CN105310664A - Respiration guidance system with active physiological feedback mechanism and method of respiration guidance system - Google Patents

Respiration guidance system with active physiological feedback mechanism and method of respiration guidance system Download PDF

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Publication number
CN105310664A
CN105310664A CN201410344313.9A CN201410344313A CN105310664A CN 105310664 A CN105310664 A CN 105310664A CN 201410344313 A CN201410344313 A CN 201410344313A CN 105310664 A CN105310664 A CN 105310664A
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respiratory
instant
daoyin
respiratory waveform
user
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CN105310664B (en
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吴俊熠
浦大钧
郭彦良
何建廷
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HTC Corp
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High Tech Computer Corp
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Abstract

The invention discloses a respiration guidance system with an active physiological feedback mechanism and a method of the respiration guidance system. The respiration guidance system with the active physiological feedback mechanism comprises a physiological status detection device, a processing device, a respiration prompting device and an instant respiration detection module. The physiological status detection device detects instant physiological status information of a user. The processing device generates target respiration waveforms according to the instant physiological status information and preset respiration waveforms so as to further generate control signals. The respiration prompting device generates respiration prompting signals according to the control signals. The instant respiration detection module detects the instant respiration status information of the user. The processing device generates instant respiration waveforms according to the instant respiration status information and preset respiration waveforms and compares the target respiration waveforms with the instant respiration status information so as to generate respiration status prompting signals. Respiration of a user can be rapidly and actively guided to tend to the preset status.

Description

The respiratory daoyin system of tool active biofeedback mechanism and method thereof
Technical field
The invention relates to a kind of respiratory daoyin technology, and relate to respiratory daoyin system and the method thereof of a kind of tool active biofeedback mechanism especially.
Background technology
In industry and commerce society now, be no matter length or operating pressure in man-hour, be often difficult to allow people loosen.Therefore, much collocation Tai Ji, time or the Breathing Method of yoga are often used to the skill allowing people practise breathing expiration and inspiration, reach the object of body and mind relaxing spirit.
But current guidance method, normally unidirectional guiding, user can only receive information passively, and such as, description through viewing file, webpage or application program is learnt some simple steps and sequentially carries out.But whether user viewing picture and text oneself are groped, often cannot know and breathe in the correct way.If the mode mistake of breathing, not only cannot reach the object loosened, more may work the mischief to health.
Therefore, how designing a new respiratory daoyin system and method thereof, to solve the shortcoming of above-mentioned passive type guiding, is an industry problem demanding prompt solution for this reason.
Summary of the invention
The object of the present invention is to provide respiratory daoyin system and the method thereof of a kind of tool active biofeedback mechanism, the promptly breathing of positive guide user is tending towards preset state.
Therefore, an aspect of of the present present invention is in the respiratory daoyin system providing a kind of tool initiatively biofeedback mechanism, comprises: physiological status detector, blood processor, breath prompting device and immediately breathe detecting module.At least one instant physiological state information of physiological status detector detecting user.Blood processor produces target respiratory waveform, to produce control signal further according to instant physiological state information and default respiratory waveform.Breath prompting device produces according to control signal and breathes cue.The instant breathing state information of instant breathing detecting module detecting user.Wherein blood processor also produces instant respiratory waveform according to instant breathing state information and default respiratory waveform, and comparison object respiratory waveform and instant respiratory waveform are to produce breath state cue.
According to one embodiment of the invention, wherein instant physiological state information comprises the health mobile message of user, blood oxygen concentration information, heart beating change information or its combination.
According to another embodiment of the present invention, wherein physiological status detector comprise to detect health mobile message gravity sensor, in order to detect blood oxygen concentration information blood oxygen concentration meter, in order to detect heart beating meter or its combination of heart beating change information.
According to further embodiment of this invention, wherein immediately breathe detecting module and comprise radar wave transceiver module, ultrasound transceiver module or laser transmitting-receiving module, to carry out transmission and the reception of radar wave, ultrasound or laser to user, to detect the instant breathing state information of user.
According to yet another embodiment of the invention, wherein immediately breathe detecting module and comprise radio module, to receive the Breathiness of user, to detect the instant breathing state information of user.
According to the embodiment that the present invention has more, wherein target respiratory waveform and instant respiratory waveform comprise respiratory depth, respiratory frequency or its combination respectively.
