should all Comprising within the scope of protection of this application.

Claims (10)

1. a kind of sleep dynamic restoring method based on negative ion concentration, which is characterized in that the described method includes:

The corresponding relationship of the first sleep state in the first predetermined period before acquisition user's current time and first time point；

Negative ion concentration adjustment time point is determined according to the corresponding relationship of first sleep state and first time point, it is described negative Time point corresponding to starting point of the ion concentration adjustment time point for the second scheduled duration before the first time point on the same day；

In the negative ion concentration adjustment time point, the negative ion concentration of scene where user is adjusted to the first sleep state institute Corresponding first negative ion concentration.

2. the sleep dynamic restoring method according to claim 1 based on negative ion concentration, which is characterized in that described first Sleep state is gently to sleep state, deep sleep or extreme deep sleep.

3. the sleep state restorative procedure according to claim 2 based on negative ion concentration, which is characterized in that described first Dormant determining factor includes the head of user in pillow top dynamic frequency.

4. the sleep state restorative procedure according to claim 3 based on negative ion concentration, which is characterized in that when the head When dynamic frequency is in first frequency range, user, which is in, gently sleeps state；

When the head dynamic frequency is in second frequency range, user is in deep sleep；

When the head dynamic frequency is in third frequency range, user is in extreme deep sleep state；

Wherein, the frequency of first frequency range, the frequency of second frequency range, the frequency of third frequency range are sequentially reduced.

5. the sleep state restorative procedure according to claim 2 based on negative ion concentration, which is characterized in that the user When in light sleep state, corresponding user's head is 1-2 times/30 minutes in the head dynamic frequency of the same area, and in not same district Total head dynamic frequency in domain less than 3 times/30 minutes and user's head pillow up conversion position frequency less than 2 times/30 points Clock, corresponding first negative ion concentration are as follows: total negative ion concentration is 8000-12000/cubic centimetre, and small particle anion is dense Degree is 5000-8000/cubic centimetre；

When the user is in deep sleep state, the head of corresponding user the head dynamic frequency of the same area be 1 time/ 30 minutes, and frequency of the user's head in pillow up conversion position is 0 time/30 minutes, corresponding first negative ion concentration are as follows: total Negative ion concentration is 12000-15000/cubic centimetre, and small particle negative ion concentration is 8000-10000/cubic centimetre；

When the user is in extreme deep sleep state, the head of corresponding user is in the head dynamic frequency of the same area 0 time/30 minutes, and frequency of the user's head in pillow up conversion position is 0 time/30 minutes, corresponding first negative ion concentration Are as follows: total negative ion concentration is 15000-20000/cubic centimetre, and small particle negative ion concentration is 12000-15000/cubes Centimetre；

Wherein, the small particle anion is that mobility is less than 0.04cm2/ (V`s).

6. the sleep state restorative procedure according to claim 1 based on negative ion concentration, which is characterized in that the acquisition The step of the first sleep state in the first predetermined period before user's current time and the corresponding relationship of first time point, wraps It includes:

The user in the first predetermined period before obtaining current time entered for the first dormant time point；

Weight is determined according to the interval duration of the time point of acquisition and current time, power shorter with the interval duration of current time It is worth higher；

According to the time point of acquisition and corresponding weight, first time point corresponding to the first sleep state is calculated.

7. the sleep state restorative procedure according to claim 1 based on negative ion concentration, which is characterized in that the method Further include:

According to the feedback result that user's sleep is repaired, determining and suitable second scheduled duration of user.

8. a kind of sleep dynamic repairing device based on negative ion concentration, which is characterized in that described device includes:

Historical data acquiring unit, for obtain the first sleep state in the first predetermined period before user's current time with The corresponding relationship of first time point；

Negative ion concentration adjustment time point determination unit, for being closed according to first sleep state is corresponding with first time point It is the determined before negative ion concentration adjustment time point, the negative ion concentration adjustment time point are the first time point on the same day Time point corresponding to the starting point of two scheduled durations；

Negative ion concentration adjustment unit is used in the negative ion concentration adjustment time point, by the anion of scene where user Concentration is adjusted to the first negative ion concentration corresponding to the first sleep state.

9. a kind of sleep dynamic restoring equipment based on negative ion concentration, including memory, processor and it is stored in described deposit In reservoir and the computer program that can run on the processor, which is characterized in that the processor executes the computer The step of sleep dynamic restoring method as described in any one of claim 1 to 7 based on negative ion concentration is realized when program.

10. a kind of computer readable storage medium, the computer-readable recording medium storage has computer program, and feature exists In realization sleeping based on negative ion concentration as described in any one of claim 1 to 7 when the computer program is executed by processor The step of dormancy dynamic restoring method.