RU93655U1 - PORTABLE TELEMEDICAL DIAGNOSTIC KIT - Google Patents

Abstract

 1. Wearable telemedicine diagnostic kit containing a base unit in the form of a computer connected to a local telemedicine station via a wireless data channel and a video monitoring unit with an integrated wireless module, a module for recording biomedical signals connected to the base unit via a wireless data channel, as well as a head-mounted audio-video headset containing a monitor, a video camera and an audio headset in the form of headphones and a microphone, while the base unit is connected via cable to the video monitoring unit is connected via cable to the video camera, and through the wireless communication module to the base unit and the local telemedicine station, the kit is equipped with an autonomous power supply unit or built-in rechargeable batteries to ensure uninterrupted operation of the components of the kit, while the unit the autonomous power supply is connected by cables to the base unit and the video monitoring unit. ! 2. Wearable telemedicine diagnostic kit according to claim 1, characterized in that the base unit, the video monitoring unit and the self-contained power unit are mounted on a removable belt. ! 3. The wearable telemedicine diagnostic kit according to claim 1, characterized in that the base unit, the video monitoring unit and the self-contained power unit are located in the shoulder bag, and the video camera is connected to the video monitoring unit and the monitor with the base unit through intermediate connectors located in the shoulder straps of the backpack on which the kit controls are also located.

Description

The utility model relates to telemedicine, in particular, to the construction of wearable (portable) telemedicine kits and can be used to provide specialized and qualified medical assistance to the population of hard-to-reach and remote areas with insufficiently high level of medical support, in the field, centers of natural disasters and technological disasters and in other extreme situations.

The wearable telemedicine kit can be used both autonomously and as part of a mobile telemedicine complex, the telecommunication and diagnostic medical equipment of which is mounted on a vehicle, such as a car.

Known wearable telemedicine kit, intended for use on board an aircraft in emergency medical cases, containing a portable suitcase and a device for recording images placed therein, a device for recording sound or speech, a monitor for playing video signals. In this case, medical devices can be placed: a portable electrocardiograph, a device for measuring blood pressure and some others. All the equipment used is connected to the networks via cable communication, which significantly reduces the possibility of using this device as a mobile, telemedicine means that can be freely transported over considerable distances. (Application for invention RU No.2000109564 A, class AB61B 5/00, publ. 10.02. 2002).

The disadvantages of the known solutions include a very narrow scope and limited area of use - only on board the aircraft and in emergency cases.

Known wearable telemedicine kit containing a means of carrying and placed in this tool telecommunication equipment, and the means of carrying is made in the form of a shoulder pack, while telecommunication equipment contains a video monitoring unit for generating and transmitting audio signals and video images and interconnected with a satellite terminal and a telemedicine station, a data transmission unit containing a basic module - a computer designed for collection, processing, storage and iema transfer medical information, power supply and telecommunications head headset. (Patent RU 59954 U1, publ. 10.01.2007)

The disadvantages of the known solution include the lack of a rapid diagnostic tool and assessment of the clinical and physiological parameters of the human body, which does not allow us to fully solve the problem of providing qualified medical care.

This technical solution was taken as the closest analogue.

The technical problem to be solved using the claimed utility model is the creation of a portable wireless, based on wireless communications, autonomous telemedicine diagnostic kit, which is a set of software and hardware tools necessary and sufficient for carrying out in remote and remote areas, as well as in field and other extreme conditions of a wide range of targeted actions associated with a thorough examination and in-depth examination of the patient, using tools diagnostics of the clinical and physiological parameters of the human body, obtaining, appropriate processing and subsequent transmission of data via wireless communication channels and which can be used both as a separate type of telemedicine equipment, and as an integral part of medical telecommunication equipment of ambulance teams, ambulances, field hospitals etc.

This is also the technical result for which this utility model is intended, to which should also be added the increase in mobility, autonomy and the level of accessibility of the provision of highly qualified medical care.