According to the embodiment that the present invention has again, wherein breath prompting device is light-source generation device, and breathing cue is tool prompting colour temperature, prompting flicker frequency or its indicating light combined.
According to one embodiment of the invention, wherein breath prompting device is flexible piezoelectric sound-generating devices, and breathing cue is tool prompting intensity, advisory frequency or its single-frequency prompting audio frequency combined or music tip audio frequency.
According to another embodiment of the present invention, wherein blood processor also comprises environment sensor, and in order to sense actual environment status information, blood processor produces according to actual environment status information and instant physiological state information and presets respiratory waveform.
According to further embodiment of this invention, wherein actual environment status information comprises light intensity, temperature, humidity, carbon monoxide content, carbon dioxide content, content of volatile organic compound, content of formaldehyde or its combination.
According to yet another embodiment of the invention, wherein blood processor also produces information according to actual environment status information.
According to yet another embodiment of the invention, wherein blood processor also carries out intelligent environment control according to actual environment status information at least one environmental control system in the environment at blood processor place.
According to the embodiment that the present invention has more, wherein environmental control system is air conditioning system, illuminator or its combination.
According to the embodiment that the present invention has again, wherein blood processor also judges whether the respiratory waveform difference of instant respiratory waveform and default respiratory waveform is less than threshold values, with when respiratory waveform difference is not less than threshold values, produce target respiratory waveform according to respiratory waveform difference.
The embodiment had according to the present invention, wherein blood processor is also in order to receive selection instruction, with select multiple default respiratory waveform one of them.
Therefore, another aspect of the present invention is providing a kind of respiratory daoyin method, and be applied to the respiratory daoyin system of tool active biofeedback mechanism, respiratory daoyin method comprises: by least one instant physiological state information of physiological status detector detecting user.Target respiratory waveform is produced, to produce control signal further according to instant physiological state information and default respiratory waveform by blood processor.Breathing cue is produced according to control signal by breath prompting device; By immediately breathing the instant breathing state information of detecting module detecting user; And produce instant respiratory waveform by blood processor according to instant breathing state information and default respiratory waveform, and comparison object respiratory waveform and instant respiratory waveform are to produce breath state cue.
According to one embodiment of the invention, wherein instant physiological state information comprises the health mobile message of user, blood oxygen concentration information, heart beating change information or its combination.
According to another embodiment of the present invention, wherein breathe the step that detecting module detects instant breathing state information also comprise by instant: transmission and the reception of by immediately breathing detecting module user being carried out to radar wave, ultrasound or laser, to detect the instant breathing state information of user.
According to further embodiment of this invention, the step wherein detecting instant breathing state information by instant breathing detecting module also comprises: the Breathiness receiving user by immediately breathing detecting module, to detect the instant breathing state information of user.
According to yet another embodiment of the invention, wherein target respiratory waveform and instant respiratory waveform comprise respiratory depth, respiratory frequency or its combination respectively.
According to the embodiment that the present invention has more, wherein also comprised by the step of breath prompting device generation breathing cue: produce tool prompting colour temperature, prompting flicker frequency or its indicating light combined by breath prompting device.
The embodiment that foundation the present invention has again, wherein produces the step of breathing cue by breath prompting device and also comprises: produce tool prompting intensity, advisory frequency or its single-frequency prompting audio frequency combined or music tip audio frequency by breath prompting device.
According to another embodiment of the present invention, wherein respiratory daoyin method is also comprised the environment sensor comprised by blood processor and senses actual environment status information; And produce default respiratory waveform by blood processor according to actual environment status information and instant physiological state information.
According to further embodiment of this invention, wherein actual environment status information comprises light intensity, temperature, humidity, carbon monoxide content, carbon dioxide content, content of volatile organic compound, content of formaldehyde or its combination.
According to yet another embodiment of the invention, wherein respiratory daoyin method also comprises by blood processor according to actual environment status information generation information.
According to yet another embodiment of the invention, wherein respiratory daoyin method also comprises and carries out intelligent environment control according to actual environment status information at least one environmental control system in the environment at blood processor place by blood processor.
According to the embodiment that the present invention has more, wherein environmental control system is air conditioning system, illuminator or its combination.
The embodiment had again according to the present invention, wherein respiratory daoyin method also comprises and judges whether the respiratory waveform difference of instant respiratory waveform and default respiratory waveform is less than threshold values by blood processor; And when respiratory waveform difference is not less than threshold values, produce target respiratory waveform by blood processor according to respiratory waveform difference.
