CN101695085A - Mobile phone as well as method and device for monitoring physiological indexes of human body - Google Patents

Abstract

The invention discloses a method for monitoring physiological indexes of a human body, comprising the following steps: an accessory sensor collects human body physiological index data and sends the human body physiological index data to an analog-digital conversion module in a mobile phone; after carrying out analog-digital conversion processing on data from the accessory sensor, the analog-digital conversion module sends the data to a processor in the mobile phone; after carrying out operation processing on data from the analog-digital conversion module, the processor sends a processing result to an analysis module in the mobile phone; and the analysis module analyzes data from the processor and outputs a analysis result to a user through an output module of the mobile phone. The invention also discloses a device for monitoring physiological indexes of the human body and the mobile phone. By adopting the technical scheme, the physiological indexes of the user can be conveniently monitored.

Description

The method and apparatus of a kind of mobile phone and a kind of monitoring human physiological index

Technical field

The present invention relates to data communication technology, particularly relate to the method and apparatus of a kind of mobile phone and a kind of monitoring human physiological index

Background technology

In real life, various slight illness are perplexing people.

A lot of patients are not owing to have and can in time find when morbidity, and cause that sb.'s illness took a turn for the worse, cause serious consequence, and people's body and mind has been caused great injury.

If can adopt a kind of convenient mode monitoring patient's appointment physical signs, the discovery state of an illness that just can be is early missed to take to give treatment to accordingly.

Summary of the invention

The invention discloses a kind of method of monitoring human physiological index, this method can monitor user's physical signs easily, in time finds illness.

The invention discloses a kind of device of monitoring human physiological index, this device can monitor user's physical signs easily, in time finds illness.

The invention also discloses a kind of mobile phone, this mobile phone can monitor user's physical signs easily, in time finds illness.

For achieving the above object, the solution of the present invention is achieved in that

The invention discloses a kind of method of monitoring human physiological index, this method comprises:

Accessory sensor is gathered the Human Physiology achievement data, and sends to the analog-to-digital conversion module in the mobile phone;

Described analog-to-digital conversion module is sent to the processor in the mobile phone to after carrying out analog-to-digital conversion process from the data of accessory sensor;

Described processor is to after carrying out calculation process from the data of analog-to-digital conversion module, and result is sent to analysis module in the mobile phone;

Described analysis module is analyzed the data of from processor, and with the display screen demonstration output of analysis result by mobile phone.

The invention discloses a kind of device of monitoring human physiological index, this device comprises: mobile phone and accessory sensor; Wherein, mobile phone comprises: analog-to-digital conversion module, processor, analysis module and output module, wherein,

Accessory sensor is used to gather the Human Physiology achievement data, and sends to the analog-to-digital conversion module in the mobile phone;

Described analog-to-digital conversion module is sent to the processor in the mobile phone to after carrying out analog-to-digital conversion process from the data of accessory sensor;

Described processor is to after carrying out calculation process from the data of analog-to-digital conversion module, and result is sent to analysis module in the mobile phone;

Described analysis module is analyzed the data of from processor, and with the output module output of analysis result by mobile phone.

The invention also discloses a kind of mobile phone, this mobile phone comprises: analog-to-digital conversion module, processor, analysis module and output module, wherein,

Analog-to-digital conversion module is used to receive the Human Physiology achievement data that accessory sensor is gathered, and after the data that received are carried out analog-to-digital conversion process, is sent to processor;

Processor is used for to after carrying out calculation process from the data of analog-to-digital conversion module result being sent to analysis module;

Analysis module is used for the data of from processor are analyzed, and analysis result is sent to output module;

Output module is used for the data that received are exported to the user.

As seen from the above, this mobile phone that utilizes of the present invention is realized data processing and analysis, and cooperate one group of accessory sensor, finish technical scheme to the monitoring of user's physical signs, can measure and monitor envoy's health whenever and wherever possible, reduced user's morbidity hidden danger, ensured that effectively the user's is healthy.

