WO2009123499A1 - Device for monitoring and evaluating physiological processes - Google Patents

Abstract

The invention relates to medicine. The inventive device for monitoring and evaluating physiological processes comprises thoracic and abdominal breathing sensors, a galvanic skin response sensor, an arterial blood pressure sensor and a cardiovascular activity sensor which, via amplifiers and filters, are connected to the inputs of a switchboard, the control input of which is coupled to the first bus of a microcontroller, the output being coupled to the first input of an instrumental amplifier. The second input of the instrumental amplifier is connected to the output of a first DAC, the third input is connected to the output of a second DAC and the output to the input of an ADC. The inputs of the first and second DAC and the group of inputs-outputs of the ADC are coupled to the second bus of the microcontroller, the third bus of which is coupled, via an interface unit, to a personal computer. A facial expression sensor, a piezoplethysmogram sensor or the sensor of a variable component of galvanic skin response are connected to the input of an additional channel. The channel comprises a second electronic switchboard, to the outputs of which first and second subchannels for processing sensor signals are connected.

Description

 DEVICE FOR CONTROL AND EVALUATION OF PHYSIOLOGICAL PROCESSES

Technical field

The invention relates to medicine, in particular to devices for biomedical use, designed to record and evaluate the rapid physiological reactions of a person that occur in response to the incentives presented to him (questions, objects, photographs, etc.). The invention can be used to implement a psychophysiological method for identifying hidden information during surveys, forensic psychophysiological examinations, during proceedings on the facts of abuse, corruption, theft. The proposed device is a functionally complete unit and is used for receiving, amplifying, converting, and transmitting for further processing to a personal computer the physiological parameters of the test person: tonic and phase components of electric skin resistance, chest and abdominal breathing, blood pressure, cardiovascular activity (plethysmogram, photoplethysmogram), motor activity (tremor and facial expression sensor).

State of the art

To conduct psychophysiological studies in medicine and other fields, various devices for monitoring and analyzing human physiological reactions are widely used, which include polygraphs, voice stress analyzers, strain gauge platforms, etc. These devices record and process human responses to stimuli that they perceive.

Devices for controlling, storing and transmitting registered information are known from foreign patent literature, see, for example, EP 0212278. The known device comprises a microprocessor, a decoder, an information receiving unit, an analog-to-digital converter (ADC), a switch, a heart rate sensor, a signal conditioner . This device, however, due to the small number of physiological parameters analyzed, has low reliability. From US Pat. No. 4,940,059, a polygraph with improved cardiac signal registration is known, which uses blood pressure information along with a heart rate.

From international application WO 03/057003 a non-invasive polygraph based on optical analysis is known. The device generates a series of pulses in the laser, infrared range, these pulses are reflected from the subject, fed to a receiver connected to the processor, analyzed, information is displayed.

One of the latest foreign developments is the device disclosed in publication US 2007270659, this device allows you to remotely detect false information in the information received from the test subject using at least one physiological parameter transmitted at a distance. The interpreter uses a polygraph to evaluate.

Among domestic developments, one can distinguish the device according to patent RU 2010326, which uses a whole range of parameters: the parameters of the dynamics of cardiovascular activity, respiration, galvanic skin reactions. The device contains a microprocessor, an information receiving unit, sensors of physiological parameters.

Closest to the present invention is a device for monitoring and evaluating physiological parameters according to patent RU 2203614. The known device contains a microcontroller, an ADC, a switch, sensors for chest respiration, abdominal respiration, galvanic skin reaction, blood pressure, cardiovascular activity, a sensor of motor activity, power supply, pre-amplifiers, signal amplifiers, filters, digital-to-analog converters (DACs), instrumental amplifier and PC interface, sleep adjoint galvanic isolation. The sensors through amplifiers and filters are connected to the corresponding inputs of the switch, the control input of which is connected to the first bus of the microcontroller, and the output to the first input of the instrument amplifier, the second input of the instrument amplifier is connected to the output of the first DAC, the third input to the output of the second DAC, and the output to the input of the ADC, the inputs of the first and second DACs and the group of inputs / outputs of the ADC are connected to the second bus of the microcontroller, the third bus of which is connected to the block pairing with a personal computer. This device allows you to obtain data on the presence in the received information of false information with a sufficiently high reliability. However, the known device uses a limited number of parameters, it does not provide the ability to select parameters for evaluation. In this regard, the reliability of the conclusion obtained using this device is insufficient.

Disclosure of invention

The problem to which the invention is directed is to create a device for monitoring and evaluating physiological processes using the maximum number of physiological parameters, selecting parameters, in particular during the test, for subsequent evaluation by degree of significance and providing undoubted objectivity to the conclusion obtained with its help.

