CN106361330B - Hypnosis recognition methods and system in intelligent assisting sleep - Google Patents

Abstract

The present invention relates to the hypnosis recognition methods and system in a kind of intelligent assisting sleep, which comprises in intelligent assisting sleep, plays hypnosis introducer to user, detects the electro-ocular signal of user and obtain corresponding electro-ocular signal waveform diagram；It is playing in the first time period after hypnosis introducer, is determining that user is currently at first order hypnosis depth state if the amplitude of electro-ocular signal waveform diagram is not above height threshold using the mobile detection electro-ocular signal waveform diagram of preset detection window；Arm is played to user and lifts order, is lifted in the second time period after order playing arm, and the action signal for the acceleration transducer detection customer responsiveness being fixed on user's arm is utilized；If acceleration transducer, which is not exported, lifts the corresponding action signal of order with arm in second time period, then determine that user is currently at the hypohypnosis stage.The present invention can be improved identification accuracy, and improve recognition efficiency.

Description

Hypnosis recognition methods and system in intelligent assisting sleep

Technical field

The present invention relates to assisting sleep technical fields, identify more particularly to the hypnosis in a kind of intelligent assisting sleep Method and system.

Background technique

In sleep, human body has carried out the process self loosened and restored.Therefore good sleep is to maintain health A primary condition.But due to operating pressure is big, daily life system is irregular etc., result in the sleep matter of part population It measures not good enough, shows as that insomnia, midnight wakes up with a start.

Intelligent assisting sleep is a kind of sleep method of combination modern science and technology, after subject enters hypnosis, by Hint property significantly improves, and close inductive relationship can be kept with hypnotist, can be not added and critically receive its hint instruction.By hypnosis When art is applied to assisting sleep, after hypnotist is by the hypnosis of hypnotist institute, hypnotist, which issues SLEEP instruction, can make hypnotic Into sleep state.It is smaller based on side effect of the magnetic assisting sleep to body compared with pharmaceutical intervention (hypnotic), than Relatively it is suitble to daily use.

In intelligent assisting sleep, how accurately to identify that hypnosis depth is key factor, is needed in different hypnosis depth Different hypnosis strategies is carried out, guidance user enters sleep, at present for hypnosis depth, can be generally divided into, hypnosis depth It may be generally divided into three phases and six grades: hypohypnosis (1-2 grades), moderate hypnosis (3-4 grades) and depth hypnosis (5-6) Grade.For the hypnosis depth of each grade, there is corresponding judgment criteria, it is special according to the movement of hypnotic showed Sign is judged, and for hypohypnosis, correctly identification is to execute the premise of next stage hypnosis, but this generally requires and urges Dormancy teacher just can be carried out judgement according to enough experiences, then be difficult to judge for general user, while these sensible formats identify Hypnosis depth, accuracy be difficult to ensure, low efficiency.

Summary of the invention

Based on this, it is necessary in view of the above-mentioned problems, provide a kind of hypnosis recognition methods in intelligent assisting sleep and System can relatively accurately identify the hypnosis depth of user, effectively improve assisting sleep effect.

It is a kind of intelligence assisting sleep in hypnosis recognition methods, comprising:

In intelligent assisting sleep, hypnosis introducer is played to user, detects the electro-ocular signal of the user and acquisition pair The electro-ocular signal waveform diagram answered；

It is playing in the first time period after hypnosis introducer, is detecting the eye telecommunications using preset detection window is mobile Number waveform diagram, if the amplitude of the electro-ocular signal waveform diagram is not above the height threshold of the detection window, determine described in User is currently at first order hypnosis depth state；Wherein, the detection window includes the detection window length and height of setting Threshold value；

Arm is played to user and lifts order, is lifted in the second time period after order playing arm, using being fixed on The action signal of acceleration transducer detection customer responsiveness on user's arm；

If in the second time period, the acceleration transducer does not export that lift order with the arm corresponding Action signal then determines that the user is currently at the hypohypnosis stage.

It is a kind of intelligence assisting sleep in hypnosis identifying system, comprising:

Electro-ocular signal waveform diagram obtains module, for playing hypnosis introducer, detection to user in intelligent assisting sleep The electro-ocular signal of the user simultaneously obtains corresponding electro-ocular signal waveform diagram；

First hypnosis depth recognition module, for playing in the first time period after hypnosis introducer, utilization is preset Detection window is mobile to detect the electro-ocular signal waveform diagram, if the amplitude of the electro-ocular signal waveform diagram is not above the detection The height threshold of window then determines that the user is currently at first order hypnosis depth state；Wherein, the detection window includes The detection window length and height threshold of setting；

Action signal detection module is reacted, order is lifted for playing arm to user, after playing arm and lifting order Second time period in, utilize be fixed on user's arm acceleration transducer detection customer responsiveness action signal；

Second hypnosis depth recognition module, if in the second time period, the acceleration transducer not to be defeated The corresponding action signal of order is lifted with the arm out, then determines that the user is currently at the hypohypnosis stage.

