CN102920444A

CN102920444A - Portable device and method for simultaneously detecting skin temperature, skin resistance and pulse

Info

Publication number: CN102920444A
Application number: CN2012104752126A
Authority: CN
Inventors: 张建明; 周维; 李光
Original assignee: Zhejiang University ZJU
Current assignee: Zhejiang University ZJU
Priority date: 2012-11-20
Filing date: 2012-11-20
Publication date: 2013-02-13

Abstract

The invention discloses a portable device for simultaneously detecting a skin temperature, skin resistance and pulse. The device comprises a control and collection system and a host computer analysis system, wherein the control and collection system comprises a power source module, a skin temperature measurement module, a skin resistance measurement module, a pulse measurement module, a display module, a collection control module and a communication module; and the skin temperature measurement module, the skin resistance measurement module, the pulse measurement module and the display module are connected to the collection control module respectively, and the communication module is connected to the collection control system and the host computer analysis system. The invention can real-time accurately measure and collect emotion-related physiological parameters, and provides a simple easily-operable device for analyzing the emotion-related physiological parameters.

Description

The device and method of portable while detection of skin temperature, skin resistance and pulse

Technical field

The present invention relates to a kind of portable emotion related physiological parameters checkout gear, relate in the biomedical engineering field checkout gear that is used for human body physiological parameter such as body temperature, skin resistance, heart rate, also relate to the psychological test integrated instrument.

Background technology

Emotion and emotion play an important role in the human lives, and it is that the mankind itself lives and the indispensable important component part of social communication, and the action principle of correct understanding emotion will advantageously promote the harmonious development of personal health and society.Emotion is a kind of subjective consciousness, but certain physiological change is always followed in the variation of emotional state, thereby makes us study emotional state with a cover objective appraisal standard.Skin temperature, skin resistance and pulse all are to the highstrung physiological parameter of emotion changes.

Existing physical parameter detector is the application for medically mostly, generally is positioned over the health that is used for understanding the patient in the hospital, does not generally measure the skin resistance physiological parameter.In addition, these instruments are bulky, and sensor is worn complexity, are inconvenient to carry and use.The application that the present invention is directed to is the relevant research of emotion, can measure accurately the emotion related physiological parameters, has to carry to wear conveniently, and low-power consumption can be stored for a long time, the characteristics such as easy to operate easy to use.Be applicable to the emotion analysis, mental analysis, the research of the aspects such as intelligence and potential also is applicable to domestic and personal use.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, device and the detection method of a kind of portable while detection of skin temperature, skin resistance and pulse is provided.

The device of portable while detection of skin temperature, skin resistance and pulse, comprise control acquisition system and host computer analytical system, wherein control acquisition system and comprise power module, measured skin temperature module, skin resistance measurement module, pulses measure module, display module, acquisition control module, communication module; Measured skin temperature module, skin resistance measurement module, pulses measure module, display module link to each other with acquisition control module respectively, and communication module connects acquisition control system and host computer analytical system.

Described measured skin temperature modular circuit comprises thermocouple, thermocouple conditioning core U11, amplifier U13A and resistance capacitance, two of thermocouple is connected to electrode ThermalA and electrode ThermalB, the input signal of electrode ThermalA and electrode ThermalB is connected to pin 1 and the pin 14 of U11, the pin 4 of U11, pin 7 and pin 13 are connected to the ground end of power supply, a light emitting diode D5 of series connection and a resistance R 31 between the pin 11 of U11 and the pin 12, pin 11 be connected to 6V power end and and pin 10 between shunt capacitance C28, the pin 8 of U11 also is in the same place with 9, and with pin 10 between a capacitor C 26 in parallel, resistance R 33 connects the pin 8 of U11 and the pin 3 of amplifier U13A; Shunt capacitance C27 between the pin 3 of U13A and the ground, pin 2 is connected to pin 1 by resistance R 32, and pin 2 is connected to power supply ground end by resistance R 30, and pin 8 is connected to the 6V power supply, and pin 4 is connected to the ground end of power supply, and the signal of pin 1 output is designated as the temperature signal.

Described skin resistance measurement module comprises sinusoidal signal generator, electrode, current-voltage conversion module, filtering and the amplification module that links to each other in turn; Filtering links to each other with control system with collection with amplification module and consists of feedback system.

