CN105342587A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment. The method includes the steps that a first sensor of the electronic equipment collects a first parameter of a first physiological feature and a second sensor of the electronic equipment collects a second parameter of a second physiological feature, wherein the first physiological feature cannot be used for differentiating different detected objects while the second physiological feature can be used for differentiating different detected objects; and the association between the first parameter and the second parameter is built.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of information processing method and electronic equipment.

Background technology

Along with the development of electronic technology and increasing of consumer demand, increasing electronic product comes out, and such as sphygomanometer etc. detect the electronic equipment of physiological parameter.These electronic equipments are that the live and work of user brings great convenience.

But, the present inventor finds in the process realizing the technical scheme in the embodiment of the present invention, in the prior art, sphygomanometer appears in medical space in one family or public usually, so be all that two people or multiple people use same sphygomanometer usually simultaneously, so the blood pressure data of multiple people mixes, which individual cannot distinguish which part blood pressure data is.

Similar, for the checkout equipment detecting the physiological feature cannot distinguishing detected object, similar problem is also existed for other.

Summary of the invention

The invention provides a kind of information processing method and electronic equipment, the technical problem of detected object cannot be distinguished in order to solve in prior art the electronic equipment detecting physiological feature.

First aspect present invention provides a kind of information processing method, comprising:

The first sensor of electronic equipment gathers the first parameter of the first physiological feature, and the second parameter of the second sensor acquisition second physiological feature of described electronic equipment; Wherein, described first physiological feature is the physiological feature cannot distinguishing different detected object, and described second physiological feature is the physiological feature that can be used in distinguishing different detected object;

Set up the incidence relation of described first parameter and described second parameter.

Optionally, described first physiological feature is the feature of the identical physiological system of corresponding detected object with described second physiological feature.

Optionally, described second physiological feature is electrocardio, and described first physiological feature is blood pressure.

Optionally, gathering described first parameter needs the first duration continued to be longer than the second lasting duration of the described second parameter needs of collection, and described first parameter and described second parameter start to gather simultaneously, and described method also comprises:

When gathering described second parameter and completing, determine this detected object detected according to described second parameter;

The parameter sets of described first physiological feature of the described detected object that this detects is obtained by inquiry.

Optionally, set up the incidence relation of described first parameter and described second parameter, comprising:

According to described second parameter, determine the detected object corresponding with described second parameter;

By described first reference record in the parameter sets corresponding with described detected object.

Optionally, described second physiological feature is electrocardio, and described second parameter is electrocardiographic wave, and described second sensor is electrode sensor,

Second parameter of the second sensor acquisition second physiological feature of described electronic equipment, comprising:

The electromotive force on the electrode sensor detection of skin surface of described electronic equipment, to obtain described second parameter.

Second aspect present invention provides a kind of electronic equipment, comprising:

First sensor, for gathering the first parameter of the first physiological feature;

Second sensor, for gathering the second parameter of the second physiological feature; Wherein, wherein, described first physiological feature is the physiological feature cannot distinguishing different detected object, and described second physiological feature is the physiological feature that can be used in distinguishing different detected object;

Processor, for setting up the incidence relation of described first parameter and described second parameter.

Optionally, described first physiological feature is blood pressure, and described first sensor comprises:

Aerating device, for exporting gas;

Caisson, having can deformation cavity, for according to can the shape of deformation cavity described in the gas and changing from described aerating device;

Checkout gear, for meeting the vibration of the Part I of pre-conditioned described caisson based on the amount of the described gas of current storage, obtains the first parameter.

Optionally, described second physiological feature is electrocardio, and described second parameter is electrocardiographic wave, and described second sensor is electrode sensor, for the electromotive force by detection of skin surface, obtains described second parameter.

Optionally, described electronic equipment also comprises:

Body;

Maintain part, be connected with described body part, described electronic equipment is made to keep the relative position relation at least partially with detected object during for being in maintenance state, wherein, described maintenance part can as an annulus at least partially, or meet the first pre-conditioned proximate annular space at least partially.