Hypnosis recognition methods and system in above-mentioned intelligence assisting sleep are led to during playing hypnosis introducer It crosses the electro-ocular signal of detection user and is identified using detection window, after identifying first order hypnosis depth, utilize acceleration The arm action signal of sensor senses user, thus action signal finally determines that user is in the hypohypnosis stage, can Identification accuracy is improved, and improves recognition efficiency, provides good reference for execution next stage hypnosis.

Detailed description of the invention

Fig. 1 is the flow chart of the hypnosis recognition methods in the intelligent assisting sleep of one embodiment；

Fig. 2 is an electro-ocular signal waveform diagram；

Fig. 3 is electro-ocular signal waveform spike area schematic diagram in detection window；

Fig. 4 is the hypnosis identifying system structural schematic diagram in the intelligent assisting sleep of one embodiment.

Specific embodiment

The hypnosis recognition methods in intelligent assisting sleep of the invention and the implementation of system are illustrated with reference to the accompanying drawing Example.

Refering to what is shown in Fig. 1, Fig. 1 is the process of the hypnosis recognition methods in the intelligent assisting sleep of one embodiment Figure, comprising:

S10 plays hypnosis introducer to user, detects the electro-ocular signal of the user and obtain in intelligent assisting sleep Take corresponding electro-ocular signal waveform diagram；

In this step, usually user carries out intelligent assisting sleep in the case where not sleeping, plays hypnosis to user Introducer detects the electro-ocular signal of user using related device to carry out Sleep intervention to user, and draws corresponding eye electricity Signal waveforms.

In one embodiment, after detecting electro-ocular signal, using data processing equipment, when m- amplitude coordinate system on draw Make corresponding electro-ocular signal waveform diagram；Coordinate system can be using the time as horizontal axis, using electro-ocular signal amplitude as the longitudinal axis.

In one embodiment, before playing hypnosis introducer to user, also the sleep state of user is detected, When detecting that user is non-asleep state, restart hypnosis intervention and identification process.

I.e. before the electro-ocular signal for detecting the user, the brain telecommunications that user generates during intelligent assisting sleep is acquired Number；It is detected according to sleep state of the EEG signals to user, when the user is in non-asleep state, described in execution The step of playing hypnosis introducer to user.

S20 is being played in the first time period after hypnosis introducer, detects the eye using preset detection window is mobile Electric signal waveform figure determines if the amplitude of the electro-ocular signal waveform diagram is not above the height threshold of the detection window The user is currently at first order hypnosis depth state；Wherein, the detection window include setting detection window length and Height threshold；

In this step, after playing hypnosis introducer and being intervened, detection is utilized in setting time (generally taking 30s) Temporally axis direction is mobile for window, mobile detection electro-ocular signal waveform diagram, to detect eyelid activity condition, when electro-ocular signal waveform The amplitude of figure is not above the height threshold, i.e., does not detect that the electro-ocular signal waveforms amplitude fluctuating range in window is more than Height threshold then determines that the user is currently at first order hypnosis depth state.

In one embodiment, it for the selection of detection window, needs to be arranged detection window length and height threshold, that is, exists The detection window moved along time-axis direction is established when described on m- amplitude coordinate system, and according to blink speed and electro-ocular signal The detection window length and height threshold is arranged in amplitude.

The method being specifically arranged may include as follows:

(a) under normal circumstances, count the user repeatedly blink in quickly eye closing movement (blink, i.e. winking reflex) Time；The blink speed of the user is obtained according to the time of the statistics；

(b) count the user repeatedly blink in electro-ocular signal amplitude maximum value or minimum value；According to the eye electricity The maximum value or minimum value of signal amplitude obtain the electro-ocular signal amplitude of the user；

(c) detection window length is arranged according to the blink speed, and is arranged according to the electro-ocular signal amplitude The height threshold.

In one embodiment, if the blink speed is [Ta, Tb], then the detection window length value >=2Ta；If The electro-ocular signal amplitude is M, then the height threshold value≤0.7M.

For example, refering to what is shown in Fig. 2, Fig. 2 is an electro-ocular signal waveform diagram, when the blink speed of calculating is 0.3s- 0.4s, electro-ocular signal amplitude are 200uV, then detection window length can be set to 0.6s, and height threshold can be set to 140uV.