The electrode P1 end that the pin 5 of the pulse wave wave filter U10 of described pulses measure circuit and pin 7 are connected to respectively pulse transducer and electrode P2 end, pin 6 is connected to the 1V power supply, pin 4 is connected to the 3.3V power supply, swept resistance R29 of pin 2 series connection is connected to power supply ground end, and the signal of pin 1 output exports acquisition control system to.

Described measurement control module circuit comprises crystal oscillating circuit and processor chips, and processor chips adopt the MSP430F149 of TI company; Agitator Y2 is connected to pin 8 and the pin 9 of chip, connects by 0 Europe resistance R 13 between pin 61 and the pin 62, and connect respectively at a two ends capacitor C 13 and C12 of crystal oscillator Y1 is connected to power supply ground and holds, and the pin 52 of U6 and pin 53 are connected to respectively the two ends of crystal oscillator; Pin 1 and pin 64 also are attached to the 3.3V power supply, and pin 10 is connected to the 2.5V power supply.

The adapter P1 of described power module circuitry is connected to the battery of 4*1.5V, exports 6V voltage parallel capacitor C 9 and C10, is connected to pin 3 and the pin 1 of voltage stabilizing chip U4, pin 2 and pin 4 parallel connections, output voltage 3.3V; Shunt capacitance C11 and power supply C14 between outfan and the power supply ground end, resistance R 11 and light emitting diode D2 series connection, they are connected in parallel between 3.3V outfan and the ground end; Chip U5 is output negative pressure chip, and pin 3 and pin 6 are held with being connected to, and shunt capacitance C16 between pin 2 and the pin 4, pin 8 series resistance R34 are connected to the 3.3V power end, and pin 5 is held by capacitor C 19 with being connected to, and the voltage of pin 5 outputs is-3.3V voltage; Chip U9 is the voltage stabilizing chip, the voltage of output 2.5V and 1V; Pin 2 and pin 4 are connected to respectively 3.3V power end and ground end, between shunt capacitance C23 and capacitor C 24, series capacitance C25 between pin 6 and the ground, the voltage of pin 6 outputs is 2.5V, pin 6 is connected to power supply ground end by series resistance R27 and swept resistance R28, and the voltage of resistance R 27 and swept resistance R28 output is 1V.

Described communication module circuit: U7 is the MAX232 chip, shunt capacitance C17 between pin 1 and the pin 3, pin 4 and pin 5 shunt capacitance C20, pin 16 be connected to the 3.3V power supply and with pin 2 shunt capacitance C18, pin 15 is connected to power supply ground end and is connected to the 3.3V power end by series capacitance C22.Pin 6 series capacitance C21 are connected to power supply ground end; J3 is the DB9 interface, and pin 2 is connected to the pin 14 of U7, and pin 3 is connected to the pin 13 of U7, and pin 5 is connected to the ground end of power supply; P5 is output port, powers to bluetooth module; P6 is the wire jumper module, selects serial ports or bluetooth communication by connecting different wire jumpers.

Described host computer analytical system: pulse wave, skin resistance, the real-time demonstration of skin temperature signal, online regularly live forever storage and the playback of data; The transmission of skin conductivity baseline adjustment order.

The method of a kind of portable while detection of skin temperature, skin resistance and pulse, step is as follows:

1) tested age, sex and the health status essential information of record;

2) with binder pulse wave sensor is fixed on tested radial artery and goes out, the skin resistance electrode is fixed on the first joint of tested forefinger and middle finger, with binder skin temperature transducer is fixed on tested forehead position;

3) give tested stimulation, perhaps give more tested tasks, in this process, detect the host computer analytical system and show in real time and preserve the response curve of tested three physiological parameters;

4) data of preserving are carried out the calculating of pulse frequency, the differential of waveform, the processing of averaging.

The invention has the beneficial effects as follows, can measure accurately the emotion related physiological parameters, have to carry and wear conveniently, low-power consumption can be stored for a long time, the characteristics such as easy to operate easy to use.Be applicable to the emotion analysis, mental analysis, the on-site evaluations such as intelligence and potential.

Description of drawings

Fig. 1 is the apparatus structure schematic diagram of portable while detection of skin temperature, skin resistance and pulse;

Fig. 2 is measured skin temperature modular circuit schematic diagram;

Fig. 3 is the skin resistance measurement module diagram;

Fig. 4 is pulses measure modular circuit schematic diagram;

Fig. 5 is the acquisition control module circuit diagram;

Fig. 6 is the power module circuitry schematic diagram;

Fig. 7 is the communication module circuit diagram;

Fig. 8 is host computer analytical system interface schematic diagram.