Beneficial effect of the present invention is as follows:

In embodiments of the present invention, electronic equipment adopts first sensor to gather the first parameter of the first physiological feature, and the first physiological feature is the physiological feature cannot distinguishing different detected object.Therefore, electronic equipment also adopts the second parameter of the second physiological feature of the same detected object of the second sensor acquisition, and the second physiological feature is the physiological feature that can be used in distinguishing different detected object.Then the first parameter is associated with the second parameter.In other words, it is that the electronic equipment in the embodiment of the present invention can distinguish by the second parameter the first parameter gathered for which detected object, solves in prior art the technical problem that the electronic equipment detecting physiological feature cannot distinguish detected object.

Accompanying drawing explanation

Fig. 1 is the functional block diagram of the electronic equipment in one embodiment of the invention;

Fig. 2 is the structure chart of the electronic equipment in one embodiment of the invention;

Fig. 3 a-Fig. 3 b is the CONSTRUCTED SPECIFICATION figure of the electronic equipment in one embodiment of the invention;

Fig. 4 is the flow chart of the information processing method in one embodiment of the invention;

Fig. 5 is the functional block diagram of the electronic equipment in another embodiment of the present invention.

Detailed description of the invention

The embodiment of the present invention provides a kind of information processing method and electronic equipment, cannot distinguish the technical problem of detected object in order to solve in prior art the electronic equipment detecting physiological feature.

Technical scheme in the embodiment of the present invention is solve above-mentioned technical problem, and general thought is as follows:

The first sensor of electronic equipment gathers the first parameter of the first physiological feature, and the second parameter of the second sensor acquisition second physiological feature of described electronic equipment; Wherein, described first physiological feature is the physiological feature cannot distinguishing different detected object, and described second physiological feature is the physiological feature that can be used in distinguishing different detected object; Set up the incidence relation of described first parameter and described second parameter.

Described as can be seen from above, it is that electronic equipment in the embodiment of the present invention can distinguish by the second parameter the first parameter gathered for which detected object, solves in prior art the technical problem that the electronic equipment detecting physiological feature cannot distinguish detected object.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

Please refer to shown in Fig. 1, is the functional block diagram of a kind of electronic equipment that the embodiment of the present invention provides.This electronic equipment can be used for the physiological feature detecting live body.This electronic equipment comprises: first sensor 101, for gathering the first parameter of the first physiological feature of a detected object; Second sensor 102, for gathering the second parameter of the second physiological feature of this detected object; Wherein, wherein, the first physiological feature is the physiological feature cannot distinguishing different detected object, and the second physiological feature is the physiological feature that can be used in distinguishing different detected object; Processor 103, for setting up the incidence relation of the first parameter and the second parameter.

Optionally, the first physiological feature and the second physiological feature are the feature of the identical physiological system of corresponding detected object.For example, the first physiological feature is blood pressure, and the second physiological feature is electrocardio, and blood pressure and electrocardio are all blood circulation.Corresponding, first sensor 101 is the sensor for Measure blood pressure, and the second sensor 102 is the sensor for measuring electrocardiographic wave.Again such as, the first physiological feature is intraocular pressure, and the second physiological feature is iris or retina, intraocular pressure and iris or retina all relevant to eyes.Corresponding, first sensor 101 is the sensor for measuring intraocular pressure, and the second sensor 102 is the sensor for obtaining iris or retinal feature.

It should be noted that, the blood transport of people needs certain pressure to each position of whole body, and this pressure is exactly blood pressure.Because blood vessel divides tremulous pulse, blood capillary and vein, so, also just there are arteriotony, CP and venous pressure.Usually said blood pressure refers to arteriotony.When vasodilation, blood pressure drops; During vasoconstriction, blood pressure raises.Systemic arterial blood pressure is called for short " blood pressure " (BloodPressure, BP).Blood pressure be blood when intravascular flow, the pressure of vasoactive wall, it promotes blood at the power of intravascular flow.Ventricular systole, blood flows into tremulous pulse from ventricle, and now the pressure of blood to tremulous pulse is the highest, is called systolic pressure (SystolicBloodPressure, SBP).Ventricular diastole, arteries elastical retraction, blood still slowly continues flow forward, but blood pressure drops, pressure is now called diastolic pressure (DiastolicBloodPressure, DBP).

In addition, the tissue around heart and body fluid can conduct electricity, and therefore human body can be regarded as to be one and to have length and width, thick tridimensional volume conductor.Heart cans be compared to power supply, and the summation of countless Single Cardiac Cell change can be conducted and be reflected to body surface.Between body surface is much put, there is potential difference, also have a lot of point each other without potential difference be wait electric.Heart is in each cardiac cycle, in succession excited by pacemaker, atrium, ventricle, and along with bioelectric change, these bioelectric changes are called electrocardio.