In one embodiment, it is contemplated that electro-ocular signal waveform is the important feature of judgement blink, when waveform judges, is held Easily receive extraneous interference.Therefore, if only relying upon time and amplitude judgement, it is easy to cause erroneous judgement, it therefore, can be further Waveform acuity is judged, to improve identification accuracy.

I.e. when the amplitude for detecting electro-ocular signal waveform diagram is more than the height threshold, eye telecommunications in detection window is calculated The acuity parameter of number waveform spike determines institute if the acuity parameter is less than preset acuity parameter threshold It states user and is currently at first order hypnosis depth state.

In one embodiment, calculate detection window in electro-ocular signal waveform spike acuity parameter, may include It is as follows:

(a) upper area area and lower area area of the electro-ocular signal waveform in detection window are calculated separately, is calculated Formula is as follows:

In formula, p_iFor the electro-ocular signal in detection window, p_maxFor the maximum value of electro-ocular signal in detection window, p_minFor inspection Survey the minimum value of electro-ocular signal in window, area_upIndicate upper area area, area_downIndicate lower area area；

(b) area of the electro-ocular signal waveform spike according to the upper area area and lower area areal calculation, Calculation formula is as follows:

In formula, blink_areaIndicate the area of spike, if expression meets condition；

Refering to what is shown in Fig. 3, Fig. 3 is electro-ocular signal waveform spike area schematic diagram in detection window, the spike in two kinds of directions For upper and lower part region area as shown, left figure spike direction is upward, the spike direction of right figure is downward.

(c) according to spike areal calculation acuity parameter, calculation formula is as follows:

blink_ratio=blink_area/in-blink_area

In formula, blink_ratioIndicate acuity parameter, in-blink_areaIndicate the area of non-peak portion, it is sharp here It is ratio between upper area area and lower area area that sharp extent index, which can also be converted into,.

S30 plays arm to user and lifts order, lifts in the second time period after order playing arm, using admittedly It is scheduled on the action signal of the acceleration transducer detection customer responsiveness on user's arm；

In this step, after detecting first order hypnosis depth, arm is played to user and lifts order, carries out the first order Hypnosis depth detection detects the case where big muscles of user are steered by hint, utilizes acceleration transducer, detects arm Action signal.

S40, if the acceleration transducer, which is not exported, lifts order pair with the arm in the second time period The action signal answered then determines that the user is currently at the hypohypnosis stage；

In this step, if acceleration transducer is lifted in second time period (generally taking 10s) without output and arm Play the corresponding action signal of order, for example, or corresponding sports feel the action signal that the rhythm and pace of moving things or other arm actions generate, can be with Think that user reaches second level hypnosis depth, so as to determine that user is currently at the hypohypnosis stage.

Scheme based on the above embodiments, during playing hypnosis introducer, by detecting the electro-ocular signal of user simultaneously It is identified using detection window, after identifying first order hypnosis depth, the arm using acceleration transducer detection user is dynamic Make signal, thus action signal finally determines that user is in the hypohypnosis stage, can be improved identification accuracy, and improve Recognition efficiency provides good reference for execute next stage hypnosis.

Refering to what is shown in Fig. 4, Fig. 4 is the hypnosis identifying system structural representation in the intelligent assisting sleep of one embodiment Figure, comprising:

Electro-ocular signal waveform diagram obtains module 10, for playing hypnosis introducer, inspection to user in intelligent assisting sleep It surveys the electro-ocular signal of the user and obtains corresponding electro-ocular signal waveform diagram；

First hypnosis depth recognition module 20, for playing in the first time period after hypnosis introducer, using default Detection window it is mobile detect the electro-ocular signal waveform diagram, if the amplitude of the electro-ocular signal waveform diagram is not above the inspection The height threshold for surveying window, then determine that the user is currently at first order hypnosis depth state；Wherein, the detection window packet Include the detection window length and height threshold of setting；

Action signal detection module 30 is reacted, lifts order for playing arm to user, lifts order playing arm In second time period afterwards, the movement using the acceleration transducer detection customer responsiveness being fixed on user's arm is believed Number；

Second hypnosis depth recognition module 40, if in the second time period, the acceleration transducer not to have Output lifts the corresponding action signal of order with the arm, then determines that the user is currently at the hypohypnosis stage.

