RU177706U1 - MULTI-CHANNEL DEVICE FOR REMOTE BIO-PHYSICAL MONITORING - Google Patents

Abstract

The device relates to the field of biomedical technology and can be used for non-contact remote biophysical monitoring of a person’s functional state. A multi-channel device for remote biophysical monitoring of a person’s condition includes a rigid body made of perforated material, inside of which a power supply unit and a multi-channel signal processing processor are fixed, to the inputs of which with the help of wires connected to the walls of the housing unit of the bioradar, video high-resolution measure, time-of-flight camera, infrared camera, thermal imaging camera, terahertz camera, laser vibrometer, audio recorder, gas analyzer, ambient temperature sensor, atmospheric pressure sensor, air humidity sensor, memory module, liquid crystal display, the screen of which is displayed on the outer wall of the case, and a wireless data transmission module, the housing being equipped with connectors for charging the power supply and extracting information from the output of the multi-channel signal processing processor. The achieved result achieved by the given set of features is to simplify non-contact remote biophysical monitoring of human condition indicators. 11 s.p. f-ly.

Description

 The device relates to the field of medical technology and can be used for non-contact remote biophysical monitoring of the functional state of a person in the tasks of clinical, sports, aerospace, military and other fields of medicine, as well as in the design of jobs for operators of ergatic systems.

The closest technical solution for the set of essential features is an intelligent controller of the state of the operator of the ergatic system (utility model RU 148126), which contains an active star connected by topology, the center of which is an analysis and control unit: a bioradar, an analyzer of the position of the controls, an analyzer of the state of the system life support, protective equipment state analyzer, voice communication analyzer, response analyzer, hands-free equipment communications, a screen for presenting symbolic and color incentives, an operator response input device and a switching unit that provides interfacing with the automatic control system of the ergatic system and with a parametric recorder of information about its functioning. The disadvantage of this technical solution is the inability to implement wireless data transmission of multi-channel biophysical monitoring of indicators of human condition.

The technical problem, which is aimed by the claimed device, is to provide multi-channel non-contact remote biophysical monitoring of the functional state of a person.

The named technical problem is solved due to the fact that a multichannel device for remote biophysical monitoring of a person’s functional state includes a rigid case made of perforated material, inside which a power supply unit and a multichannel signal processor are fixed, to the inputs of which a bioradar unit mounted on the walls of the case is connected, high-resolution video camera, time-of-flight camera, infrared camera, thermal imaging camera, terahertz camera RA, a laser vibrometer, an audio recorder, a gas analyzer, an ambient temperature sensor, an atmospheric pressure sensor, an air humidity sensor, a memory module, a liquid crystal display whose screen is displayed on the outer wall of the housing, and a wireless data transmission module, the housing being equipped with connectors for charging the power supply and retrieving information from the output of a multi-channel signal processor.

The body of the device, as a rule, is made in the form of a cube with rounded corners, placing the components of the device on all internal walls except the bottom. Application for the manufacture of a cube of perforated material provides the opportunity for objective registration of indicators of human condition and the environment.

For ease of use, the liquid crystal display, the screen of which is displayed on the outer wall of the housing of the multi-channel device, can be made touch.

To simplify the processing of the results of long-term monitoring of a person’s functional state, the memory module of a multichannel device can be removable.

To simplify the processing of the results of long-term monitoring of the functional state of a person, the memory module of a multichannel device can be implemented according to a scheme with non-volatile memory.

To improve the operational characteristics of a multi-channel device, its housing can be made of shockproof plastic.

To improve the operational characteristics of a multi-channel device, its housing can be made in dust and moisture protection.

To improve the operational characteristics of a multi-channel device, its body can be equipped with a tripod mount.

To improve the operational characteristics of a multichannel device, its body can be equipped with a mount for fixing on clothes and uniforms.

To improve the operational characteristics of a multi-channel device, its housing can be equipped with a mount for fixing on the housing of a mobile phone.

To improve the operational characteristics of a multi-channel device, its housing can be equipped with a mount for fixing on the dashboard of the vehicle.

To improve the possibility of widespread use of a multichannel device, its body can be equipped with a mount for fixing on the body of an unmanned aerial vehicle.

To improve the possibility of widespread use of a multichannel device, its housing can be equipped with a mount for fixing on the housing of a mobile robotic platform.

The technical result achieved by the above set of features is to ensure the reliability of objective contactless remote biophysical monitoring by simultaneously recording real-time human and environmental indicators with the possibility of centralized control of a multi-channel signal processing processor.

The material equivalent of the multi-channel signal processing processor unit and the control unit is the technical solution described in US 20060140291 A1.

The material equivalent of a memory block is the technical solution described in US Pat. No. 85318802 B2.

The material equivalent of a wireless data transmission unit is the technical solution described in patent US 20090264075 A1.

The material equivalent of the liquid crystal display unit is the technical solution described in patent WO 2013096860 A1.

The material equivalent of the bioradar unit is the technical solution described in patent WO 2015174879 A1.

The material equivalent of a high-resolution video camera unit is the technical solution described in patent WO 1999059332 A1.

The material equivalent of the infrared camera unit is the technical solution described in patent EP 2954670 A1.

The material equivalent of the thermal imaging camera unit is the technical solution described in US Pat. No. 7,977,634 B2.

The material equivalent of the terahertz chamber unit is the technical solution described in US 8058618 B2.