Electrocardio, first has universality, and namely everyone has.Secondly, due to the difference of the cardiac position of different people, size and anatomical structure, and the age, sex, body weight, chest structure difference, cause the difference of interpersonal electrocardiosignal, that is, electrocardiosignal has uniqueness.Again, electrocardiosignal also has stability, and that is, in a long time, the electrocardiosignal of people remains unchanged.Therefore, electrocardio can as the physiological feature of the different detected object of difference.

Intraocular pressure is exactly the pressure of eyeball inside, referred to as intraocular pressure.It is the tolerant counterpressure applied wall of eyeball of ophthalmic.

Individual iris structure is unique, do not have a heritability, and after childhood, just substantially no longer changes.Further, iris is isolated from external environment condition and does not revise by operation.Therefore, iris can as the physiological feature of the different detected object of difference.

Retina is the blood cell layer of eye bottom.Vascularity pattern on the retina of each individuality has uniqueness, and be isolated from external environment condition can not by operation amendment.Therefore, retina can as the physiological feature of the different detected object of difference.

In practice, the first physiological feature and the second physiological feature also can be the features of the different physiological systems of detected object, and for example, the first physiological feature is blood pressure, and the second physiological feature is skin.Corresponding, first sensor 101 is the sensor for Measure blood pressure, and the second sensor 102 is the sensor for obtaining skin characteristic parameter.

It should be noted that to have the skin of different skin thickness and hypodermic layer because each, have its distinctive labelling, that is the structure of everyone skin is not identical, can be used for distinguishing different detected object.

Below incite somebody to action elder generation with the first physiological feature for blood pressure, the second physiological feature is electrocardio is that example is to illustrate structure and the use procedure of the electronic equipment in the embodiment of the present invention.

Optionally, first sensor 101 comprises aerating device, for exporting gas; Caisson, having can deformation cavity, for can the shape of deformation cavity according to the gas and changing carrying out self-inflator; Checkout gear, for meeting the vibration of the Part I of pre-conditioned caisson based on the amount of the described gas of current storage, obtains the first parameter.

Concrete, when electronic equipment is used to Measure blood pressure, aerating device exports gas to caisson, makes can starting to exit to certain pressure (being generally 180 ~ 230mmHg) by the air pressure in deformation cavity of caisson.When air pressure to a certain extent, blood flow, just by blood vessel, will produce certain vibration, and the wave of oscillation that vibration produces propagates into checkout gear by trachea, such as pressure transducer, and pressure sensing can detect pressure in caisson and fluctuation in real time.Exit gradually, the wave of oscillation is increasing.More along with what put, can the gas of deformation cavity tailing off of caisson, more loose with the contact of arm, therefore the pressure that detects of pressure transducer and fluctuation more and more less.Pressure transducer can select the fluctuation maximum moment to be reference point, based on this point, searching is the fluctuation point of peak value 0.45 forward, this point is high pressure (i.e. systolic pressure), searching is the fluctuation point of peak value 0.75 backward, and the pressure corresponding to this point is low pressure (i.e. diastolic pressure).It should be noted that, 0.45 and 0.75 these two constants can be set to other numerical value according to practical situation.

The foregoing describe a kind of structure of possible Measure blood pressure, in actual applications, can be configured according to the actual requirements, such as, increase other structure.Further, the structure of first sensor 101 can also be other structure, the structure of multiple Measure blood pressure is disclosed in prior art, so the structure of first sensor 101 can be the structure of any one Measure blood pressure of the prior art, similar, the structure of first sensor 101 can also be the structure of the following Measure blood pressure occurred, as long as can Measure blood pressure.

Second physiological feature is electrocardio, so corresponding, the second parameter is for expressing cardiac electrical electrocardiographic wave.Electrocardiographic wave have recorded the bioelectric change that each cardiac cycle of heart produces.In practice, electrocardiographic wave can be obtained by multiple measurement structure, below will illustrate.

Concrete, the second sensor 102 is electrode sensor, for the electromotive force by detection of skin surface, obtains the second parameter.

Optionally, the internal structure of the second sensor 102 can have multiple, can be configured according to practical situation.This part is the said contents known of those skilled in the art, does not repeat them here.