The specified technical result is achieved due to the fact that the wearable telemedicine diagnostic kit contains a base unit in the form of a computer connected to a local telemedicine station via a wireless data transmission channel and a video monitoring unit with a built-in wireless communication module, a module for recording biomedical signals associated with the base unit over a wireless data channel, as well as a head-mounted audio-video headset containing a monitor, a video camera and an audio headset in the form of a headphone and a microphone, while the base unit is connected via cable to the monitor, and wirelessly to the audio headset, the video monitoring unit is connected via cable to the video camera, and through the wireless module to the base unit and the local telemedicine station, and the kit is equipped with an autonomous power supply unit or built-in rechargeable batteries batteries to ensure uninterrupted operation of the components of the kit, while the autonomous power supply unit is connected by cables to the base unit and the video monitoring unit

The base unit, the video monitoring unit and the autonomous power supply unit can be mounted on a removable belt or in a shoulder bag, and in the second case, the video camera is connected to the video monitoring unit and the monitor with the base unit through intermediate connectors located in the shoulder straps of the satchel, on which the organs are also located kit management

The kit contains a base unit 1 in the form of a computer and a video monitoring unit 2 with a built-in wireless module connected via a wireless data channel to each other and to a local telemedicine station 3.

The base unit is a small-sized computer with built-in wireless communication interfaces, on which an operating system (for example, such as Microsoft Windows) runs specialized software for the interaction of the operator of a portable telemedicine diagnostic kit with the components of this kit and a remote consultant.

The main functions of the base unit are:

- collection and pre-processing of data received from the video monitoring module and the module for recording biomedical signals through a wireless device such as "Bluetooth". The received information after processing is displayed on the head-mounted monitor.

- visualization of the received data;

- data transmission from the module of registration of biomedical signals to a remote consultant at a local telemedicine station.

- access to reference materials;

- duplex audio interaction with a remote consultant.

Video monitoring unit 2 is a stand-alone device with an integrated wireless module. It provides the reception of video from a video camera, which is part of the head-mounted audio-video headset, converting it into a sequence of IP packets and transmitting a sequence of IP packets over a wireless data network (using WI-FI technology) to base unit I and to the local telemedicine station 3.

The sequence of IP packets is received by the base unit of the wearable telemedicine diagnostic module and the local telemedicine station over the data network and is decoded by software running on these devices. Video viewing is carried out by means of special software.

The kit is equipped with a module for recording biomedical signals 4, connected to the base unit 1 via a wireless data transmission channel and designed to register such biomedical signals as an electrocardiogram, body temperature, and photoplethysmogram (PPG). The latter is a graphic pulse recording based on the determination of the optical properties of tissue in the light spectrum λ = 680 nm. The use of the PPG method for recording the pulse, in addition to the standard analysis of heart rate variability, makes it possible to evaluate the state of the cardiovascular system and regulation systems by the shape of the pulse wave.

Data is digitized and digitally transmitted to the base unit of the wearable telemedicine diagnostic kit via the Bluetooth protocol for subsequent analysis and visualization.

The module for recording biomedical signals allows you to quickly and fairly reliably assess the condition of the injured person / patient through analysis of objective recorded indicators.

The kit also contains a head-mounted audio-video headset, including a MicroOptical type 5 monitor, attached to ordinary glasses, a color video camera 6 mounted on the operator’s head and an audio headset 7 in the form of headphones and a microphone, with support for Bluetooth

The base unit 1 is connected via cable to the monitor 5, and wirelessly with an audio headset 7.

The video monitoring unit 2 is connected via cable to the video camera 6, and through the wireless communication module to the base unit 1 and the local telemedicine station 3.

The kit can be equipped with an autonomous power supply unit 8 or built-in rechargeable batteries (not shown) in each component of the kit (unit, module, etc.) to ensure uninterrupted operation of the kit components.

When using an autonomous power supply unit 8, the latter is connected by cables to the base unit 1 and the video monitoring unit 2.

The base unit 1, the video monitoring unit 2 and the autonomous power supply unit 8 can be mounted on a removable belt or in a shoulder bag (not shown in the figure).

In the latter case, in the presence of a shoulder bag and carrying the base unit 1 and the video monitoring unit 2 in it, the connection of the video camera 6 with the video monitoring unit 2 and the monitor 6 with the base unit 1 is carried out through intermediate connectors located in the shoulder straps of the satchel, on which the organs are also located kit management.

Data entry control is carried out using a mouse-type pointer (not shown in the figure), based on the gyroscopic principle of operation, which allows you to position the cursor by moving the pointer in space rather than over the surface. The idle indicator can be located in a pocket on a belt or on the side surface of a satchel.