The specific embodiment

Structure chart of the present invention as shown in Figure 1, it comprises control acquisition system and host computer analytical system, wherein controls acquisition system and comprises power module, measured skin temperature module, skin resistance measurement module, pulses measure module, display module, acquisition control module, communication module; The measured skin temperature module is measured skin temperature, and the skin resistance measurement module is measured skin resistance, the pulses measure module Real-time Measuring signal of feeling one's pulse; Measured skin temperature module, skin resistance measurement module, pulses measure module, display module link to each other with acquisition control module respectively, and communication module connects acquisition control system and host computer analytical system; Power module is measured skin temperature module, skin resistance measurement module, pulses measure module, display module, acquisition control module and communication module power supply.

Described measured skin temperature modular circuit can be measured skin temperature as shown in Figure 2 accurately.Circuit is comprised of thermocouple, thermocouple conditioning core U11, amplifier U13A and resistance capacitance etc.ThermalA and ThermalB are connected to the two ends of thermocouple, this input signal is connected to pin 1 and the pin 14 of U11, the pin 4 of U11, pin 7 and pin 13 are connected to the ground end of power supply, a light emitting diode D5 of series connection and a resistance R 31 between the pin 11 of U11 and the pin 12, pin 11 be connected to 6V power end and and pin 10 between shunt capacitance C28, the pin 8 of U11 also is in the same place with 9, and with pin 10 between a capacitor C 26 in parallel, resistance R 33 connects the pin 8 of U11 and the pin 3 of amplifier U13A; Shunt capacitance C27 between the pin 3 of U13A and the ground, pin 2 is connected to pin 1 by resistance R 32, simultaneously, is connected to power supply ground end by resistance R 30, and pin 8 is connected to the 6V power supply, and pin 4 is connected to the ground end of power supply, and the signal of pin 1 output is designated as the temperature signal.

Described skin resistance measurement module can be measured galvanic skin response as shown in Figure 3.It is 75hz that sinusoidal signal generator produces frequency, and amplitude is the sine wave of 300mv, and this sinusoidal signal exports electrode to, and the signal of the electrode other end transforms through current-voltage, and through filtering and amplification, delivers to collection and control system.The system that has a feedback in this module, owing to the difference of skin resistance with individuality differs greatly, feedback system can guarantee that the output of skin resistance measurement system is in a suitable scope.Go for different tested.

Described pulses measure circuit as shown in Figure 4, what sensor adopted is that vinylidene (PVDF) material detects radial artery pulse wave, has detection sensitivity high, the characteristics of good stability.The pin 5 of pulse wave wave filter U10 and pin 7 are connected to respectively P1 end and the P2 end of pulse transducer, pin 6 is connected to the 1V power supply, pin 4 is connected to the 3.3V power supply, and slide circuit R29 of pin 2 series connection is connected to power supply ground end, and the signal of pin 1 output exports acquisition control system to.

Described measurement control module circuit as shown in Figure 5, mainly by crystal oscillating circuit, processor chips consist of, process chip adopts the MSP430F149 of TI company.Agitator Y2 is connected to pin 8 and the pin 9 of chip, connects by 0 Europe resistance R 13 between pin 61 and the pin 62, and connect respectively at a two ends capacitor C 13 and C12 of crystal oscillator Y1 is connected to power supply ground and holds, and the pin 52 of U6 and pin 53 are connected to respectively the two ends of crystal oscillator.Pin 1 and pin 64 also are attached to the 3.3V power supply, and pin 10 is connected to the 2.5V power supply.

Described power module circuitry as shown in Figure 6, adapter P1 is connected to the battery of 4*1.5V, output 6V voltage parallel capacitor C 9 and C10 are connected to pin 3 and the pin 1 of voltage stabilizing chip U4, pin 2 and pin 4 parallel connections, output voltage 3.3V; Shunt capacitance C11 and power supply C14 between outfan and the power supply ground end, resistance R 11 and light emitting diode D2 series connection, they are connected in parallel between 3.3V outfan and the ground end.Chip U5 is output negative pressure chip, and pin 3 and pin 6 are held with being connected to, and shunt capacitance C16 between pin 2 and the pin 4, pin 8 series resistance R34 are connected to the 3.3V power end, and pin 5 is held by capacitor C 19 with being connected to, and the voltage of pin 5 outputs is-3.3V voltage.Chip U9 is the voltage stabilizing chip, the voltage of output 2.5V and 1V.Pin 2 and pin 4 are connected to respectively 3.3V power end and ground end, between shunt capacitance C23 and capacitor C 24, series capacitance C25 between pin 6 and the ground, the voltage of pin 6 outputs is 2.5V, pin 6 is connected to power supply ground end by series resistance R27 and swept resistance R28, and the voltage of resistance R 27 and swept resistance R28 output is 1V.