Description of drawings

Fig. 1 is a schematic diagram of technical solution of the present invention;

Fig. 2 is the composition structural representation of the device of a kind of monitoring human physiological index of the embodiment of the invention;

Fig. 3 is the subregion schematic diagram of the right hemisphere of human brain;

Fig. 4 is the schematic diagram of the electrode cap in the embodiment of the invention;

Fig. 5 is that the infrared emission in the embodiment of the invention receives the operation principle schematic diagram to pipe;

Fig. 6 is the signal of the sphygmomanometer in the embodiment of the invention;

Fig. 7 is the internal structure schematic diagram of the temp probe in the embodiment of the invention;

Fig. 8 is the resistance value of the thermistor in the embodiment of the invention and the change curve between the temperature.

Embodiment

Fig. 1 is a schematic diagram of technical solution of the present invention.Referring to Fig. 1, main thought of the present invention is: utilize the computing and the memory function of mobile phone, gather user's data of physiological index by accessory sensor, send to and carry out computing and analyzing and processing in the mobile phone, at last, export to the user by the output module of mobile phone.Because mobile phone is popularizing very in daily life, therefore can monitor and measure user's health whenever and wherever possible, if any unusually then can in time reporting to the police, reduced user's morbidity hidden danger, ensure that effectively the user's is healthy.

In order to make the purpose, technical solutions and advantages of the present invention clearer, describe the present invention below in conjunction with the drawings and specific embodiments.

Fig. 2 is the composition structural representation of the device of a kind of monitoring human physiological index of the embodiment of the invention.Figure is shown in 2, and this device comprises: mobile phone 201 and accessory sensor 202, wherein, mobile phone 201 comprises: analog-to-digital conversion module 203, processor 204, analysis module 205 and output module 206.

In Fig. 2, accessory sensor 202 is used to gather the Human Physiology achievement data, and sends to the analog-to-digital conversion module 203 in the mobile phone 201;

After 203 pairs of data from accessory sensor 202 of analog-to-digital conversion module are carried out analog-to-digital conversion process, be sent to the processor 204 in the mobile phone; Here to refer to analog signal conversion be data-signal to analog-to-digital conversion process.

After 204 pairs of data from analog-to-digital conversion module 203 of processor are carried out calculation process, result is sent to analysis module 205 in the mobile phone;

The data of 205 pairs of from processors 204 of analysis module are analyzed, and with output module 206 outputs of analysis result by mobile phone.

Here output module 206 can be the display screen of mobile phone, also can be the loudspeaker of mobile phone, i.e. loudspeaker.For example, analysis result can be exported by display screen with the form of literal or figure, when unusual, also can be given the alarm by loudspeaker.

The Human Physiology index of being monitored in the embodiment of the invention includes but not limited to following several: brain wave, pulse, blood pressure and body temperature.

Measurement to the above-mentioned Human Physiology index of mentioning describes below.

One, the measurement of brain wave

People's brain comprises left and right two hemisphere and connects the mid portion of two hemisphere.The dorsal part of both sides of the brain respectively has an oblique ditch, is called side and splits.The top that side is split, the centre of about brain hemisphere, have one by on step forward the below the brain ditch, be called central sulcus.Each brain hemisphere is divided into four leaves again: the position on splitting with side before the central sulcus is called frontal lobe; Side is split following position, is called temporal lobe; Part on central sulcus is split with side afterwards is called top; After top and the temporal lobe, on cerebellum, the part of brain rear end is called occipital lobe.More than each cerebral lobe all extend to the medial surface of hemisphere and bottom surface, and in each cerebral lobe zone, many little brain ditches are arranged respectively, wherein containing various nerve centers, share different tasks.Fig. 3 is the subregion schematic diagram of the right hemisphere of human brain.Wherein, frontal lobe is responsible for thinking, plan, and is relevant with the demand and the emotion of individuality; The sensation of top response pain, touch, trial test, temperature, pressure; Temporal lobe is responsible for handling auditory information, and is also relevant with memory and emotion; Occipital lobe is responsible for processing visual information.