The embodiment had according to the present invention, wherein respiratory daoyin method also comprises and receives selection instruction by blood processor, with select multiple default respiratory waveform one of them.
Application the invention has the advantages that by active biofeedback mechanism, the physiologic information and the breath state that immediately obtain user compare, and by the cue such as but not limited to acoustooptic form, promptly guide the breathing of user to be tending towards preset state, and reach above-mentioned object easily.
Accompanying drawing explanation
Fig. 1 is in one embodiment of the invention, a kind of block chart of respiratory daoyin system of tool active biofeedback mechanism;
Fig. 2 is in one embodiment of the invention, a kind of block chart of respiratory daoyin system of tool active biofeedback mechanism; And
Fig. 3 is in one embodiment of the invention, a kind of flow chart of respiratory daoyin method.
Detailed description of the invention
Please refer to Fig. 1.Fig. 1 is in one embodiment of the invention, a kind of block chart of respiratory daoyin system 1 of tool active biofeedback mechanism.Respiratory daoyin system 1 comprises: physiological status detector 10, blood processor 12, breath prompting device 14 and instant breathing detecting module 16.
Physiological status detector 10 detects at least one instant physiological state information 11 of user 18.In different embodiment, physiological status detector 10 can be the specific device of the instant physiological state information 11 of the single kind of detecting.For example, physiological status detector 10 can be such as, but not limited to gravity sensor, blood oxygen concentration meter or heart beating meter.
Wherein, gravity sensor can detect the change of gravity direction, to sense the health mobile message of user 18 as instant physiological state information 11.Health mobile message, in different embodiment, can comprise the direction such as, but not limited to the movement of user 18 health and distance.
Blood oxygen concentration meter can detect the blood oxygen concentration information of user 18 as instant physiological state information 11.Wherein, blood oxygen concentration is blood oxygen saturation (SO 2), be by HbO2 Oxyhemoglobin (HbO that oxygen combines in blood 2) capacity account for the percentage ratio of whole combinative hemoglobin (Hb) capacity, be the important physiological parameter of breath cycle.
Heart beating meter then can detect the pulse of user 18 or heart beating change information as instant physiological state information 11.
In other embodiments, physiological status detector 10 also can be the detector of other types.In part embodiment, physiological status detector 10 also can be comprise above-mentioned each detector at least wherein two, to detect the compound detector of multiple instant physiological state information 11 simultaneously.Further, the visual different detecting mode of physiological status detector 10, to contact or non-contacting form is detected, to obtain instant physiological state information 11.For example, physiological status detector 10 can be and is configured at user 18 Wristwatch type touch monitoring device with it, or and the scan-type noncontact detector that arranges of user 18 interval one specific range.
Blood processor 12, in an embodiment, can be portable electric device such as, but not limited to smart mobile phone or panel computer.Blood processor 12 can pass through wired or wireless transmission means and receives instant physiological state information 11, and produces target respiratory waveform according to the default respiratory waveform (not illustrating) of instant physiological state information 11 and interior storage.In an embodiment, default respiratory waveform can be stored in such as but not limited in the storage unit (not illustrating) in blood processor 12, to be captured by blood processor 12.In an embodiment, the default respiratory waveform of interior storage may correspond to different topics as easypro dormancy, motion, body-building etc.In an embodiment, blood processor 12 also can provide option for user select, choose to receive selection instruction (not illustrating) wherein a kind of topic to produce default respiratory waveform.
In an embodiment, blood processor 12 will be assessed according to instant physiological state information 11, and produce the weighted value of different instant physiological state information 11.In an embodiment, different instant physiological state information 11 is carried out auto-correlation or cross-correlation comparison by blood processor 12, produce time domain correlation coefficient, and and then carried out conversion and produced frequency domain correlation coefficient, then carry out the weight allocation of correspondence according to time domain correlation coefficient and frequency domain correlation coefficient.In an embodiment, blood processor 12, adjusts to produce target respiratory waveform default respiratory waveform via the time domain correlation coefficient after weight allocation and frequency domain correlation coefficient further by above-mentioned.In an embodiment, target respiratory waveform comprises respiratory depth, respiratory frequency or its combination.