In addition, the invention allows for operation, both in stationary and in the field.

In addition, the invention improves the reliability of the information obtained by connecting channels for obtaining information about the different components of one parameter.

The technical result is achieved due to the fact that in the device for monitoring and evaluating physiological processes containing a microcontroller, an ADC, a first switch, sensors for chest respiration, abdominal respiration, galvanic skin reaction, blood pressure, cardiovascular activity, a sensor of motor activity, a power supply, preliminary amplifiers, signal amplifiers, filters, the first and second DACs, an instrumentation amplifier and a personal computer interface unit equipped with galvanic isolation, while the sensor ki through amplifiers and filters are connected to the corresponding inputs of the first switch, the control input of which is connected to the first bus of the microcontroller, and the output is from the first input of the instrument amplifier, the second input of the instrument amplifier is connected to the output of the first DAC, the third input to the output of the second DAC, and the output to the input of the ADC, the inputs of the first and second DACs and the group of inputs / outputs of the ADC are connected to the second bus of the microcontroller, the third bus of which is connected to the interface unit with a personal computer, an additional channel is used with the ability to connect a facial expression sensor, a piezo plethysmogram sensor or a galvanic-skin reaction to its input and including a second electronic switch, to the outputs of which signal processing sub-channels from the corresponding sensor are connected, while the first subchannel includes a pre-amplifier and a filter connected in series, the second - a pre-amplifier, a filter, a signal amplifier and add ny filter, and outputs the subchannel through third electronic switch, a control input coupled to the microcontroller are connected to the input of the first switch. The facial expression sensor is equipped with elastic straps with an adjustable length ending with latches for mounting the sensor on the person’s head, and a cap that can contact the person’s head and, through the spring, act on the button connected to the piezoelectric element, the conclusions of which are the output of the sensor.

Brief Description of the Drawings The invention will be better understood from the further description with reference to the drawings, in which: in FIG. 1 - shows a functional diagram of the device, in FIG. 2 - shows a General view of the facial expression sensor.

The best example of carrying out the invention

The device for monitoring and evaluating physiological processes 1 is designed to work in conjunction with a personal computer (not shown), which provides processing and display of information received, its recording, storage, printing of test results.

The device 1 contains a microcontroller 2, ADC 3, the first switch 4, a chest breathing sensor 6, an abdominal breathing sensor 5, a galvanic skin reaction sensor 7, a blood pressure sensor 8, a cardiovascular activity sensor 9, a motor activity sensor 10, a power supply 11, preliminary amplifiers 12-19, signal amplifiers 20-22, filters 23 - 33, first and second DACs 34 and 35, instrumental amplify 36 and block pairing 37 with a personal computer equipped with galvanic isolation. Sensors 5 - 10 through pre-amplifiers 12 - 16 and 19, filters 23 - 29 and 33 and signal amplifiers 20 and 22 are connected to the corresponding inputs of the first switch 4, the control input of which is connected to the first bus of the microcontroller 38, and the output to the first input of the instrument amplifier 36, the second input of the instrumentation amplifier 36 is connected to the output of the first DAC 34, the third input to the output of the second DAC 35, and the output to the input of the ADC 3, the inputs of the first and second DACs 34 and 35, and the group of inputs / outputs of the ADC 3 are connected to the second bus 39 microcontroller 2, the third bus 40 which yazana with the interface unit 37 to the personal computer. An additional channel introduced into the device according to the invention has the ability to connect to its input a facial expression sensor 41, an additional piezo plethysmogram sensor or an additional sensor of skin-galvanic reaction (not shown). The additional channel includes a second electronic switch 42, to the outputs of which sub-channels of signal processing from the corresponding sensor are connected. First subchannel includes a pre-amplifier 17 and a filter 30 connected in series, the second channel includes a pre-amplifier 18, a filter 31, a signal amplifier 21 and an additional filter 32. The outputs of the subchannels through the third electronic switch 43 are connected to the input of the first switch 4. The control input of the third switch 43 is connected to the output microcontroller 2.

The facial expression sensor 41 is designed to record indicators of motor activity of the muscles of the face of a person. The sensor 41 is equipped with elastic straps 44 with an adjustable length ending with latches 45 for mounting the sensor 41 on the subject’s head, and a cap 46 that can contact the person’s head and, through a spring (not shown), act on the button 47 connected to the piezoelectric element, the conclusions of which are the output of the sensor 41. A cable with a connector is connected to the housing of the sensor 41. The pressure perceived by cap 46 is transmitted through the spring to button 47. An electrical signal proportional to the derivative of the force exerted on the button is output from the sensor via a cable. The elements of the sensor housing 41 are made of aluminum alloy with protective oxide decorative coating.