In one embodiment of the invention, the accessory sensor that is used to gather brain wave is an electrode cap.

Fig. 4 is the schematic diagram of the electrode cap in the embodiment of the invention.Referring to Fig. 4:

G1, G2, G3: be indifferent electrode, i.e. ground wire, the position is two ear-lobes and middle part, the place ahead, the crown;

F1, F2: be frontal electrode, be responsible for gathering the brain wave of brain frontal cortex part;

T1, T2: be the temporal lobe electrode, be responsible for gathering the brain wave of brain temporal lobe part;

P1, P2: be the top electrode, be responsible for gathering the brain wave of quader part;

O1, O2: be the occipital lobe electrode, be responsible for gathering the brain wave of brain occipital lobe part.

About each cerebral lobe of half brain all establish an electrode, other has three indifferent electrodes, gets 11 electrode districts altogether.

When the needs brain wave, the user puts on suitable electrode cap, pushes hair aside, places the electrode area scalp with degreasing with the cotton ball soaked in alcohol wiping earlier, installs then to get final product with SS saline soaked electrode.The measured brain wave of electrode cap will be sent to the analog-to-digital conversion module in the mobile phone by the interface between electrode cap and the mobile phone like this, carries out follow-up processing.

Two, the measurement of pulse

Blood flow in the human vas can change along with beating of heart.Many capillaries are arranged on people's the finger, and along with beating of heart, the blood flow on the finger also can change; From first and last, the haemoconcentration on the finger can change along with beating of heart.

In one embodiment of the invention, the accessory sensor that is used to gather pulse information is that infrared emission receives pipe.

Fig. 5 is that the infrared emission in the embodiment of the invention receives the operation principle schematic diagram to pipe.Referring to Fig. 5, infrared emission receives pipe is comprised: infrared transmitting tube and infrared receiving tube.Haemoconcentration in the human finger can change regularly along with heartbeat.In use, infrared transmitting tube and infrared receiving tube place the both sides of finger respectively, and transmitting terminal carries out infrared emission, and then the light intensity that receives of receiving terminal can change along with the variation of haemoconcentration, thereby received current can change.Analog-to-digital conversion module in the mobile phone is converted into digital quantity with the current strength that receives and delivers to processor, and processor is analyzed the Changing Pattern of current strength, detects the period of change of electric current, can obtain the jumping frequency rate of heart, i.e. pulse.By analysis module pulse data is analyzed then, analysis result is shown output by display screen, perhaps have when unusual and send alarm sound by loudspeaker.

Three, the measurement of blood pressure

In one embodiment of the invention, the accessory sensor that is used to gather blood pressure data is a sphygmomanometer.

Fig. 6 is the schematic diagram of the sphygmomanometer in the embodiment of the invention.Referring to Fig. 6: sphygmomanometer is made of pressure sensor, bandage and an air bag.Pressure sensor is fixed on the bandage, and the inner integrated air bag of elastoplast is in order to the measurement blood pressure of exerting pressure.Bandage is fixed on the arm, pressure sensor is aimed at blood vessel, increase pressure, slow release then.In the process that pressure reduces, pressure has two sudden changes, corresponds respectively to the high pressure and the low pressure of blood pressure.Gather this change in voltage by the analog-to-digital conversion module of mobile phone,, analyze this two sudden changes, can obtain the high pressure and the low pressure of user's blood pressure, and show the output measurement result by the display screen of mobile phone by analysis module through after the processing of processor.

Four, the measurement of body temperature

In one embodiment of the invention, the accessory sensor that is used to gather temperature data is the body temperature probe, is placed on the oxter, can test out user's body temp.