In use, can be enclosed within the arm of user by electronic equipment, first sensor 101 measures the blood pressure of user, and the second sensor 102 can obtain the electrocardiographic wave of user simultaneously.

When blood pressure values and electrocardiographic wave have all gathered, associating of the first parameter and the second parameter set up by processor 103.Concrete, can be that blood pressure values and electrocardiographic wave are carried out corresponding stored, such as, on the memorizer of electronic equipment, store a log, in log, have recorded each first parameter of detection and the corresponding relation of the second parameter.In practice, processor 103 can also be form a parameter sets for identical electrocardiographic wave, and the blood pressure values that identical electrocardiographic wave is corresponding is placed in this parameter sets.

It should be noted that, identical electrocardiographic wave in the present embodiment refers to that the matching degree between multiple electrocardiographic wave exceedes predetermined threshold value, even if because consider same detected object, may under different factors, electrocardiographic wave can be slightly different, so in order to reduce maloperation, the multiple electrocardiographic waves in the present embodiment, matching degree being exceeded predetermined threshold value think identical electrocardiographic wave.Wherein, predetermined threshold value is such as 90% or more.

Optionally, the electrocardiographic wave of each member of one family can be enrolled in advance, then electrocardiographic wave and user name are associated, so processor 103 can first according to the electrocardiographic wave determination user name that this detects, then the blood pressure values detected is stored in a file named with each user name.

Below again for the first physiological feature be blood pressure, the second physiological feature is described concrete structure and the use procedure of the electronic equipment in the embodiment of the present invention for skin.

Aforementioned described structure is please refer to about the concrete structure of the first sensor 101 of Measure blood pressure and operation principle.

Second sensor 102 comprises: the first chip and the second chip, and the first chip also receives for sending ray the ray reflected; Second chip is used for obtaining described second parameter based on the described ray reflected.

Concrete, because skin, cortex and different structure have individual character and single-minded characteristic, these all can affect the different wave length of light.First chip lot of light reflection diode illumination skin, then collect the ray reflected, second chip process is analyzed the ray reflected, and can get one group of uniquely different reflection ray.

In practice, the second sensor 102 can also be other structure, adopts alternate manner to obtain skin characteristic parameter.

In use, when on the arm that electronic equipment to be enclosed within user by user, first sensor 101 starts to gather blood pressure values, and the second sensor 102 can start the skin characteristic parameter gathering user simultaneously.

After blood pressure values and skin characteristic parameter acquisition complete, the association between blood pressure values and skin characteristic parameter set up by processor 103, and the mode associated that concrete mode and aforementioned description are set up between blood pressure values and electrocardiographic wave is similar, does not repeat them here.

Describe in conjunction with above, the mode that the incidence relation of the first parameter and the second parameter set up by processor 103 can be but be not limited to following situation.

According to the second parameter, determine the detected object corresponding with the second parameter; By the first reference record in the parameter sets corresponding with described detected object.Parameter sets in the present embodiment is the concept of broad sense, and both can represent it is a real set, a such as file, also can be represented and be scattered in different memory areas, but be associated by the second parameter.

For example, when measuring at every turn, all existed in a log by the corresponding relation of the first parameter and the second parameter, form a rule record, each record comprises the first parameter and second parameter of one-shot measurement.

Again such as, when measuring the second parameter first, folder of creating a file, this file and the second parameter association, when follow-up measurement, first find file by measuring the second parameter obtained, then by the first parameter stored in file.

Again such as, when measuring the second parameter first, user name can be inputted, by user name and the second parameter association.And folder of creating a file, this file associates with user name.When follow-up measurement, first find user name by measuring the second parameter obtained, then find file by user name, then by the first parameter stored in file.

Be intraocular pressure for the first physiological feature, the second physiological feature is the situation of iris, because content well-known to those skilled in the art, describes with end.

First sensor 101 comprises: pressure-measuring head, and front end directly can contact cornea, is used as to flatten cornea, and Applanation area diameter is 3.06mm.Rear end is fixed in the becket of pressure measurement lever end.There is the prism that two substrates are contrary in pressure-measuring head, therefore can make to become two semi-circular shape with the annulus image shift at Corneal Contact place.Separately on side, pressure-measuring head front end, there is radial line scale, during for measuring height astigmatism, be used as axial location.