Blood processor 12 according to the algorithm of interior storage, calculates according to instant physiological state information 11 and weighted value thereof, to produce the target respiratory waveform of applicable user 18 further.The algorithm of interior storage may correspond to different Breathing Methods, such as but not limited to Tai Ji, time or yoga etc.Wherein, target respiratory waveform can comprise the degree of depth of breathing, frequency or its combination.Then, blood processor 12 produces control signal 13 according to target respiratory waveform.
Breath prompting device 14 produces according to control signal 13 and breathes cue 15.In an embodiment, breath prompting device 14 can be light-source generation device, such as but not limited to light emitting diode (lightemittingdiode; LED) or other can be luminous element.
Light-source generation device according to control signal 13, can produce tool prompting colour temperature, prompting flicker frequency or its indicating light combined, and this prompting colour temperature and/or prompting flicker frequency are relevant to above-mentioned target respiratory waveform.For example, the prompting colour temperature of indicating light can be relevant to the degree of depth of breathing, and needs to deepen, and need to reduce with lower colour temperature prompting respiratory depth such as but not limited to higher colour temperature prompting respiratory depth.The prompting flicker frequency of indicating light then can, with the frequency dependence breathed, need to raise such as but not limited to the frequency of breathing with the prompting of higher flicker frequency, and needs to reduce with the frequency that the prompting of lower flicker frequency is breathed.
Correspond to the degree of depth of breathing and the mode of frequency it is noted that above-mentioned respectively with colour temperature, frequency, be only an example, in other embodiments be can light-source generation device other characteristics parameter correspondence breathe parameter.
In another embodiment, breath prompting device 14 can be flexible piezoelectric sound-generating devices, such as but not limited to speaker, loudspeaker or other elements that can sound.Flexible piezoelectric sound-generating devices according to control signal 13, produce tool prompting intensity, advisory frequency or its single-frequency prompting audio frequency combined or music tip audio frequency, and this prompting intensity and/or advisory frequency can be relevant to above-mentioned target respiratory waveform.
For example, the intensity of prompting audio frequency can be relevant to the degree of depth of breathing, and needs to deepen, and need to reduce with less intensity prompting respiratory depth such as but not limited to pointing out respiratory depth with larger intensity (such as volume).And point out the frequency of audio frequency with the frequency dependence breathed, to need to raise such as but not limited to the frequency of breathing with higher audio prompt, and need to reduce with the frequency that lower audio prompt is breathed.And single-frequency prompting audio frequency can reach prompting user by means of only intensity and frequency and carries out the effect of breathing, and the prompting audio frequency of musical form, the music by various speed, intensity, melody combination realizes, to reach the effect that prompting user carries out breathing.
Correspond to the degree of depth of breathing and the mode of frequency it is noted that above-mentioned with intensity and frequency, be only an example, in other embodiments be can flexible piezoelectric sound-generating devices other characteristics parameter correspondence breathe parameter
User 18, by above-mentioned indicating light or the breathing cue 15 of pointing out audio form, progressively adjusts frequency or the degree of depth of breathing, to meet Respiratory behavior corresponding to above-mentioned target respiratory waveform.
Instant breathing detecting module 16 detects the instant breathing state information 17 of user 18.In an embodiment, instant breathing state information 17 comprises the instant respiratory frequency of user 18, the degree of depth or its combination.
In an embodiment, instant breathing detecting module 16 can comprise such as, but be not limited to radar wave transceiver module, ultrasound transceiver module or laser transmitting-receiving module, to carry out transmission and the reception of radar wave, ultrasound or laser to user 18, to detect the instant breathing state information 17 of user 18.For example, radar wave transceiver module can transmit the chest of radar wave to user 18 of 30 megahertzes, abdominal part or other corresponding can cause the body part of displacement when breathing, with the radar wave reflected by reception, judge the breathing distance of thorax abdomen position according to the time difference received, and judge its degree of depth of breathing and frequency further.
In another embodiment, instant detecting module 16 of breathing can comprise radio module, to receive the Breathiness of user 18, to pass through frequency and the power of Breathiness, judges its degree of depth of breathing and frequency further.
Blood processor 12 also produces instant respiratory waveform according to instant breathing state information 17 and aforesaid default respiratory waveform, and compare the target respiratory waveform produced according to instant physiological state information 11 and the instant respiratory waveform produced according to instant breathing state information 17, to produce breath state cue 19.In an embodiment, instant respiratory waveform, as target respiratory waveform, also comprises respiratory depth, respiratory frequency or its combination.