Fig. 7 is the internal structure schematic diagram of the temp probe in the embodiment of the invention.As shown in Figure 7, temp probe inside is by thermistor, and fixed resistance value resistance (being that 10k is an example for resistance here) and power supply Vcc constitute.Wherein the resistance of thermistor changes along with variation of temperature.Power supply, fixed resistance value resistance and thermistor are cascaded successively the other end ground connection of thermistor.Measure the voltage Vs between fixed resistance value resistance and the thermistor, just can obtain the resistance value Rs of current thermistor.The computing formula of Rs is as follows:

$\mathrm{Rs}=\frac{\mathrm{Vs}}{I}=\frac{\mathrm{Vs}}{\frac{\mathrm{Vcc}-\mathrm{Vs}}{10}}=\frac{10\×\mathrm{Vs}}{\mathrm{Vcc}-\mathrm{Vs}}$

In the last formula, I represents the electric current via thermistor and fixed resistance value resistance.

Fig. 8 is the resistance value of the thermistor in the embodiment of the invention and the change curve between the temperature.After calculating the resistance value Rs of thermistor, resistance value by searching thermistor shown in Figure 8 and the corresponding relation between the temperature just can obtain corresponding temperature value.

In sum, in device shown in Figure 2, accessory sensor 202 can be electrode cap, is used to gather brain wave; Perhaps, accessory sensor 202 can receive pipe for infrared emission, is used to gather pulse; Perhaps, accessory sensor 202 can be sphygmomanometer, is used to gather blood pressure; Perhaps accessory sensor 202 can be temp probe, is used to gather body temperature.

Next provide the composition structure of a kind of mobile phone among the present invention, mobile phone described here is exactly the mobile phone 201 in the device shown in Figure 2, with reference to figure 2:

A kind of mobile phone in the embodiment of the invention comprises: analog-to-digital conversion module 203, processor 204, analysis module 205 and output module 206, wherein,

Analog-to-digital conversion module 203 is used to receive the Human Physiology achievement data that accessory sensor is gathered, and after the data that received are carried out analog-to-digital conversion process, is sent to processor 204;

Processor 204 is used for to after carrying out calculation process from the data of analog-to-digital conversion module 203 result being sent to analysis module 205;

Analysis module 205 is used for the data of from processor 204 are analyzed, and analysis result is sent to output module 206;

Output module 206 is used for the data that received are exported to the user.

For the mobile phone in the embodiment of the invention, when accessory sensor is that described modulus changes the brain wave data that 203 modules are used for the collection of collecting electrode cap, and carries out being sent to processor 204 after the analog-to-digital conversion process when comprising the electrode cap of the electrode of gathering the cerebral lobe electric wave; Perhaps,

When accessory sensor is served as reasons the infrared emission that places finger infrared transmitting tube of both sides and infrared receiving tube to constitute when receiving pipe, described analog-to-digital conversion module 203 is used to receive infrared emission and receives the pulse data that pipe is gathered, and carries out being sent to processor 204 after the analog-to-digital conversion process; Perhaps,

When accessory sensor during for the sphygmomanometer that is made of pressure sensor, bandage and air bag, 203 of described analog-to-digital conversion moulds are used to receive the blood pressure data that sphygmomanometer is gathered, and carry out being sent to processor 204 after the analog-to-digital conversion process; Perhaps,

When accessory sensor during for the temp probe that is made of fixing resistance of thermistor, resistance and power supply, described analog-to-digital conversion module 203 is used to receive the temperature data that temp probe is gathered, and carries out being sent to processor 204 after the analog-to-digital conversion process.

In the mobile phone of the embodiment of the invention, described output module 206 is display screen or loudspeaker.

In sum, this mobile phone that utilizes of the present invention is realized data processing and analysis, and cooperate one group of accessory sensor, finish technical scheme to the monitoring of user's physical signs, can measure and monitor envoy's health whenever and wherever possible, reduced user's morbidity hidden danger, ensured that effectively the user's is healthy

The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being made, is equal to replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (10)

1. the method for a monitoring human physiological index is characterized in that, this method comprises:

Accessory sensor is gathered the Human Physiology achievement data, and sends to the analog-to-digital conversion module in the mobile phone;

Described analog-to-digital conversion module is sent to the processor in the mobile phone to after carrying out analog-to-digital conversion process from the data of accessory sensor;

Described processor is to after carrying out calculation process from the data of analog-to-digital conversion module, and result is sent to analysis module in the mobile phone;

Described analysis module is analyzed the data of from processor, and with the output module output of analysis result by mobile phone.