First sensor 101 goes back pressure tester, is a lever that can move forward and backward, and its degree of excursion controls by the inner spring installed, and the relaxation power of spring can be adjusted by a pressure measurement spiral.Have the gravity scale in units of gram weight in pressure measurement helical surface, represent the tension force (gram weight) of spring, scope is by 0 to 8g (being namely equivalent to 0 to 80mmHg).Twisted pressure measurement spiral is only needed during operation, under slit lamp microscope observation, when cornea applanation face reaches 3.06mm diameter, required pressure and intraocular pressure value.

In actual use, first sensor 101 can also be other structure, as long as can measure intraocular pressure.

Second sensor 102 comprises: image collecting device, for taking the whole eye of detected object, and by the image transmitting that photographs to image preprocess apparatus; Image preprocess apparatus is used for being handled as follows the iris image got, and makes it meet the demand extracting iris feature; First be Iris Location: determine inner circle, cylindrical and conic section position in the picture; Wherein, inner circle is the border of iris and pupil, and cylindrical is the border of iris and sclera, and conic section is the border of iris and upper lower eyelid.Secondly, iris image normalization: by the iris size in image, adjust to the fixed dimension pre-set.Be finally image enhaucament: for the image after normalization, carry out the process such as brightness, contrast and smoothness, improve the discrimination of iris information in image.Image processing apparatus, for adopting specific algorithm to extract characteristic point needed for iris identification from iris image, and encodes to it.Characteristic point after coding is the second parameter.

In actual use, the second sensor 102 can also be other structure, as long as can get iris feature.

In use, the head of detected object is fixed on slit lamp Lower jaw support, cobalt blue filter glass is placed in light front, crack, irradiated tear film is emerald green, and crack is opened to the widest, pressure-measuring head brightness of illumination is reached maximum, light source projects angle is about 60.Pressure-measuring head is gone to slit lamp microscope eyepiece dead ahead, adopt low power ocular and with monocular vision, allow detected object look at straight to dead ahead, and open fissura palpebrae wide as far as possible.Pressure measurement spiral is first gone to 1g graduation position, i.e. 10mmHg pressure, again slit lamp is moved forward, make pressure-measuring head close to cornea, when now first with the naked eye just there is blue light splitting from temporo side viewing angle limbus of sclera in examiner, two, the cornea face reflective semi-ring of viridian fluorescein can be observed from slit lamp eyepiece, the height of adjustment slit lamp, make two fluorescein semi-rings symmetrical up and down, continue slit lamp forward, until observe two semicircular viridian fluorescein semi-rings clearly, the height of fine setting slit lamp, make two fluorescence semi-rings equal up and down, symmetrical.Continue twisted pressure measurement spiral, the interior boundary of laterally zygomorphic two fluorescein semi-rings is just contacted.Now cornea applanation face diameter reaches 3.06mm, records weight (gram) used and is intraocular pressure value.If scale is 2g, intraocular pressure is 20mmHg.

Meanwhile, in the process surveying intraocular pressure, the second sensor 102 obtains the iris feature of detected object.After obtaining iris feature, processor 103 can carry out iris feature coupling in this locality, find iris feature matching degree and be greater than history intraocular pressure value corresponding to all iris features of threshold value, and by the display of history intraocular pressure value over the display, so examiner clearly can know the change of the intraocular pressure value of this detected object, and whether the state of an illness take a favorable turn.

Described as can be seen from above, it is that electronic equipment in the embodiment of the present invention can distinguish by the second parameter the first parameter gathered for which detected object, solves in prior art the technical problem that the electronic equipment detecting physiological feature cannot distinguish detected object.

Optionally, gathering the first parameter needs the first duration continued to be longer than the second lasting duration of collection second parameter needs.So in practice, can be that first sensor 101 first starts to gather, then the second sensor 102 starts to detect again simultaneously, and both complete collection simultaneously.

Also can be first sensor 101 and the second sensor 102 start simultaneously gather, the second sensor 102 gather the second parameter complete time, processor 103 is also for determining this detected object detected according to the second parameter; The parameter sets of the first physiological feature of the detected object that this detects is obtained by inquiry.For example, after second sensor 102 collects the electrocardiographic wave of user, can according to the corresponding relation of electrocardiographic wave and user name, the user name of the detected object finding this to detect, then obtains the history parameters set of the first parameter under this user name.

