Summary of the invention
The invention provides a kind of measurement device and measuring method, when the heart of user goes wrong, the heart rate value of generation and the difference of pulse frequency value can reflect heart produced problem accurately, thus provide reliable foundation for user's prevention and therapy disease.
For achieving the above object, the invention provides a kind of measurement device, comprising: physiological parameter acquisition unit and data processing unit;
Described physiological parameter acquisition unit, for gathering pulse frequency parameter and hrv parameter, and exports the pulse frequency parameter collected and hrv parameter to described data processing unit;
Described data processing unit, for generating pulse frequency value according to described pulse frequency parameter and generating described heart rate value according to described hrv parameter, and generates the difference of described heart rate value and described pulse frequency value according to described heart rate value and described pulse frequency value.
Alternatively, described measurement device also comprises: the alarm unit be connected with described data processing unit;
Described data processing unit is also for judging whether the difference of described heart rate value and described pulse frequency value is greater than preset difference value, if when judging that the difference of described heart rate value and described pulse frequency value is greater than preset difference value, generate the first warning message and export described first warning message to described alarm unit;
Described alarm unit, for reporting to the police according to described first warning message.
Alternatively, described measurement device also comprises: the display unit be connected with described data processing unit;
If when described data processing unit is also for judging that the difference of described heart rate value and described pulse frequency value is less than or equal to preset difference value, export described pulse frequency value and/or described heart rate value to display unit;
Described display unit, for showing described pulse frequency value and/or described heart rate value.
Alternatively, described measurement device also comprises: the data transmission unit be connected with described data processing unit;
If when described data processing unit is also for judging that the difference of described heart rate value and described pulse frequency value is less than or equal to preset difference value, export described pulse frequency value and/or described heart rate value to described data transmission unit;
Described data transmission unit, for exporting described pulse frequency value and/or described heart rate value to exterior terminal equipment, the display module for described exterior terminal equipment shows described pulse frequency value and/or described heart rate value.
Alternatively, described data processing unit is also for judging whether described heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit, and whether described pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit, if when judging that described heart rate value is greater than heart rate higher limit or is less than described heart rate lower limit and/or judges that described pulse frequency value is greater than pulse frequency higher limit or is less than described pulse frequency lower limit, generate Secondary Report alarming information and export described Secondary Report alarming information to described alarm unit;
Described alarm unit is also for reporting to the police according to described Secondary Report alarming information.
Alternatively, if when described data processing unit is also for judging that described heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit and judges that described pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit, perform the described operation generating the difference of described heart rate value and described pulse frequency value according to described heart rate value and described pulse frequency value.
Alternatively, described measurement device also comprises: the motion parameter collecting unit be connected with described data processing unit;
Described motion parameter collecting unit, for gathering kinematic parameter, and exports the kinematic parameter collected to described data processing unit;
Described data processing unit is also for generating motion step Numerical according to described kinematic parameter.
Alternatively, described measurement device also comprises: the first timing unit be connected with described motion parameter collecting unit;
Described first timing unit, for carrying out timing process to setting-up time;
Described motion parameter collecting unit specifically for gathering the kinematic parameter in described setting-up time in described setting-up time, and exports the kinematic parameter in described setting-up time to described data processing unit;
Described data processing unit is also for generating the quantity of motion in setting-up time according to the kinematic parameter in setting-up time, and judge whether the quantity of motion in described setting-up time is greater than or equal to quantity of motion setting value, if when the quantity of motion judging in described setting-up time is less than described quantity of motion setting value, generates the 3rd warning message and also export described 3rd warning message to described alarm unit;
Described alarm unit is also for reporting to the police according to described 3rd warning message.
Alternatively, described measurement device also comprises: the second timing unit be connected with described data processing unit;
Described second timing unit, for when described data processing unit judges that kinematic parameter is less than the resting state value pre-set, carries out timing to quiescent time, and exports the quiescent time drawn to described data processing unit;
Described data processing unit, also for judging whether described quiescent time is greater than the static scheduled time, if when judging that described quiescent time is greater than the described static scheduled time, generating the 4th warning message and exporting described 4th warning message to described alarm unit;
Described alarm unit is also for reporting to the police according to described 4th warning message.
Alternatively, the kinematic parameter of described data processing unit also for collecting when user is in sleep state according to motion parameter collecting unit generates and stands up time numerical value.