2. method according to claim 1 is characterized in that,

Described accessory sensor comprises the electrode cap of the electrode of gathering the cerebral lobe electric wave, and described Human Physiology index is a brain wave;

And/or,

Described accessory sensor comprises that described Human Physiology index is a pulse by placing the infrared transmitting tube of pointing both sides and the infrared emission that infrared reception constitutes to receive pipe;

And/or,

Described accessory sensor comprises the sphygmomanometer that is made of pressure sensor, bandage and air bag, and described Human Physiology index is a blood pressure;

And/or,

Described accessory sensor comprises the temp probe that is made of fixing resistance of thermistor, resistance value and power supply, and described Human Physiology index is a body temperature.

3. method according to claim 2 is characterized in that,

Described electrode cap comprises: two frontal electrodes, be responsible for gathering the brain wave of brain frontal cortex part; Two temporal lobe electrodes are responsible for gathering the brain wave of brain temporal lobe part; Two top electrodes are responsible for gathering the brain wave of quader part; Two occipital lobe electrodes are responsible for gathering the brain wave of brain occipital lobe part; And the indifferent electrode of three ground connection;

When using described infrared emission to receive to pipe, infrared transmitting tube and infrared receiving tube place the both sides of finger respectively, infrared transmitting tube carries out infrared emission, and the light intensity that infrared receiving tube receives can change along with the variation of blood of human body concentration, thus also respective change of received current intensity; Analog-to-digital conversion module in the mobile phone is converted into digital quantity with the current strength that receives and delivers to processor, processor is analyzed the Changing Pattern of current strength, detect the period of change of electric current, obtain the jumping frequency rate of heart, with the jumping frequency rate of the heart that obtains as described pulse;

In the described sphygmomanometer, pressure sensor is fixed on the bandage, and bandage inside is integrated with air bag; In use be, bandage is fixed on the arm, pressure sensor is aimed at blood vessel, increase pressure, slow release then, in the process that pressure reduces, pressure has two sudden changes, corresponds respectively to the high pressure and the low pressure of blood pressure;

In described accessory sensor, power supply, fixing resistance and the thermistor of resistance value are connected successively, and the other end ground connection of thermistor; Resistance that measured resistance value is fixing and the voltage Vs between the thermistor, and calculate the resistance Rs of thermistor according to following formula:

$\mathrm{Rs}=\frac{R\×\mathrm{Vs}}{\mathrm{Vcc}-\mathrm{Vs}}$

Wherein, R is the resistance of the fixing resistance of resistance, and Vcc is the voltage of power supply;

At last, according to the resistance value of thermistor and the corresponding relation between the temperature, obtain body temperature.

4. according to claim 1,2 or 3 described methods, it is characterized in that described output module is display screen or loudspeaker.

5. the device of a monitoring human physiological index is characterized in that, this device comprises: mobile phone and accessory sensor; Wherein, mobile phone comprises: analog-to-digital conversion module, processor, analysis module and output module, wherein,

Accessory sensor is used to gather the Human Physiology achievement data, and sends to the analog-to-digital conversion module in the mobile phone;

Described analog-to-digital conversion module is sent to the processor in the mobile phone to after carrying out analog-to-digital conversion process from the data of accessory sensor;

Described processor is to after carrying out calculation process from the data of analog-to-digital conversion module, and result is sent to analysis module in the mobile phone;

Described analysis module is analyzed the data of from processor, and with the output module output of analysis result by mobile phone.

6. device according to claim 5 is characterized in that,

Described accessory sensor is an electrode cap, is used to gather brain wave; This electrode cap comprises: the electrode of gathering the cerebral lobe electric wave;

And/or,

Described accessory sensor is that infrared emission receives pipe, is used to gather pulse; This infrared emission receives pipe is comprised: the infrared transmitting tube and the infrared receiving tube that place the finger both sides respectively;

And/or,

Described accessory sensor is a sphygmomanometer, is used to gather blood pressure; This sphygmomanometer comprises: pressure sensor, bandage and air bag;

And/or,

Described accessory sensor is a temp probe, is used to gather body temperature; This temp probe comprises: thermistor, fixing resistance, the power supply of resistance value.