Optionally, electronic equipment also comprises display, after processor 103 gets history parameters set, by history parameters set display over the display, can be convenient to the medical history that user or medical personnel understand this user.

Further, can also this first parameter gathered be simultaneously displayed on display, to be used for contrasting with history parameters, be convenient to the health change that user or hospital personnel understand this user more easily.

Optionally, the form that history parameters can be processed into chart by processor 103 is presented at display, is convenient to the change of more intuitive understanding first parameter along with the time.Be convenient to user or medical personnel carry out tracing and monitoring to the health of this user.

Similar, the first parameter processing that history parameters and this collect can be become the form display of chart over the display by processor 103.

Optionally, as shown in Figure 2, electronic equipment also comprises: main body 1; Maintain part 2, be connected with main body 1 part, electronic equipment is made to keep the relative position relation at least partially with detected object during for being in maintenance state, wherein, maintaining part 2 can as an annulus at least partially, or meets the first pre-conditioned proximate annular space at least partially.

For the annexation between main body 1 and maintenance part 2, there is multiple implementation, enumerate wherein two kinds below, in specific implementation process, include but not limited to following two kinds of situations.

The first, maintain the contrary two ends of part 2 and connect respectively with the relative two ends of main body 1, makes main body 1 also be the part of annulus.

The second, maintains the part in the senior formation annulus of part or proximate annular space, and now main body 1 is arranged on the surface of maintenance part 2.

Further, maintain part 2 and at least have maintenance state, in maintenance state, it is peripheral that annulus or proximate annular space can be centered around satisfied second pre-conditioned column.

Specifically, as shown in Figure 3 a, maintain part 2 and only comprise a part, the opposite end maintaining part 2 connects with the relative two ends of main body 1 respectively, and be a part for an annulus, main body 1 is also a part for annulus.If when the material maintaining part 2 is light elastic material, maintaining part 2 specifically has maintenance state and non-maintenance state; If when the material maintaining part 2 is hard material, maintaining part 2 only has maintenance state.

As shown in Figure 3 b, maintain part 2 when comprising two parts, the first end of Part I is connected to the first sidepiece of main body 1, and the three-terminal link of Part II is at the second sidepiece of main body 1, and the first sidepiece and the second sidepiece are relative two sidepieces of main body 1.Further, if the material maintaining part 2 is hard material, and when Part I second end and Part II the 4th end are in notconnect state, maintaining part 2 only has maintenance state, and now Part I and Part II are the two parts in proximate annular space.This proximate annular space meets first pre-conditioned, and the bore namely between Part I second end and Part II the 4th end is less than to be dressed electronic equipment and to place oneself body region, and as the bore of wrist, wrist is now considered as a column.This column meets second pre-conditioned, is namely greater than the bore of annulus, and further, if need electronic equipment to be fixed on relatively a certain position of column or a certain height, the bore of this column at least one end should be less than the bore of annulus.Such as, if the girth of wrist is 10cm, the internal diameter of this annulus is 12cm, be then connected with the palm girth at position of the wrist of wearer at least should be greater than 12cm, to prevent the electronic equipment landing of wearing.

Also the syndeton cooperatively interacted can be set at the 4th end of the second end of Part I and Part II, as arranged on the second end and the 4th end, pin is buckled, folding fastener, foldable safe are buckled or butterfly is buckled, when the second end is connected with the 4th end, two parts form an annulus jointly, maintain part 2 and be in maintenance state, when the second end and the 4th end are in notconnect state, maintain part 2 and be in non-maintenance state.

Optionally, wherein, annulus or described proximate annular space can be centered around satisfied 3rd pre-conditioned nearly spherical peripheral.Electronic equipment is worn on certain position of user health, and as head, now head is considered as a nearly spheroid.This nearly spheroid meets the 3rd pre-conditioned, and the bore namely meeting nearly spheroid is greater than the bore in ring-type or proximate annular space.In this embodiment, electronic equipment is headset equipment, the such as helmet or glasses, may be used for measuring aforementioned described intraocular pressure and iris or retina.

Optionally, first sensor 101, second sensor 102 and processor 103 can be arranged on the body 1, also can be arranged on and maintain in part 2.

Optionally, first sensor 101 and the second sensor 102 can be arranged on main body 1 or maintain on the inner surface of part 2, to press close to detected object, and then obtain measurement parameter more accurately.