Hypnosis identifying system in intelligent assisting sleep of the invention and urging in intelligent assisting sleep of the invention Dormancy state identification method corresponds, the skill that the embodiment of the hypnosis recognition methods in above-mentioned intelligent assisting sleep illustrates In the embodiment of the hypnosis identifying system of art feature and its advantages suitable for intelligent assisting sleep, sound hereby It is bright.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (9)

1. the hypnosis identifying system in a kind of intelligence assisting sleep characterized by comprising

Electro-ocular signal waveform diagram obtains module, in intelligent assisting sleep, hypnosis introducer is played to user, described in detection The electro-ocular signal of user simultaneously obtains corresponding electro-ocular signal waveform diagram；

First hypnosis depth recognition module utilizes preset detection for playing in the first time period after hypnosis introducer Window is mobile to detect the electro-ocular signal waveform diagram, if the amplitude of the electro-ocular signal waveform diagram is not above the detection window Height threshold, then determine that the user is currently at first order hypnosis depth state；Wherein, the detection window includes setting Detection window length and height threshold；

React action signal detection module, lift order for playing arm to user, play arm lift after order the In two periods, the action signal for the acceleration transducer detection customer responsiveness being fixed on user's arm is utilized；

Second hypnosis depth recognition module, if in the second time period, the acceleration transducer do not export with The arm lifts the corresponding action signal of order, then determines that the user is currently at the hypohypnosis stage.

2. the hypnosis identifying system in intelligence assisting sleep according to claim 1, which is characterized in that the eye electricity Signal waveforms obtain module and are also used to, when m- amplitude coordinate system on draw the electro-ocular signal waveform diagram；Described first urges Dormancy depth recognition module is also used to, and establishes the detection window moved along time-axis direction on m- amplitude coordinate system when described, and According to blink speed and electro-ocular signal amplitude, the detection window length and height threshold are set.

3. the hypnosis identifying system in intelligence assisting sleep according to claim 1, which is characterized in that further include using Family state detection module, the EEG signals generated during intelligent assisting sleep for acquiring user, according to the brain telecommunications Number the sleep state of user is detected, when the user is in non-asleep state, executes and described play hypnosis to user and draws The step of introductory word.

4. the hypnosis identifying system in intelligence assisting sleep according to claim 2, which is characterized in that the basis The step of detection window length and height threshold is arranged in blink speed and electro-ocular signal amplitude include:

Under normal circumstances, count the user repeatedly blink in quickly eye closing movement time；According to the statistics when Between obtain the blink speed of the user；

Count the user repeatedly blink in electro-ocular signal amplitude maximum value or minimum value；According to the electro-ocular signal amplitude Maximum value or minimum value obtain the electro-ocular signal amplitude of the user；

The detection window length is set according to the blink speed, and the height is arranged according to the electro-ocular signal amplitude Threshold value.

5. the hypnosis identifying system in intelligence assisting sleep according to claim 1, which is characterized in that if the eye The amplitude of electric signal waveform figure is more than the height threshold, further includes:

The acuity parameter of electro-ocular signal waveform spike in detection window is calculated, if the acuity parameter is less than preset Acuity parameter threshold determines that the user is currently at first order hypnosis depth state.

6. the hypnosis identifying system in intelligence assisting sleep according to claim 5, which is characterized in that the calculating The step of acuity parameter of electro-ocular signal waveform spike, includes: in detection window

Calculate separately upper area area and lower area area of the electro-ocular signal waveform in detection window；

According to the area of electro-ocular signal waveform spike described in the upper area area and lower area areal calculation；

According to spike areal calculation acuity parameter.

7. the hypnosis identifying system in intelligence assisting sleep according to claim 6, which is characterized in that the top The calculation formula of region area and lower area area is as follows:

In formula, p_iFor the electro-ocular signal in detection window, p_maxFor the maximum value of electro-ocular signal in detection window, p_minTo detect window The minimum value of electro-ocular signal, area in mouthful_upIndicate upper area area, area_downIndicate lower area area；

The calculation formula of the area of the electro-ocular signal waveform spike is as follows:

In formula, blink_areaIndicate the area of spike, if expression meets condition；

The calculation formula of the acuity parameter is as follows:

blink_ratio=blink_area/in-blink_area

In formula, blink_ratioIndicate acuity parameter, in-blink_areaIndicate the area of non-peak portion, here sharp journey It is ratio between upper area area and lower area area that degree parameter, which can also be converted into,.

8. the hypnosis identifying system in intelligence assisting sleep according to claim 4, which is characterized in that if described blink Eye speed is [Ta, Tb], then the detection window length value >=2Ta；

If the electro-ocular signal amplitude is M, the height threshold value≤0.7M.

9. the hypnosis identifying system in intelligence assisting sleep according to claim 1, which is characterized in that the broadcasting Setting time after hypnosis introducer is 30s, and the second time period is 10s.