In an embodiment, breath state cue 19 can show by such as, but not limited to the display module (not illustrating) that blood processor 12 is arranged, and how to proceed adjustment by the interaction content prompting user of diagram or word.In other embodiments, breath state cue 19 also can be sent sound or the cresset of prompting by the speaker that processing module 12 is arranged or light-emitting component (not illustrating), to point out user how to proceed adjustment, or the difference between the breath state of pointing out current breath state and target.
It is noted that in an embodiment, blood processor 12 is before reality produces target respiratory waveform, and whether the respiratory waveform difference can prejudging instant respiratory waveform and default respiratory waveform is less than threshold values.When respiratory waveform difference is less than threshold values, represent that the breath state of user is approximately consistent with desirable breath state.Therefore, blood processor 12 can not need to produce target respiratory waveform again.And when respiratory waveform difference is not less than threshold values, comparatively greatly, blood processor 12 can produce target respiratory waveform according to respiratory waveform difference again for the breath state of expression user and the gap of desirable breath state.
Therefore, application the invention has the advantages that by active biofeedback mechanism, the physiologic information and the breath state that immediately obtain user compare, and stimulated by the cue such as but not limited to acoustooptic form, promptly guide the breathing of user to tend towards stability, and reach above-mentioned object easily.
Please refer to Fig. 2.Fig. 2 is in one embodiment of the invention, a kind of block chart of respiratory daoyin system 2 of tool active biofeedback mechanism.The element that the respiratory daoyin system 1 that respiratory daoyin system 2 and Fig. 1 illustrate comprises is similar, comprising: physiological status detector 10, blood processor 12, breath prompting device 14 and instant breathing detecting module 16.Therefore, it is no longer repeated for identical element.
In the present embodiment, the blood processor 12 of respiratory daoyin system 2 also comprises environment sensor 20.Environment sensor 20 can the actual environment status information 21 of environment residing for sensing treatment device 12, to produce preset respiratory waveform to make blood processor 12 according to actual environment status information 21 and instant physiological state information 11.Wherein, actual environment status information 21 can comprise light intensity in the environment at blood processor 12 place, temperature, humidity, carbon monoxide content, carbon dioxide content, content of volatile organic compound, content of formaldehyde or its combination.
Further, after acquisition actual environment status information 21, blood processor 12 also optionally produces information (not illustrating), such as but not limited to sound, image or its form combined, to inform the situation of user environment.For example, when the temperature of environment is too high, blood processor 12 can produce the unusual condition of voice or image notice user temperature according to captured actual environment status information 21.
In another embodiment, after acquisition actual environment status information 21, blood processor 12 also optionally carries out intelligent environment control according to the environmental control system (not illustrating) in the environment at actual environment status information 21 pairs of blood processor 12 places.Wherein, above-mentioned environmental control system can comprise such as but not limited to air conditioning system, illuminator or its combination.
Use in situation in one, environmental abnormality is detected and inapt situation according to actual environment status information 21 at blood processor 12, the situation of the tool physiological stimulations such as the too high or too dark brightness of such as temperature, after first controlling to make Environmental adjustments arrive suitable situation by intelligent environment, carry out the detecting of user respiratory waveform again, carry out correct breathing to guide user under suitable environment.
Please refer to Fig. 3.Fig. 3 is in one embodiment of the invention, a kind of flow chart of respiratory daoyin method 300.Respiratory daoyin method 300 can be applicable to respiratory daoyin system 2 as shown in Figure 2.Respiratory daoyin method 300 comprises the following step (should be appreciated that, step mentioned in the present embodiment, except chatting its order person bright especially, all can adjust its tandem according to actual needs, even can perform simultaneously or partly simultaneously).
In step 301, received the selection instruction of user by blood processor 12, to select a kind of topic.
In step 302, detected the instant physiological state information 11 of user by physiological status detector 10.Wherein, the number of instant physiological state information 11 can be one or more.
In step 303, detect actual environment status information 21 by the environment sensor 20 of blood processor 12.
In step 304, judge that whether user environment is suitable by blood processor 12 according to actual environment status information 21.
When user environment is undesirable, flow process in step 305, will be carried out intelligent environment by blood processor 12 and controls, and is back to step 302 continuation sensing.
When user environment is suitable, flow process will proceed to step 306, the topic selected by step 301, produce preset respiratory waveform according to actual environment status information 21 and instant physiological state information 11.