Based on same inventive concept, please refer to shown in Fig. 4, is the flow chart of a kind of information processing method that the embodiment of the present invention provides.The method can be applied in the electronic equipment as shown in Fig. 1 to Fig. 3 b, and certainly, the method also can be applied in other electronic equipment.Concrete, the method comprises:

Step 201: the first sensor of electronic equipment gathers the first parameter of the first physiological feature, and the second parameter of the second sensor acquisition second physiological feature of described electronic equipment; Wherein, described first physiological feature is the physiological feature cannot distinguishing different detected object, and described second physiological feature is the physiological feature that can be used in distinguishing different detected object;

Step 202: the incidence relation setting up the first parameter and the second parameter.

Wherein, first sensor and the second sensor such as aforementioned described various sensors.In practice, first sensor and the second sensor also can be the sensors of other type, as long as can gather the parameter of the physiological feature of detected object.

Optionally, the second lasting duration is needed when collection first parameter needs the first duration continued to be longer than collection second parameter, when first parameter and the second parameter start to gather simultaneously, when collection second parameter completes, determine this detected object detected according to described second parameter; The parameter sets of the first physiological feature of the detected object that this detects is obtained by inquiry.Specific implementation process with reference to the specific implementation process of aforementioned description processor 103, can not repeat them here.

Optionally, step 202 comprises: according to the second parameter, determines the detected object corresponding with the second parameter; By the first reference record in the parameter sets corresponding with detected object.Specific implementation process with reference to the specific implementation process of aforementioned description processor 103, can not repeat them here.

Optionally, when the second physiological feature is electrocardio, the second parameter is electrocardiographic wave, when second sensor is electrode sensor, second parameter of the second sensor acquisition second physiological feature, comprising: the electromotive force on electrode sensor detection of skin surface, to obtain the second parameter.

Information processing method in the present embodiment and aforementioned electronic devices are based on the invention under same design, by the aforementioned detailed description to electronic equipment and various version thereof, those skilled in the art clearly can understand the implementation process of information processing method in the present embodiment, so succinct in order to description, do not repeat them here.

Based on same inventive concept, as shown in Figure 5, the embodiment of the present invention also provides a kind of electronic equipment, for realizing information processing method as shown in Figure 4.This electronic equipment comprises: the first acquiring unit 301, for obtaining the first parameter of the first physiological feature that first sensor gathers; Second acquisition unit 302, for obtaining the second parameter of the second physiological feature of the second sensor acquisition; Wherein, the first physiological feature is the physiological feature cannot distinguishing different detected object, and the second physiological feature is the physiological feature that can be used in distinguishing different detected object; Processing unit, for setting up the incidence relation of the first parameter and the second parameter.

Optionally, the first physiological feature and the second physiological feature are the features of the identical physiological system of corresponding detected object.

Further, the second physiological feature is electrocardio, and the first physiological feature is blood pressure.

Optionally, obtaining described first parameter needs the first duration continued to be longer than the second lasting duration of the described second parameter needs of collection, described first parameter and described second parameter start to gather simultaneously, processing unit 303 also for: when acquisition second parameter completes, determine this detected object detected according to the second parameter; The parameter sets of described first physiological feature of the detected object that this detects is obtained by inquiry.

Optionally, processing unit 303 comprises:

According to the second parameter, determine the detected object corresponding with the second parameter;

By the first reference record in the parameter sets corresponding with detected object.

Optionally, the second physiological feature is electrocardio, and the second parameter is electrocardiographic wave, and the second sensor is electrode sensor, second acquisition unit 302 for: by the electromotive force on electrode sensor detection of skin surface, to obtain the second parameter.

Electronic equipment in the present embodiment and aforementioned information processing method are based on the invention under same design, by the aforementioned detailed description to information processing method and various version thereof, those skilled in the art clearly can understand the implementation process of electronic equipment in the present embodiment, so succinct in order to description, do not repeat them here.

By the embodiment of in the above-described embodiment in the present invention or multiple embodiment, at least following technique effect can be realized:

In embodiments of the present invention, electronic equipment adopts first sensor to gather the first parameter of the first physiological feature, and the first physiological feature is the physiological feature cannot distinguishing different detected object.Therefore, electronic equipment also adopts the second parameter of the second physiological feature of the same detected object of the second sensor acquisition, and the second physiological feature is the physiological feature that can be used in distinguishing different detected object.Then the first parameter is associated with the second parameter.In other words, it is that the electronic equipment in the embodiment of the present invention can distinguish by the second parameter the first parameter gathered for which detected object, solves in prior art the technical problem that the electronic equipment detecting physiological feature cannot distinguish detected object.