The material equivalent of the time-of-flight camera unit is the technical solution described in US 9625569 B2.

The material equivalent of the laser vibrometer unit is the technical solution described in US Pat. No. 8,621,931 B2.

The material equivalent of the audio recorder unit is the technical solution described in patent EP 2901403 A1.

The material equivalent of the gas analyzer unit is the technical solution described in US Pat. No. 5,854,685 A.

The material equivalent of the ambient temperature sensor is the technical solution described in US patent 20160363485 A1.

The material equivalent of the atmospheric pressure sensor is the technical solution described in patent WO 2008148649 A1.

The material equivalent of a humidity sensor is the technical solution described in US Pat. No. 6,990,847 B2.

The inventive device operates as follows.

Before starting work, the device is fixed on a swivel mount and the wall of the housing, on which the bioradar unit is fixed, is oriented towards the object of contactless remote biophysical monitoring.

After turning on the power source on the liquid crystal display, the screen of which is displayed on the outer wall of the housing and is touch-sensitive, a set of indicators of a person’s state is selected in dialog mode for continuous contactless remote registration, including the following:

I) the variability of the amplitude and frequency of a person’s respiratory movements - using a bio-radar, time-of-flight camera, laser vibrometer;

II) the variability of the amplitude and heart rate of a person - using bioradar, laser vibrometer;

III) the amplitude and frequency of acoustic vibrations in the process of human life - using an audio recorder;

IV) pulse wave propagation speed - using a bio-radar and a high-resolution camera;

V) stroke volume of the heart - using bioradar, high-resolution cameras;

VI) systolic and diastolic arterial blood pressure - through the connector of the bioradar unit, high-resolution camera;

VII) the level of blood oxygen saturation - using a high-resolution video camera;

VIII) the distribution of sources of thermal radiation over the surface of the human body - using a thermal imaging camera;

IX) the distribution of sources of terahertz radiation over the surface of the human body - using a terahertz camera;

X) the trajectory of the movements of parts of the human body - using a high-resolution camera, infrared camera, time-of-flight camera;

XI) the psycho-emotional state of a person - with the help of a high-resolution camera, an infrared camera;

XII) the composition of air inhaled and exhaled by a person - using a gas analyzer.

In the process of multi-channel non-contact remote biophysical monitoring, a set of indicators of a person’s functional state under the control of a multi-channel signal processing processor is continuously displayed on a liquid crystal display, the screen of which is displayed on the external wall of the housing and is touch-sensitive, and is recorded in a memory module.

To take into account the current state of the environment in the process of non-contact remote biophysical monitoring of indicators of a person’s functional state, information from sensors of ambient temperature, atmospheric pressure, and air humidity is additionally taken into account.

If necessary, using the wireless data transmission module, the recorded results of multi-channel non-contact remote biophysical monitoring of the functional state of a person can be transferred to an external device for interpretation.

Upon completion of the multi-channel non-contact remote biophysical monitoring of the functional state of a person, the device’s power source is turned off.

The claimed device provides multichannel non-contact remote biophysical monitoring of a person’s functional state in the course of activity without using contact electrodes, wire sensors and sensors, without creating discomfort for patients and interference with professional activities of ergatic systems operators.

The constructive unity of the claimed technical solution is ensured by the fact that the elements that make up the device are made in one housing, connected by wires according to the "active star" topology, the central element of which is a multi-channel microprocessor, and powered from a single power source.

Thus, the described elements of the claimed device are functionally interconnected and are in constructive unity, and the totality of its essential features is unknown from the prior art.

The inventive device is industrially applicable, since it can be implemented by enterprises (organizations) of the medical and electronic industries.

Claims (11)

1. A multi-channel device for remote biophysical monitoring of a person’s functional state, comprising a rigid case made of perforated material, inside which a power supply unit and a multi-channel signal processor are attached, to the inputs of which are connected a bioradar unit, a high-resolution video camera, a time-of-flight camera, infrared camera, thermal imaging camera, terahertz camera, laser vibrometer, audio recorder, gas analyzer, t sensor ambient temperature, atmospheric pressure sensor, air humidity sensor, memory module, liquid crystal display, the touch screen of which is displayed on the outer wall of the housing, and a wireless data transmission module, the housing being equipped with connectors for charging the power supply and retrieving information from the output of the multi-channel signal processing processor . 2. The multichannel device according to claim 1, characterized in that the memory module is removable. 3. The multichannel device according to claim 1, characterized in that the memory module is made in accordance with a non-volatile memory circuit. 4. The multi-channel device according to claim 1, characterized in that the housing is made of shockproof plastic. 5. The multichannel device according to claim 1, characterized in that the housing is made in dust and water tight performance. 6. The multi-channel device according to claim 1, characterized in that the housing is equipped with a tripod mount. 7. The multichannel device according to claim 1, characterized in that the housing is equipped with a mount for fixing on clothes and uniforms of a person. 8. The multichannel device according to claim 1, characterized in that the housing is equipped with a mount for fixing on the housing of a mobile phone. 9. The multi-channel device according to claim 1, characterized in that the housing is equipped with a mount for fixing on the dashboard of the vehicle. 10. The multi-channel device according to claim 1, characterized in that the hull is equipped with a mount for fixing on the hull of an unmanned aerial vehicle. 11. The multi-channel device according to claim 1, characterized in that the housing is equipped with a mount for fixing on the housing of a mobile robotic platform.