Wearable telemedicine diagnostic kit provides visualization of data in symbolic and graphic video on a monitor screen with a resolution of at least 640 × 480 pixels. The head-mounted video camera of the wearable telemedicine kit is a high-resolution color small-sized video camera. Signal standard - PAL, resolution of at least 480 television lines, sensitivity of at least 1 lux.

Data transmission from the base unit and video monitoring module is carried out according to WI-FI technology, through standards for broadband wireless access IEEE 802.1 lb and IEEE 802. 11b, at speeds up to 54 Mbps.

The frequency range for transmitting information is 2.412-2.462 GHz.

The range of the transceiver when operating in the standard 802.11g at full transmitter power with an internal antenna within line of sight - up to 200 meters.

Work with a wearable telemedicine kit is as follows. The operator puts on the belt the base unit 1, the video monitoring unit 2 and the autonomous power supply unit 8, connecting it with the supplied cables to the base unit and the video monitoring unit. An audio headset 7 is placed in the ear, glasses with a head-mounted monitor 5 are placed on the eyes, and a video camera 6 is placed on the head.

It is necessary to turn on the audio headset 7 and monitor 5. After that, the operator must connect the cable from the monitor to the corresponding connector on the base unit 1, and the cable from the video camera 6 to the corresponding connector on the video monitoring unit 2.

When all the connections are completed, the power button of the base unit and the video monitoring unit is pressed, after which the system software starts loading, the process of which will be displayed on the monitor. After the loading of the operating system is completed, the application software is automatically loaded.

Application software is controlled by a mouse pointer. Alphanumeric information is entered using the “virtual” keyboard - software that displays on the monitor screen an image of a standard computer keyboard.

Broadcast video from the head-mounted video camera 6 is carried out regardless of the processor module. To view the image, the operator and the remote user must use specialized software. The operator can control the image from the camcorder using specialized software that generates an image from the camcorder on the monitor screen.

The module for registering biomedical signals 4 is connected to the base unit 1 via the Bluetooth protocol, application software displays information from it on the monitor screen in real-time numerical and graphic video.

The audio communication of the operator with remote subscribers is carried out using an audio headset and specialized software that encodes the audio stream in the direction from the audio headset and decodes the audio stream in the direction of the audio headset. The subscriber for communication is selected from the address list.

To stop working with a portable telemedicine diagnostic kit, the operator (user) must shut down all running software applications and select the option “Turn off the computer”. After the operation of the operating system, the power of the base unit, video monitoring unit, monitor and audio headset is turned off. Next, the monitor, camcorder and battery cables are disconnected from the connectors on the corresponding modules of the wearable telemedicine diagnostic kit. After that, the operator can remove peripheral equipment and a belt with blocks.

The described wearable telemedicine diagnostic kit can be widely used to transmit special medical diagnostic information, as well as video and audio information, mainly in the field.

This kit can be equipped with an operator that performs the functions of remote monitoring and assessment of the condition of patients / victims.

Claims (3)

1. Wearable telemedicine diagnostic kit containing a base unit in the form of a computer connected to a local telemedicine station via a wireless data channel and a video monitoring unit with an integrated wireless module, a module for recording biomedical signals connected to the base unit via a wireless data channel, as well as a head-mounted audio-video headset containing a monitor, a video camera and an audio headset in the form of headphones and a microphone, while the base unit is connected via cable to the video monitoring unit is connected via cable to the video camera, and through the wireless communication module to the base unit and the local telemedicine station, the kit is equipped with an autonomous power supply unit or built-in rechargeable batteries to ensure uninterrupted operation of the components of the kit, while the unit the autonomous power supply is connected by cables to the base unit and the video monitoring unit. 2. Wearable telemedicine diagnostic kit according to claim 1, characterized in that the base unit, the video monitoring unit and the self-contained power unit are mounted on a removable belt. 3. The wearable telemedicine diagnostic kit according to claim 1, characterized in that the base unit, the video monitoring unit and the self-contained power unit are located in the shoulder bag, and the video camera is connected to the video monitoring unit and the monitor with the base unit through intermediate connectors located in the shoulder straps of the backpack on which the kit controls are also located.