Alternatively, described measurement device is wrist-measurement device.
For achieving the above object, the invention provides a kind of measuring method, comprising:
Physiological parameter acquisition unit gathers pulse frequency parameter and hrv parameter, and exports the pulse frequency parameter collected and hrv parameter to data processing unit;
Described data processing unit generates pulse frequency value according to described pulse frequency parameter and generates described heart rate value according to described hrv parameter, and generates the difference of described heart rate value and described pulse frequency value according to described heart rate value and described pulse frequency value.
Alternatively, described generate the difference of described heart rate value and described pulse frequency value according to described heart rate value and described pulse frequency value after also comprise:
Described data processing unit judges whether the difference of described heart rate value and described pulse frequency value is greater than preset difference value;
If when described data processing unit judges that the difference of described heart rate value and described pulse frequency value is greater than preset difference value, generate the first warning message and export described first warning message to alarm unit;
Described alarm unit is reported to the police according to described first warning message.
Alternatively, also comprise:
If when described data processing unit judges that the difference of described heart rate value and described pulse frequency value is less than or equal to preset difference value, export described pulse frequency value and/or described heart rate value to display unit;
Described display unit shows described pulse frequency value and/or described heart rate value.
Alternatively, described data processing unit judges the difference of described heart rate value and described pulse frequency value also comprises before whether being greater than preset difference value:
Described data processing unit judges whether described heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit, and whether described pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit;
If when described data processing unit judges that described heart rate value is greater than heart rate higher limit or is less than described heart rate lower limit and/or judges that described pulse frequency value is greater than pulse frequency higher limit or is less than described pulse frequency lower limit, generate Secondary Report alarming information and export described Secondary Report alarming information to described alarm unit;
Described alarm unit is reported to the police according to described Secondary Report alarming information.
Alternatively, also comprise:
If when described data processing unit judges that described heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit and judges that described pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit, perform the described operation generating the difference of described heart rate value and described pulse frequency value according to described heart rate value and described pulse frequency value.
The present invention has following beneficial effect:
In the technical scheme of measurement device provided by the invention and measuring method, physiological parameter acquisition unit gathers pulse frequency parameter and hrv parameter, and export the pulse frequency parameter collected and hrv parameter to data processing unit, data processing unit generates pulse frequency value according to pulse frequency parameter and generates heart rate value according to hrv parameter and generate the difference of heart rate value and pulse frequency value according to heart rate value and pulse frequency value, in the present invention when the heart of user goes wrong, the heart rate value generated and the difference of pulse frequency value can reflect heart produced problem accurately, thus provide reliable foundation for user's prevention and therapy disease.
Detailed description of the invention
For making those skilled in the art understand technical scheme of the present invention better, below in conjunction with accompanying drawing, measurement device provided by the invention and measuring method are described in detail.
The structural representation of a kind of measurement device that Fig. 1 provides for the embodiment of the present invention one, as shown in Figure 1, this measurement device comprises: physiological parameter acquisition unit 11 and data processing unit 13.Physiological parameter acquisition unit 11 for gathering pulse frequency parameter and hrv parameter, and exports the pulse frequency parameter collected and hrv parameter to data processing unit 13.Data processing unit 13 for generating pulse frequency value according to pulse frequency parameter and generating heart rate value according to hrv parameter, and generates the difference of heart rate value and pulse frequency value according to heart rate value and pulse frequency value.
Particularly, physiological parameter acquisition unit 11 can comprise: pulse frequency collecting unit 111 and heart rate acquisition unit 112.
Pulse frequency collecting unit 111 for gathering pulse frequency parameter, and exports the pulse frequency parameter collected to data processing unit 13.Particularly, pulse frequency collecting unit 111 can be pressure transducer.The skin that this pressure transducer can be close to user is arranged, fluctuation signal is collected by monitoring blood vessel, and export the fluctuation signal collected to data processing unit 13, now pulse frequency parameter is fluctuation signal, and data processing unit 13 pairs of fluctuation signals carry out process and generate pulse frequency value.Such as: when measurement device is wrist-measurement device, the radial artery place that this pressure transducer can be close to user's wrist is arranged, pressure transducer collect radial artery fluctuation signal by monitoring radial artery and radial artery fluctuation signal is exported to data processing unit 13 now pulse frequency parameter be radial artery fluctuation signal, data processing unit 13 pairs of radial artery fluctuation signals carry out process and generate pulse frequency value.Wherein, pressure transducer can adopt piezoelectric film.