Specifically, the computer program instructions that information processing method in the application Fig. 2 embodiment is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with information processing method in storage medium is by an electronic equipment reading or when being performed, comprise the steps: the first parameter obtaining the first physiological feature that first sensor gathers; Obtain the second parameter of the second physiological feature of the second sensor acquisition; Wherein, the first physiological feature is the physiological feature cannot distinguishing different detected object, and the second physiological feature is the physiological feature that can be used in distinguishing different detected object; Set up the incidence relation of the first parameter and the second parameter.

Optionally, storage medium also comprises the steps corresponding instruction, when this instruction is performed, comprises the steps:, when acquisition second parameter completes, to determine this detected object detected according to the second parameter; The parameter sets of described first physiological feature of the detected object that this detects is obtained by inquiry.

Optionally, storage medium also comprises the instruction corresponding with the incidence relation of the second parameter with setting up the first parameter, when this instruction is performed, comprises the steps:

According to the second parameter, determine the detected object corresponding with the second parameter;

By the first reference record in the parameter sets corresponding with detected object.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (10)

1. an information processing method, comprising:

The first sensor of electronic equipment gathers the first parameter of the first physiological feature, and the second parameter of the second sensor acquisition second physiological feature of described electronic equipment; Wherein, described first physiological feature is the physiological feature cannot distinguishing different detected object, and described second physiological feature is the physiological feature that can be used in distinguishing different detected object;

Set up the incidence relation of described first parameter and described second parameter.

2. the method for claim 1, is characterized in that, described first physiological feature is the feature of the identical physiological system of corresponding detected object with described second physiological feature.

3. method as claimed in claim 2, it is characterized in that, described second physiological feature is electrocardio, and described first physiological feature is blood pressure.

4. the method for claim 1, it is characterized in that, gathering described first parameter needs the first duration continued to be longer than the second lasting duration of the described second parameter needs of collection, and described first parameter and described second parameter start to gather simultaneously, and described method also comprises:

When gathering described second parameter and completing, determine this detected object detected according to described second parameter;

The parameter sets of described first physiological feature of the described detected object that this detects is obtained by inquiry.

5. the method for claim 1, is characterized in that, sets up the incidence relation of described first parameter and described second parameter, comprising:

According to described second parameter, determine the detected object corresponding with described second parameter;

By described first reference record in the parameter sets corresponding with described detected object.

6. the method for claim 1, is characterized in that, described second physiological feature is electrocardio, and described second parameter is electrocardiographic wave, and described second sensor is electrode sensor,

Second parameter of the second sensor acquisition second physiological feature of described electronic equipment, comprising:

The electromotive force on the electrode sensor detection of skin surface of described electronic equipment, to obtain described second parameter.

7. an electronic equipment, comprising:

First sensor, for gathering the first parameter of the first physiological feature;

Second sensor, for gathering the second parameter of the second physiological feature; Wherein, wherein, described first physiological feature is the physiological feature cannot distinguishing different detected object, and described second physiological feature is the physiological feature that can be used in distinguishing different detected object;

Processor, for setting up the incidence relation of described first parameter and described second parameter.

8. electronic equipment as claimed in claim 7, it is characterized in that, described first physiological feature is blood pressure, and described first sensor comprises:

Aerating device, for exporting gas;

Caisson, having can deformation cavity, for according to can the shape of deformation cavity described in the gas and changing from described aerating device;

Checkout gear, for meeting the vibration of the Part I of pre-conditioned described caisson based on the amount of the described gas of current storage, obtains the first parameter.

9. electronic equipment as claimed in claim 7, it is characterized in that, described second physiological feature is electrocardio, and described second parameter is electrocardiographic wave, and described second sensor is electrode sensor, for the electromotive force by detection of skin surface, obtains described second parameter.

10. the electronic equipment as described in any one of claim 7-9, is characterized in that, described electronic equipment also comprises:

Body;

Maintain part, be connected with described body part, described electronic equipment is made to keep the relative position relation at least partially with detected object during for being in maintenance state, wherein, described maintenance part can as an annulus at least partially, or meet the first pre-conditioned proximate annular space at least partially.