Described communication module circuit as shown in Figure 7.U7 is the MAX232 chip, shunt capacitance C17 between pin 1 and the pin 3, pin 4 and pin 5 shunt capacitance C20, pin 16 be connected to the 3.3V power supply and with pin 2 shunt capacitance C18, pin 15 is connected to power supply ground end and is connected to the 3.3V power end by series capacitance C22.Pin 6 series capacitance C21 are connected to power supply ground end; J3 is the DB9 interface, and pin 2 is connected to the pin 14 of U7, and pin 3 is connected to the pin 13 of U7, and pin 5 is connected to the ground end of power supply; P5 is output port, powers to bluetooth module; P6 is the wire jumper module, selects serial ports or bluetooth communication by connecting different wire jumpers.

Described host computer analytical system interface mainly comprises pulse wave as shown in Figure 8, skin resistance, the real-time demonstration of skin temperature signal, online regularly live forever storage and the playback of data; The transmission of skin conductivity baseline adjustment order.After host computer procedure receives the data of slave computer by bluetooth, show in real time and the operation such as storage, also can according to demand the skin conductivity baseline be adjusted, also can carry out playback to historical data.

The present invention can be used for the detection of actual emotion related physiological parameters, and testing process is as follows:

1) the tested essential informations such as age, sex and health status of record;

2) with binder pulse wave sensor is fixed on tested radial artery and goes out, the skin resistance electrode is fixed on the first joint of tested forefinger and middle finger, with binder skin temperature transducer is fixed on tested forehead position.Situation according to signal is carried out some adjustment;

3) give tested stimulation, perhaps give more tested tasks.Detection system shows and preserves the response curve of tested three physiological parameters in real time in this process.

The data of preserving are carried out the calculating of pulse frequency, the differential of waveform, the processing such as average.For subsequent analysis.

Claims

1. A portable device for simultaneously detecting skin temperature, skin resistance and pulse, characterized in that it includes a control acquisition system and an upper computer analysis system, wherein the control acquisition system includes a power supply module, a skin temperature measurement module, a skin resistance measurement module, The pulse measurement module, display module, acquisition control module, and communication module; the skin temperature measurement module, skin resistance measurement module, pulse measurement module, and display module are respectively connected to the acquisition control module, and the communication module is connected to the acquisition control system and the upper computer analysis system.

2. The portable device for simultaneously detecting skin temperature, skin resistance and pulse according to claim 1, wherein said skin temperature measurement module circuit includes a thermocouple, a thermocouple conditioning core U11, an op amp U13A and a resistor capacitor , the two ends of the thermocouple are connected to the electrode ThermalA and the electrode ThermalB, the input signal of the electrode ThermalA and the electrode ThermalB is connected to the pin 1 and pin 14 of U11, and the pin 4, pin 7 and pin 13 of U11 are connected to the power supply A light-emitting diode D5 and a resistor R31 are connected in series between pin 11 and pin 12 of U11, pin 11 is connected to the power supply terminal of 6V and a capacitor C28 is connected in parallel with pin 10, pin 8 of U11 and 9 together, and connect a capacitor C26 in parallel with pin 10, resistor R33 connects pin 8 of U11 and pin 3 of operational amplifier U13A; connect capacitor C27 in parallel between pin 3 of U13A and ground, pin 2 Connect to pin 1 through resistor R32, connect pin 2 to the ground terminal of the power supply through resistor R30, connect pin 8 to the 6V power supply, connect pin 4 to the ground terminal of the power supply, and record the output signal of pin 1 as temperature signal .

3. The portable device for simultaneously detecting skin temperature, skin resistance and pulse according to claim 1, wherein said skin resistance measurement module comprises a sinusoidal signal generator, an electrode, and a current-voltage conversion module connected in sequence , filtering and amplification module; the filtering and amplification module is connected with the acquisition and control system and forms a feedback system.