Heart rate acquisition unit 112 for gathering hrv parameter, and exports the hrv parameter collected to data processing unit 13.Particularly, heart rate acquisition unit 112 can comprise luminous tube and photo-detector.Luminous tube is to tissue utilizing emitted light signal, and photo-detector receives the optical signal through tissue and generates hrv parameter according to the optical signal through tissue received, thus realizes the collection to hrv parameter, and wherein hrv parameter is the signal of telecommunication.Then photo-detector can export hrv parameter to data processing unit 13, carry out process for data processing unit 13 pairs of hrv parameters and generate heart rate value, particularly, data processing unit 13 can calculate the frequency of the signal power change of the hrv parameter received to obtain heart rate value.Such as: when measurement device is wrist-measurement device, optical signal through tissue is the optical signal reflected through tissue, particularly, the skin that luminous tube and photo-detector can be close to the radial artery place of user's wrist is arranged, then luminous tube is to wrist skin histology utilizing emitted light signal, optical signal is through skin histology and reflected by skin histology, and photo-detector receives by the optical signal reflected.Again such as: when measurement device is finger-clipped measurement device, through the optical signal that the optical signal of tissue can be through tissue transmission, particularly, luminous tube is to finger utilizing emitted light signal, optical signal is transmitted through finger, and photo-detector receives the optical signal be transmitted.Wherein, optical signal can be infrared light.
Alternatively, physiological parameter acquisition unit 11 can also be used for gathering blood oxygen parameter.Particularly, blood oxygen parameter can be gathered by heart rate acquisition unit 112, and export the blood oxygen parameter collected to data processing unit 13; Data processing unit 13 generates blood oxygen levels according to blood oxygen parameter.When heart rate acquisition unit 112 comprises luminous tube and photo-detector, luminous tube is to tissue utilizing emitted light signal, photo-detector receives the optical signal through tissue and generates blood oxygen parameter according to receiving through the optical signal of tissue, thus the collection realized blood oxygen parameter, wherein blood oxygen parameter is the signal of telecommunication.Then photo-detector can export blood oxygen parameter to data processing unit 13, calculates blood oxygen levels for data processing unit 13 according to the absorbance of optical signal to blood oxygen parameter.Wherein, because optical signal can comprise HONGGUANG and the infrared light of different wave length, therefore, the blood oxygen parameter of electrical signal form can comprise the HONGGUANG signal of telecommunication and infrared electro signal, and correspondingly, absorbance can comprise the absorbance of HONGGUANG and the absorbance of infrared light.Then particularly, data processing unit 13 can carry out computing to generate blood oxygen levels to the absorbance of the absorbance of HONGGUANG, the HONGGUANG signal of telecommunication, infrared light and infrared electro signal.The measurement device of the present embodiment adopts luminous tube and photo-detector, can also realize the collection to blood oxygen parameter except can realizing the collection to hrv parameter simultaneously.
Wherein, heart rate value and pulse frequency value specifically can subtract each other by data processing unit 13, to obtain the difference of heart rate value and pulse frequency value.
Alternatively, measurement device also comprises: the alarm unit 14 be connected with data processing unit 13.Data processing unit 13, also for judging whether the difference of heart rate value and pulse frequency value is greater than preset difference value, if when judging that the difference of heart rate value and pulse frequency value is greater than preset difference value, generating the first warning message and exporting the first warning message to alarm unit 14.Alarm unit 14 is for reporting to the police according to the first warning message.Wherein, when data processing unit 13 judges that the difference of heart rate value and pulse frequency value is greater than preset difference value, the heart rate value of user and the difference of pulse frequency value larger, this shows that the heart of user goes wrong, not in shape, now data processing unit 13 generates the first warning message, and is reported to the police according to the first warning message by alarm unit 14, thus reaches the object that reminding user heart goes wrong.Wherein, preferably, the first warning message can be acoustic information, video information and/or vibration information.