In step 307, detect the instant breathing state information 17 of user by immediately breathing detecting module 16, and produce instant respiratory waveform by blood processor 12 according to instant breathing state information 17 and default respiratory waveform.
In step 308, judge whether the respiratory waveform difference of instant respiratory waveform and default respiratory waveform is less than threshold values.
When respiratory waveform difference is less than threshold values, flow process will be back to step 302, again to detect instant physiological state information 11.And when respiratory waveform difference is not less than threshold values, flow process in step 309, will produce target respiratory waveform by blood processor 12 according to respiratory waveform difference, to produce control signal 13 further in step 310.
In step 311, produce breathing cue 15 by breath prompting device 14 according to control signal 13.
Although content of the present invention discloses as above with embodiment; so itself and be not used to limit content of the present invention; anyly be familiar with this those skilled in the art; in the spirit and scope not departing from content of the present invention; when being used for a variety of modifications and variations, the scope that therefore protection domain of content of the present invention ought define depending on appending claims is as the criterion.

Claims (29)

1. a respiratory daoyin system for tool active biofeedback mechanism, is characterized in that, comprise:
One physiology state detecting device, in order to detect at least one instant physiological state information of a user;
One blood processor, produces a target respiratory waveform, to produce a control signal further in order to preset respiratory waveform according to this instant physiological state information and one;
One breath prompting device, breathes cue in order to produce one according to this control signal; And
One breathes detecting module immediately, in order to detect this user one instant breathing state information;
Wherein this blood processor also produces an instant respiratory waveform according to this instant breathing state information and this default respiratory waveform, and compares this target respiratory waveform and this instant respiratory waveform to produce a breath state cue.
2. the respiratory daoyin system of tool according to claim 1 initiatively biofeedback mechanism, is characterized in that, this instant physiological state information comprise this user a health mobile message, a blood oxygen concentration information, wholeheartedly jump change information or its combination.
3. the respiratory daoyin system of tool active biofeedback mechanism according to claim 2, it is characterized in that, this physiological status detector comprise to detect this health mobile message a gravity sensor, in order to detect this blood oxygen concentration information a blood oxygen concentration meter, in order to detect a heart beating meter or its combination of this heart beating change information.
4. the respiratory daoyin system of tool active biofeedback mechanism according to claim 1, it is characterized in that, this is immediately breathed detecting module and comprises a radar wave transceiver module, a ultrasound transceiver module or a laser transmitting-receiving module, to carry out transmission and the reception of a radar wave, a ultrasound or a laser to this user, to detect this instant breathing state information of this user.
5. the respiratory daoyin system of tool active biofeedback mechanism according to claim 1, it is characterized in that, this is immediately breathed detecting module and comprises a radio module, to receive a Breathiness of this user, to detect this instant breathing state information of this user.
6. the respiratory daoyin system of tool active biofeedback mechanism according to claim 1, it is characterized in that, this target respiratory waveform and this instant respiratory waveform comprise a respiratory depth, a respiratory frequency or its combination respectively.
7. the respiratory daoyin system of tool active biofeedback mechanism according to claim 1, it is characterized in that, this breath prompting device is a light-source generation device, and this breathing cue is that tool one points out colour temperature, a prompting flicker frequency or its indicating light combined.
8. the respiratory daoyin system of tool active biofeedback mechanism according to claim 1, it is characterized in that, this breath prompting device is a flexible piezoelectric sound-generating devices, and this breathing cue is that tool one points out intensity, an advisory frequency or its single-frequency prompting audio frequency or music tip audio frequency combined.
9. the respiratory daoyin system of tool active biofeedback mechanism according to claim 1, it is characterized in that, this blood processor also comprises an environment sensor, in order to sense an actual environment status information, this blood processor produces this default respiratory waveform according to this actual environment status information and this instant physiological state information.
10. the respiratory daoyin system of tool active biofeedback mechanism according to claim 9, it is characterized in that, this actual environment status information comprises light intensity, temperature, humidity, carbon monoxide content, carbon dioxide content, content of volatile organic compound, content of formaldehyde or its combination.
The respiratory daoyin system of 11. tools active biofeedback mechanism according to claim 9, it is characterized in that, this blood processor also produces an information according to this actual environment status information.