7. device according to claim 6 is characterized in that,

Described electrode cap comprises: two frontal electrodes are used to gather the brain wave of brain frontal cortex part; Two temporal lobe electrodes are used to gather the brain wave of brain temporal lobe part; Two top electrodes are used to gather the brain wave of quader part; Two occipital lobe electrodes are used to gather the brain wave of brain occipital lobe part; And the indifferent electrode of three ground connection;

When using described infrared emission to receive to pipe, infrared transmitting tube and infrared receiving tube place the both sides of finger respectively, infrared transmitting tube carries out infrared emission, and the light intensity that infrared receiving tube receives can change along with the variation of blood of human body concentration, thus also respective change of received current intensity; Analog-to-digital conversion module in the mobile phone is converted into digital quantity with the current strength that receives and delivers to processor, and processor is analyzed the Changing Pattern of current strength, detects the period of change of electric current, can obtain the jumping frequency rate of heart, i.e. pulse;

In the described sphygmomanometer, pressure sensor is fixed on the bandage, and bandage inside is integrated with air bag; In use be, bandage is fixed on the arm, pressure sensor is aimed at blood vessel, increase pressure, slow release then, in the process that pressure reduces, pressure has two sudden changes, corresponds respectively to the high pressure and the low pressure of blood pressure;

In described accessory sensor, power supply, fixing resistance and the thermistor of resistance value are connected successively, and the other end ground connection of thermistor; Resistance that measured resistance value is fixing and the voltage Vs between the thermistor, and calculate the resistance Rs of thermistor according to following formula:

$\mathrm{Rs}=\frac{R\×\mathrm{Vs}}{\mathrm{Vcc}-\mathrm{Vs}}$

Wherein, R is the resistance of the fixing resistance of resistance, and Vcc is the voltage of power supply;

At last, according to the resistance value of thermistor and the corresponding relation between the temperature, obtain body temperature.

8. according to claim 5,6 or 7 described devices, it is characterized in that described output module is display screen or loudspeaker.

9. a mobile phone is characterized in that, this mobile phone comprises: analog-to-digital conversion module, processor, analysis module and output module, wherein,

Analog-to-digital conversion module is used to receive the Human Physiology achievement data that accessory sensor is gathered, and after the data that received are carried out analog-to-digital conversion process, is sent to processor;

Processor is used for to after carrying out calculation process from the data of analog-to-digital conversion module result being sent to analysis module;

Analysis module is used for the data of from processor are analyzed, and analysis result is sent to output module;

Output module is used for the data that received are exported to the user.

10. mobile phone according to claim 9 is characterized in that,

Described accessory sensor is the electrode cap that comprises the electrode of gathering the cerebral lobe electric wave, and then described modulus forwarding module is used for the brain wave data that the collecting electrode cap is gathered, and carries out being sent to processor after the analog-to-digital conversion process;

And/or,

The described accessory sensor infrared emission that places finger infrared transmitting tube of both sides and infrared receiving tube to constitute of serving as reasons receives pipe, then described analog-to-digital conversion module is used to receive infrared emission and receives the pulse data that pipe is gathered, and carries out being sent to processor after the analog-to-digital conversion process;

And/or,

The sphygmomanometer of described accessory sensor for being made of pressure sensor, bandage and air bag, then described analog-to-digital conversion module are used to receive the blood pressure data that sphygmomanometer is gathered, and carry out being sent to processor after the analog-to-digital conversion process.

And/or,

The temp probe of described accessory sensor for being made of fixing resistance of thermistor, resistance and power supply, then described analog-to-digital conversion module is used to receive the temperature data that temp probe is gathered, and carries out being sent to processor after the analog-to-digital conversion process.

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