Alternatively, this measurement device can also comprise: the display unit 15 be connected with data processing unit 13.If when data processing unit 13 is also for judging that the difference of heart rate value and pulse frequency value is less than or equal to preset difference value, export pulse frequency value and/or heart rate value to display unit 15.Display unit 15 is for showing pulse frequency value and/or heart rate value.Wherein, when data processing unit 13 judges that the difference of heart rate value and pulse frequency value is less than or equal to preset difference value, the heart rate value of user and the difference of pulse frequency value less, this shows that the heart of user does not go wrong, in shape, now data processing unit 13 exports pulse frequency value and/or heart rate value to display unit 15, shown by display unit 15 pairs of pulse frequency values and/or heart rate value, check pulse frequency value and/or heart rate value for user by display unit 15, by the pulse frequency value that demonstrates and/or heart rate value, user can know that heart is good.
Alternatively, this measurement device can also comprise: the data transmission unit 16 be connected with data processing unit 13.If when data processing unit 13 judges that the difference of heart rate value and pulse frequency value is less than or equal to preset difference value, export pulse frequency value and/or heart rate value to data transmission unit 16.Data transmission unit 16 is for exporting pulse frequency value and/or heart rate value to exterior terminal equipment, and the display module for exterior terminal equipment shows pulse frequency value and/or heart rate value.By the display module of exterior terminal equipment, pulse frequency value and/or heart rate value are shown, can display effect be improved.
Alternatively, data processing unit 13 is also for judging whether heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit, and whether pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit, if when judging that heart rate value is greater than heart rate higher limit or is less than heart rate lower limit and/or judges that pulse frequency value is greater than pulse frequency higher limit or is less than pulse frequency lower limit, generate Secondary Report alarming information and export Secondary Report alarming information to alarm unit 14.Alarm unit 14 is also for reporting to the police according to Secondary Report alarming information.Wherein, when data processing unit 13 judges that heart rate value is greater than heart rate higher limit or is less than heart rate lower limit, heart rate value is in outside normal range, and namely this heart rate value is outlier, and this shows that the heart of user goes wrong, not in shape; When data processing unit 13 judges that pulse frequency value is greater than pulse frequency higher limit or is less than pulse frequency lower limit, pulse frequency value is in outside normal range, and namely this pulse frequency value is outlier, and this shows that the heart of user goes wrong, not in shape.That is, when data processing unit 13 judges that heart rate value be outlier and/or pulse frequency value is outlier, show that the heart of user goes wrong, not in shape.Now data processing unit 13 generates Secondary Report alarming information, and is reported to the police according to Secondary Report alarming information by alarm unit 14, thus reaches the object that reminding user heart goes wrong.Wherein, preferably, Secondary Report alarming information can be acoustic information, video information and/or vibration information.
Alternatively, if when data processing unit 13 is also for judging that heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit and judges that pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit, perform the operation generating the difference of described heart rate value and described pulse frequency value according to described heart rate value and described pulse frequency value.Wherein, when data processing unit 13 judges that heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit, heart rate value is within normal range, and namely this heart rate value is normal value; When data processing unit 13 judges that pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit, pulse frequency value is within normal range, and namely this pulse frequency value is normal value.Thus when judging heart rate value and pulse frequency value is normal value, continue to perform the operation generating the difference of described heart rate value and described pulse frequency value according to described heart rate value and described pulse frequency value.
Alternatively, under motion measurement pattern, this measurement device also comprises: the motion parameter collecting unit 17 be connected with data processing unit 13.Motion parameter collecting unit 17 for gathering kinematic parameter, and exports the kinematic parameter collected to data processing unit 13.Data processing unit 13 is also for generating motion step Numerical according to kinematic parameter.Further, data processing unit 13 can also calculate the heat of user's consumption according to motion step Numerical.Wherein, motion parameter collecting unit 17 can be acceleration transducer.
Alternatively, under motion monitoring pattern, measurement device also comprises: the first timing unit 18 be connected with motion parameter collecting unit 17.First timing unit 18 is for carrying out timing process to setting-up time.Motion parameter collecting unit 17 specifically for gathering the kinematic parameter in setting-up time in setting-up time, and exports the kinematic parameter in setting-up time to data processing unit 13.Data processing unit 13 is also for generating the quantity of motion in setting-up time according to the kinematic parameter in setting-up time, and judge whether the quantity of motion in setting-up time is greater than or equal to quantity of motion setting value, if when the quantity of motion judging in setting-up time is less than quantity of motion setting value, generates the 3rd warning message and also export the 3rd warning message to alarm unit 14.Alarm unit 14 is also for reporting to the police according to the 3rd warning message.Wherein, when the quantity of motion in setting-up time is less than quantity of motion setting value, show that the quantity of motion of user in setting-up time is too small, do not reach standard, now data processing unit 13 generates the 3rd warning message and is reported to the police according to the 3rd warning message by alarm unit 14, thus reminding user carries out suitable motion.The measurement device of the present embodiment can be monitored the quantity of motion of user, and user is reminded by alarm unit when user movement amount does not reach standard, with excite user perform physical exercise health wish and reminding user carries out suitable motion, solve the problem that user movement amount is very few.Wherein, preferably, the 3rd warning message can be acoustic information, video information and/or vibration information.