The respiratory daoyin system of 12. tools active biofeedback mechanism according to claim 9, it is characterized in that, this blood processor also carries out an intelligent environment control according to this actual environment status information at least one environmental control system in the environment at this blood processor place.
The respiratory daoyin system of 13. tools active biofeedback mechanism according to claim 12, it is characterized in that, this environmental control system is an air conditioning system, an illuminator or its combination.
The respiratory daoyin system of 14. tools active biofeedback mechanism according to claim 1, it is characterized in that, this blood processor also judges whether a respiratory waveform difference of this instant respiratory waveform and this default respiratory waveform is less than a threshold values, with when this respiratory waveform difference is not less than this threshold values, produce this target respiratory waveform according to this respiratory waveform difference.
The respiratory daoyin system of 15. tools according to claim 1 initiatively biofeedback mechanism, is characterized in that, this blood processor also in order to receive a selection instruction, with select multiple default respiratory waveform one of them.
16. 1 kinds of respiratory daoyin methods, is characterized in that, be applied to a respiratory daoyin system of tool active biofeedback mechanism, this respiratory daoyin method comprises:
At least one instant physiological state information of a user is detected by a physiology state detecting device;
Preset respiratory waveform by a blood processor according to this instant physiological state information and one and produce a target respiratory waveform, to produce a control signal further;
Produce one by a breath prompting device according to this control signal and breathe cue;
Immediately the instant breathing state information that detecting module detects this user is breathed by one; And
Produce an instant respiratory waveform by this blood processor according to this instant breathing state information and this default respiratory waveform, and compare this target respiratory waveform and this instant respiratory waveform to produce a breath state cue.
17. respiratory daoyin methods according to claim 16, is characterized in that, this instant physiological state information comprises a health mobile message of this user, a blood oxygen concentration information, wholeheartedly jumps change information or its combination.
18. respiratory daoyin methods according to claim 16, is characterized in that, the step detecting this instant breathing state information by this instant breathing detecting module also comprises:
By this instant breathing detecting module, this user is carried out to transmission and the reception of a radar wave, a ultrasound or a laser, to detect this instant breathing state information of this user.
19. respiratory daoyin methods according to claim 16, is characterized in that, the step detecting this instant breathing state information by this instant breathing detecting module also comprises:
Immediately the Breathiness that detecting module receives this user is breathed, to detect this instant breathing state information of this user by this.
20. respiratory daoyin methods according to claim 16, is characterized in that, this target respiratory waveform and this instant respiratory waveform comprise a respiratory depth, a respiratory frequency or its combination respectively.
21. respiratory daoyin methods according to claim 16, it is characterized in that, the step being produced this breathing cue by this breath prompting device is also comprised:
Produce tool one by this breath prompting device and point out colour temperature, a prompting flicker frequency or its indicating light combined.
22. respiratory daoyin methods according to claim 16, it is characterized in that, the step being produced this breathing cue by this breath prompting device is also comprised:
Produce tool one by this breath prompting device and point out intensity, an advisory frequency or its single-frequency prompting audio frequency or music tip audio frequency combined.
23. respiratory daoyin methods according to claim 16, is characterized in that, also comprise:
The environment sensor comprised by this blood processor, senses an actual environment status information; And
This default respiratory waveform is produced according to this actual environment status information and this instant physiological state information by this blood processor.
24. respiratory daoyin methods according to claim 23, is characterized in that, this actual environment status information comprises light intensity, temperature, humidity, carbon monoxide content, carbon dioxide content, content of volatile organic compound, content of formaldehyde or its combination.
25. respiratory daoyin methods according to claim 23, is characterized in that, also comprise:
An information is produced according to this actual environment status information by this blood processor.
26. respiratory daoyin methods according to claim 23, is characterized in that, also comprise:
According to this actual environment status information, one intelligent environment control is carried out at least one environmental control system in the environment at this blood processor place by this blood processor.
27. respiratory daoyin methods according to claim 26, wherein this environmental control system is an air conditioning system, an illuminator or its combination.
28. respiratory daoyin methods according to claim 16, is characterized in that, also comprise:
Judge whether a respiratory waveform difference of this instant respiratory waveform and this default respiratory waveform is less than a threshold values by this blood processor; And
When this respiratory waveform difference is not less than this threshold values, produce this target respiratory waveform by this blood processor according to this respiratory waveform difference.
29. respiratory daoyin methods according to claim 16, is characterized in that, also comprise:
Receive a selection instruction by this blood processor, with select multiple default respiratory waveform one of them.