Instead of a facial expression sensor 41, a piezoelectric plethysmogram or tremor sensor or a skin-galvanic reaction sensor (variable component) can be connected to an additional channel.

The sensor 10 of motor activity is designed to record indicators of motor activity of a person. It consists of two sensor elements mounted under the legs of a chair and a connecting cable with a connector. The body of the sensor element is made of two steel plates separated by a washer of porous rubber. The basis of the sensor element is a piezoelectric element glued to the inner surface of one of the metal plates. To transfer the force to the piezoelectric element from the opposite plate, a rubber disk is glued to it. Sensor elements are connected in parallel.

The skin-galvanic reaction sensor 7 is designed to record changes in skin resistance. The sensor 7 is fixed with fasteners on the fingers of the hands of the subject.

Sensors of chest 5 and abdominal 6 respiration are structurally identical and consist of a body, in which there is a capacitor of variable capacitance and an electronics board, two levers, as well as clamps connected to the levers by elastic belts. The latches are connected by a chain, with the help of which the sensor can be fixed on the chest cage of any size.

The blood pressure sensor is a bulb with an exhaust valve, with a tee attached to it, connecting tubes with a pneumatic connector and a rubber cuff.

The piezo plethysmogram sensor is designed to register peripheral vascular blood flow indices. The sensor is equipped with a fastener for mounting on a person’s finger. The pressure perceived by the cap is transmitted through the spring to the button connected to the piezoelectric element. An electrical signal proportional to the derivative of the force applied to the button is output through the cable. The photoplethysmogram sensor is mounted on the finger in the same way. Perceived by the photodiode mounted on the sensor body, the infrared light flux penetrating the peripheral blood vessels in the finger is converted into an electrical signal proportional to the light power of this flux and is output from the sensor through a cable connecting it to the corresponding channel of the device.

The device is used as follows.

The outputs of the sensors through the amplifiers 13-17 and 20-22 and the filters are alternately connected through the switch 4 to the input of the instrumental amplifier 36 (amplifier with adjustable gain). From the output of the instrumentation amplifier 36, the signal is fed to a 12-bit ADC 3.

The instrumental amplifier 36 allows you to match the amplitude of the signals of the sensors 5-10 and 41 with the input range of the ADC 3. In addition, the amplifier 36 serves to compensate for the constant component of the sensor signals, for which voltage is supplied to one of the inputs from the first DAC 34.

The first switch 4, the ADC 36, the first and second DACs 34 and 35 are controlled by the microcontroller 2 via standard buses 38, 39. The gain and offset values for each channel are transmitted to the microcontroller 2 from a personal computer via channel 40. The microcontroller 2 performs primary processing of the sensor signals and then transmits digital information from the computer on channel 40, to which included the interface unit 37 with a personal computer, made according to the scheme of optocoupler galvanic isolation. Power is supplied to the device circuit through an isolating converter 44, providing galvanic isolation, from the power source. To monitor the health of the sensors and connecting cables, a test signal is generated that is sent to the channels of all sensors except the blood pressure sensor 8. The blood pressure channel processes the signal of the cardiovascular activity indicator. The signal from the pressure sensor 8 is fed to the input of the pre-amplifier 19, through the filter 33 and the signal amplifier 22 to the first switch 4 and the microcontroller 2 for further processing. The channel of motor activity (tremor) processes the signal of the indicator of motor activity. The signal from the sensor 10 through the amplifier 16 and the active second-order filter 29 passes to the microcontroller 2 for further processing. The plethysmogram channel processes the signal of the cardiovascular activity indicator. The signal from the sensor 9 enters through the amplifier 15, the active filter 27 of the second order passes for further processing on microcontroller 2. An additional universal channel allows you to connect a sensor of a variable component of the skin-galvanic reaction or a piezoelectric sensor (facial expression sensor 41, an additional sensor plethysmogram, motor activity). The choice of the type of sensor can be carried out by the operator using the service program directly in the process or before the test. The signal from the selected sensor is fed to the second electronic switch 42 and then divided into two subchannels, each of which is adapted to process the signal from the corresponding sensor. A signal from a piezoelectric sensor — for example, a facial expression sensor 41 — is processed in a first subchannel. He goes to the pre-amplifier 17, which performs the coordination of the high resistance of the sensor and input circuits with subsequent stages. Next, the signal passes through an active second-order filter 30 and enters through the switches 43 and 4 for further processing. The second subchannel is designed to process a signal from a skin-galvanic reaction sensor. Voltage proportional to skin resistance, passes through preamplifier 18, active filter 31 low first-order frequencies, signal amplifier 21, through an active second-order low-pass filter 32, third and first switches 43 and 4 for long-distance processing.