Alternatively, under motion monitoring pattern, measurement device also comprises: the second timing unit 19 be connected with data processing unit 13.Second timing unit 19, for when data processing unit 13 judges that kinematic parameter is less than the resting state value pre-set, carries out timing to quiescent time, and exports the quiescent time drawn to data processing unit 13.When data processing unit judges that kinematic parameter is less than the resting state value pre-set, determine that user remains static, now the second timing unit carries out timing 19 pairs of quiescent times, and wherein, quiescent time is the time that user remains static.Data processing unit 13, also for judging whether quiescent time is greater than the static scheduled time, if when judging that quiescent time is greater than the static scheduled time, generating the 4th warning message and exporting the 4th warning message to alarm unit 14.Alarm unit 14 is also for reporting to the police according to the 4th warning message.Wherein, when data processing unit 13 judges that quiescent time is greater than the static scheduled time, show that user is long for quiescent time, now data processing unit can generate the 4th warning message and be reported to the police according to the 4th warning message by alarm unit 14, thus reminding user carries out suitable motion.The measurement device of the present embodiment can be monitored the quiescent time of user, and when resting between long time by alarm unit, user is reminded, carry out suitable motion with reminding user, thus avoid occurring long-time inactive problem.Wherein, preferably, the 4th warning message can be acoustic information, video information and/or vibration information.
In the present embodiment, because the effect of the first warning message, Secondary Report alarming information, the 3rd warning message and the 4th warning message is different, therefore can arrange the content of the first warning message, Secondary Report alarming information, the 3rd warning message and the 4th warning message in advance, be the warning of different content by the curriculum offering of the first warning message, Secondary Report alarming information, the 3rd warning message and the 4th warning message, distinguish to enable user.
Alternatively, under sleep monitor pattern, motion parameter collecting unit can gather kinematic parameter when user is in sleep state.And time numerical value is stood up in the kinematic parameter generation of data processing unit 13 also for collecting when user is in sleep state according to motion parameter collecting unit 17.User can know self sleep state by standing up time numerical value, it is better to stand up the fewer sleep state of number of times under normal circumstances.Further, data processing unit can also carry out statistics and analysis to standing up time numerical value, and to generate sleep state analysis report, user more comprehensively can know the sleep state of self by the report of this sleep analysis.Measurement device can be monitored the sleep state of user, thus enables user comprehensively know the sleep state of self.
Further, this measurement device can also comprise: control unit.This control unit can be used for unlatching or the closedown of control survey equipment.
Further, this measurement device can also comprise: supply unit, and supply unit is connected with unit in Fig. 1, to power to the unit in Fig. 1.
In the present embodiment, in Fig. 1, unit accessible site is in a chip, to realize respective function.
In the present embodiment, preferably, measurement device is wrist-measurement device, when adopting wrist-measurement device to measure needs this wrist-measurement device to be arranged in wrist.Particularly, when measurement device is wrist-measurement device, this measurement device can also comprise wrist strap and be arranged at the housing on wrist strap, is provided with each circuit unit of measurement device in housing, and wrist strap is for being fixed on wrist when measuring.
Alternatively, this measurement device can also be finger-clipped measurement device or supra-aural measurement device.When measurement device is finger-clipped measurement device, be arranged on finger when this finger-clipped measurement device is measured; When measurement device is supra-aural measurement device, when this finger-clipped measurement device is measured, be arranged at ear.