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106108905A (en) * 2016-08-27 2016-11-16 张伟 A kind of dynamically respiratory daoyin method
CN108635774A (en) * 2018-06-21 2018-10-12 上海市肺科医院 A kind of intelligence training abdominal respiration device
CN109999310A (en) * 2019-04-09 2019-07-12 广州达美智能科技有限公司 Light source and the combination control method of sound source, device and computer readable storage medium
CN110251095A (en) * 2019-05-14 2019-09-20 周常安 Finger-worn type electro-physiologic device and system
CN114191788A (en) * 2020-09-02 2022-03-18 中国人民解放军总医院 Individualized respiratory motion pattern reconstruction training system and use method thereof

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008139380A2 (en) * 2007-05-14 2008-11-20 Koninklijke Philips Electronics N.V. System and method for guiding breathing exercises
US20090114216A1 (en) * 2007-11-06 2009-05-07 Hung Yi-Ping System And Method For Improving Breathing Pattern With Interactive Multi-Sensory Approach
US20110245703A1 (en) * 2010-04-01 2011-10-06 Engineered Vigilance, Llc System and method providing biofeedback for treatment of menopausal and perimenopausal symptoms
WO2012117376A1 (en) * 2011-03-02 2012-09-07 Koninklijke Philips Electronics N.V. Breathing guidance device and method
CN102895746A (en) * 2012-10-25 2013-01-30 北京超思电子技术股份有限公司 Auxiliary respiring equipment
TW201309266A (en) * 2011-08-26 2013-03-01 Univ Nat Taiwan System and method of respiratory detection
US20130281872A1 (en) * 2006-01-04 2013-10-24 Samsung Electronics Co., Ltd System, medium, and method to conduce a user's breathing
TWI440446B (en) * 2009-04-21 2014-06-11 Univ Nat Chiao Tung Breathinging signal processing device and method
US20160007911A1 (en) * 2014-07-14 2016-01-14 Htc Corporation Breathing guidance system and method having active biofeedback mechanism

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20130281872A1 (en) * 2006-01-04 2013-10-24 Samsung Electronics Co., Ltd System, medium, and method to conduce a user's breathing
WO2008139380A2 (en) * 2007-05-14 2008-11-20 Koninklijke Philips Electronics N.V. System and method for guiding breathing exercises
TW200920436A (en) * 2007-11-06 2009-05-16 Univ Nat Taiwan Physiological biofeedback system and method providing improved breathing pattern through multi-media interactive feedback of the senses
US20090114216A1 (en) * 2007-11-06 2009-05-07 Hung Yi-Ping System And Method For Improving Breathing Pattern With Interactive Multi-Sensory Approach
TWI440446B (en) * 2009-04-21 2014-06-11 Univ Nat Chiao Tung Breathinging signal processing device and method
US20110245703A1 (en) * 2010-04-01 2011-10-06 Engineered Vigilance, Llc System and method providing biofeedback for treatment of menopausal and perimenopausal symptoms
WO2012117376A1 (en) * 2011-03-02 2012-09-07 Koninklijke Philips Electronics N.V. Breathing guidance device and method
TW201309266A (en) * 2011-08-26 2013-03-01 Univ Nat Taiwan System and method of respiratory detection
CN102895746A (en) * 2012-10-25 2013-01-30 北京超思电子技术股份有限公司 Auxiliary respiring equipment
US20160007911A1 (en) * 2014-07-14 2016-01-14 Htc Corporation Breathing guidance system and method having active biofeedback mechanism

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106108905A (en) * 2016-08-27 2016-11-16 张伟 A kind of dynamically respiratory daoyin method
CN108635774A (en) * 2018-06-21 2018-10-12 上海市肺科医院 A kind of intelligence training abdominal respiration device
CN108635774B (en) * 2018-06-21 2020-11-27 上海市肺科医院 Intelligent abdominal respiration trainer
CN109999310A (en) * 2019-04-09 2019-07-12 广州达美智能科技有限公司 Light source and the combination control method of sound source, device and computer readable storage medium
CN110251095A (en) * 2019-05-14 2019-09-20 周常安 Finger-worn type electro-physiologic device and system
CN114191788A (en) * 2020-09-02 2022-03-18 中国人民解放军总医院 Individualized respiratory motion pattern reconstruction training system and use method thereof

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