4. The portable device for simultaneously detecting skin temperature, skin resistance and pulse according to claim 1, wherein the pin 5 and pin 7 of the pulse wave filter U10 of the pulse measurement circuit are connected to the pulse wave filter U10 respectively. The electrode P1 terminal and electrode P2 terminal of the sensor, pin 6 is connected to 1V power supply, pin 4 is connected to 3.3V power supply, pin 2 is connected in series with a sliding resistor R29 to the power supply ground, and the signal output from pin 1 is output to the acquisition Control System.

5. the device of portable simultaneous detection skin temperature, skin resistance and pulse according to claim 1, is characterized in that, described measurement control module circuit comprises crystal oscillator circuit and processor chip, and processor chip adopts the MSP430F149 of TI company; Oscillator Y2 is connected to pin 8 and pin 9 of the chip, and pin 61 and pin 62 are connected through a 0 ohm resistor R13. Both ends of the crystal oscillator Y1 are connected in series with capacitors C13 and C12 to the power supply ground, and U6’s Pin 52 and pin 53 are respectively connected to the two ends of the crystal oscillator; pin 1 and pin 64 are connected to the 3.3V power supply in parallel, and pin 10 is connected to the 2.5V power supply.

6. The portable device for simultaneously detecting skin temperature, skin resistance and pulse according to claim 1, characterized in that, the connector P1 of the power module circuit is connected to a 4*1.5V battery, and a 6V voltage is output in parallel with a capacitor C9 and C10, connected to pin 3 and pin 1 of the voltage regulator chip U4, pin 2 and pin 4 are connected in parallel, the output voltage is 3.3V; parallel capacitor C11 and power supply C14, resistor R11 are connected between the output terminal and the power supply ground It is connected in series with light-emitting diode D2, and they are connected in parallel between the 3.3V output terminal and the ground terminal; chip U5 is an output negative voltage chip, pin 3 and pin 6 are connected to the ground terminal, and a capacitor is connected in parallel between pin 2 and pin 4 C16, pin 8 series resistor R34 is connected to the 3.3V power supply terminal, pin 5 is connected to the ground terminal through capacitor C19, the output voltage of pin 5 is -3.3V voltage; chip U9 is a voltage regulator chip, outputting 2.5V and 1V voltage; pin 2 and pin 4 are respectively connected to the 3.3V power supply terminal and ground terminal, capacitor C23 and capacitor C24 are connected in parallel between them, and capacitor C25 is connected in series between pin 6 and ground, and the output voltage of pin 6 is 2.5V, pin 6 is connected to the ground terminal of the power supply through the series resistor R27 and the sliding resistor R28, and the output voltage of the resistor R27 and the sliding resistor R28 is 1V.

7. The portable device for simultaneously detecting skin temperature, skin resistance and pulse according to claim 1, characterized in that, the communication module circuit: U7 is a MAX232 chip, and a capacitor C17 is connected in parallel between pin 1 and pin 3 , pin 4 and pin 5 are connected in parallel with capacitor C20, pin 16 is connected to 3.3V power supply and pin 2 is connected in parallel with capacitor C18, pin 15 is connected to power supply ground and connected to 3.3V power supply terminal through series capacitor C22, lead The pin 6 series capacitor C21 is connected to the ground terminal of the power supply; J3 is the DB9 interface, the pin 2 is connected to the pin 14 of U7, the pin 3 is connected to the pin 13 of U7, and the pin 5 is connected to the ground terminal of the power supply; P5 is The output port supplies power to the Bluetooth module; P6 is a jumper module, and the serial port or Bluetooth communication can be selected by connecting different jumpers.

8. The portable device for simultaneously detecting skin temperature, skin resistance and pulse according to claim 1, characterized in that, the analysis system of the upper computer: pulse wave, skin resistance, real-time display of skin temperature signal, online timing Storage, and playback of data; sending of skin conductance baseline adjustment commands.

9. A method for simultaneously detecting skin temperature, skin resistance and pulse by a device as claimed in claim 1, wherein the steps are as follows:

1) Record the basic information of the subjects' age, gender and health status;

2) Fix the pulse wave sensor on the radial artery outlet of the subject with a bandage, fix the skin resistance electrode at the first joint of the index finger and middle finger of the test subject, and fix the skin temperature sensor on the forehead of the test subject with a bandage;

3) Stimulation is given to the subjects, or some tasks are given to the subjects. During this process, the analysis system of the detection host computer displays and saves the response curves of the three physiological parameters of the subjects in real time;

4) Calculate the pulse rate, differentiate the waveform, and calculate the average value for the saved data.