In the technical scheme of the measurement device that the present embodiment provides, physiological parameter acquisition unit gathers pulse frequency parameter and hrv parameter, and export the pulse frequency parameter collected and hrv parameter to data processing unit, data processing unit generates pulse frequency value according to pulse frequency parameter and generates heart rate value according to hrv parameter and generate the difference of heart rate value and pulse frequency value according to heart rate value and pulse frequency value, in the present embodiment when the heart of user goes wrong, the difference of the heart rate value that measurement device generates and pulse frequency value can reflect heart produced problem accurately, thus provide reliable foundation for user's prevention and therapy disease.
The flow chart of a kind of measuring method that Fig. 2 provides for the embodiment of the present invention two, as shown in Figure 2, the method comprises:
Step 101, physiological parameter acquisition unit gather pulse frequency parameter and hrv parameter, and export the pulse frequency parameter collected and hrv parameter to data processing unit.
Step 102, data processing unit generate pulse frequency value according to pulse frequency parameter and generate heart rate value according to hrv parameter, and generate the difference of heart rate value and pulse frequency value according to heart rate value and pulse frequency value.
In the technical scheme of the measuring method that the present embodiment provides, physiological parameter acquisition unit gathers pulse frequency parameter and hrv parameter under the control of the control unit, and export the pulse frequency parameter collected and hrv parameter to data processing unit, data processing unit generates pulse frequency value according to pulse frequency parameter and generates heart rate value according to hrv parameter and generate the difference of heart rate value and pulse frequency value according to heart rate value and pulse frequency value, in the present embodiment when the heart of user goes wrong, the difference of heart rate value and pulse frequency value can reflect heart produced problem accurately, thus provide reliable foundation for user's prevention and therapy disease.
The flow chart of a kind of measuring method that Fig. 3 provides for the embodiment of the present invention three, as shown in Figure 3, the method comprises:
Step 201, physiological parameter acquisition unit gather pulse frequency parameter and hrv parameter, and export the pulse frequency parameter collected and hrv parameter to data processing unit.
Step 202, data processing unit generate pulse frequency value according to pulse frequency parameter and generate heart rate value according to hrv parameter.
Step 203, data processing unit judges whether heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit, and whether pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit, if perform step 204 when judging that heart rate value is greater than heart rate higher limit or is less than heart rate lower limit and/or judges that pulse frequency value is greater than pulse frequency higher limit or is less than pulse frequency lower limit, if perform step 206 when judging that heart rate value is less than or equal to heart rate higher limit and is greater than or equal to heart rate lower limit and judges that pulse frequency value is less than or equal to pulse frequency higher limit and is greater than or equal to pulse frequency lower limit,
Step 204, data processing unit generate Secondary Report alarming information and export Secondary Report alarming information to alarm unit.
Step 205, alarm unit are reported to the police according to Secondary Report alarming information, and flow process terminates.
Step 206, data processing unit generate the difference of heart rate value and pulse frequency value according to heart rate value and pulse frequency value.
Step 207, data processing unit judge whether the difference of heart rate value and pulse frequency value is greater than preset difference value, if judge, the difference of heart rate value and pulse frequency value is greater than preset difference value, performs step 208, if judge, the difference of heart rate value and pulse frequency value is less than or equal to preset difference value otherwise performs step 210.
Step 208, data processing unit generate the first warning message and export the first warning message to alarm unit.
Step 209, alarm unit are reported to the police according to the first warning message, and flow process terminates.
Step 210, data processing unit export pulse frequency value and/or heart rate value to display unit, and display unit shows pulse frequency value and/or heart rate value.
The measurement device that the measuring method that above-described embodiment two and embodiment three provide can be provided by embodiment one realizes.
In the technical scheme of the measuring method that the present embodiment provides, when data processing unit judges that heart rate value is greater than heart rate higher limit or is less than heart rate lower limit and/or judges that pulse frequency value is greater than pulse frequency higher limit or is less than pulse frequency lower limit, show that heart rate value and pulse frequency value are outlier, alarm unit is reported to the police according to Secondary Report alarming information, thus reaches the object that reminding user heart goes wrong; Data processing unit judges that the difference of heart rate value and pulse frequency value shows when being greater than preset difference value that the heart of user goes wrong, not in shape, now alarm unit is reported to the police according to the first warning message, thus reaches the object that reminding user heart goes wrong.
Be understandable that, the illustrative embodiments that above embodiment is only used to principle of the present invention is described and adopts, but the present invention is not limited thereto.For those skilled in the art, without departing from the spirit and substance in the present invention, can make various modification and improvement, these modification and improvement are also considered as protection scope of the present invention.