Before turning on the device, appropriate sensors are placed on various parts of the body of the subject to record physiological parameters. The skin-galvanic reaction sensor 7, made in the form of two electrodes, is fixed on the index and ring fingers of one of the hands. Sensors of chest and abdominal breathing 6 and 5 strengthen on the chest and in the diaphragm. The plethysmographic sensor 9 is fixed on the middle finger. The motor activity sensor 10 is strengthened under the chair on which the subject is seated. Blood pressure sensor 8 is placed on the arm above the vessel.

In the process of testing, the test subject is presented with a series of test questions at regular intervals. These questions relate to inclinations, abilities, personal qualities and have a neutral, verification and control character. Upon presentation of control questions, the answer to which does not correspond to the real situation, an emotional outburst arises, which after a short period of time is expressed ^' -' υ и и о b I

17 in an abrupt change in indicators. Measurements are made continuously, and information about them is transmitted through the processing circuit to the microcontroller 2 and then to a personal computer. The personal computer accumulates and processes the received data and, in accordance with the program laid down, prints out a preliminary report and a polygram.

Microcontroller 2 receives and processes information from a personal computer according to the exchange protocol. In addition, it provides storage of gain and bias values for each measuring channel, power management, selection of the measuring channel, reception of the conversion results and the output of the conversion results to a personal computer, as well as the generation of a test signal to monitor the health of sensors and connecting wires.

The personal computer is implemented as a package of application programs integrated into a single environment and providing the following functions: input of signals of controlled physiological processes and their visualization (or their parameters) in the form of graphs with a real-time scale, saving entered data for further work with them, viewing the polygram

(saved data in graphical form) in the dialogue mode, outputting to the printing device the received polygram (in whole or in fragments), simultaneous viewing of polygrams of two examinations, input of additional markers in the real-time system from the keyboard, mathematical processing of data and generation of the examination protocol in tabular form , viewing, correcting and printing the generated protocol, creating a library of questionnaires and using them in the process of conducting a psychophysiological examination, automatically th selection issues of greatest emotional significance for the subject, writing and editing the conclusion of a survey by the operator, printing.

Industrial applicability

The device’s circuitry uses standard elements, known and described in the patent literature, sensors (except for the original ones disclosed here) and blocks. All elements of the device circuit are manufactured industrially. The galvanic isolation unit is made on the optocoupler channel AD307-ФД256, the model of the 6000 series CAMBASIC is used as a microcontroller. For a specialist, it is possible to manufacture and use the presented device, taking into account the information above.

Claims

CLAIM

1. A device for monitoring and evaluating physiological processes, containing a microcontroller, an analog-to-digital converter (ADC), a first switch, sensors for breast respiration, abdominal breathing, galvanic skin reaction, blood pressure, cardiovascular activity, a motor activity sensor, a power supply, and preliminary amplifiers , signal amplifiers, filters, first and second digital-to-analog converters (DACs), instrumentation amplifier and a personal computer interface unit equipped with galvanic isolation while the sensors through amplifiers and filters are connected to the corresponding inputs of the first switch, the control input of which is connected to the first bus of the microcontroller, and the output is from the first input of the instrument amplifier, the second input of the instrument amplifier is connected to the output of the first DAC, the third input to the output of the second DAC and the output is to the input of the ADC, the inputs of the first and second DACs and the group of inputs and outputs of the ADC are connected to the second bus of the microcontroller, the third bus of which is connected to the interface unit with a personal computer, characterized in that an additional channel is introduced into it with the ability to connect a facial expression sensor, a piezo plethysmogram sensor, or a sensor of a variable component of the skin-galvanic reaction, including a second electronic switch, the outputs of which are connected to the first and second subchannels of signal processing from sensor, while the first subchannel includes a pre-amplifier and a filter connected in series, the second - a pre-amplifier, a filter, a Si amplifier channels and an additional filter, and the outputs of the subchannels through the third electronic switch, the control input connected to the microcontroller, are connected to the input of the first switch.

2. The device according to p. 1, characterized in that the facial expressions sensor includes elastic straps with an adjustable length ending with latches for mounting the sensor on the subject’s head, and a cap that can contact the subject’s head and, through the spring, act on the button connected to a piezoelectric element whose outputs are the output of the sensor.