KR20210086778A - Patient monitoring system in external counter pulsation and method thereof - Google Patents

Abstract

The present invention relates to a patient monitoring system and method of an external counter pulsation (ECP) / enhanced EECP device, and more specifically, to a patient monitoring system and method for monitoring the condition of a patient being treated alone through a medical device such as an ECP/EECP device, etc. through biometric information and images of the patient, estimating the situation and disease name in case of an emergency by applying the patient's facial expression and movement based on the biometric information and image analysis to the deep learning artificial intelligence model, and performing emergency treatment corresponding to the estimated disease name.

Description

Patient monitoring system in external counter pulsation and method thereof

The present invention relates to a patient monitoring system and method for an External Counter Pulsation (ECP)/Enhanced Extremity Compression Circulation (EECP) device, and more particularly, to a patient being treated alone through a medical device such as an ECP/EECP device. The patient’s condition is monitored through the patient’s bio-information and images, and in case of an emergency, the patient’s facial expression and movement based on bio-information and image analysis are applied to the deep learning AI model to estimate the situation and disease name and estimate the disease name. It relates to a system and method for monitoring a patient of a limb compression circulatory system for performing first aid in response to the present invention.

In general, in single-person wards, intensive care units, clean rooms, CT and MRI imaging rooms, ECP/EECP treatment rooms, etc., patients are alone in the ward, receive treatment alone, or have CT, MRI, etc. There is a case where shooting is performed.

At this time, if an abnormality occurs in the patient, there is a problem in that the patient's life may be lost if the patient cannot respond quickly.

For example, the ECP/EECP treatment room is a treatment room equipped with an ECP/EECP device for treating cardiovascular diseases (angina pectoris, heart failure, myocardial infarction), and patients receive ECP/EECP treatment for 1 hour.

Because the treatment time is long, most patients receive treatment alone, and there is a problem that an emergency or unexpected situation may occur due to cardiovascular disease, which is the cause of treatment.

In order to solve these problems, various patient monitoring systems have recently been developed to monitor the patient's condition and respond quickly when abnormalities occur, and are applied to hospital rooms, intensive care units, CT, MRI rooms, and ECP/EECP treatment rooms.

In general, the conventional patient monitoring system continuously measures the patient's vital signs to monitor the patient's condition using a vital sign method, a camera method for monitoring the patient's condition by an image taken through a camera, and a vital sign and camera method The mixing method is mainly applied.

However, when only vital signs are applied, the sensors for measuring vital signs frequently fall off the body and malfunction, and it is difficult to check the failure when a failure occurs, so it is difficult to monitor the patient until the failure is confirmed. There was no problem.

In addition, the method of using the camera requires a lot of manpower because the person concerned must continuously watch the video being filmed, and there is a problem that it is difficult to observe continuously.

In addition, even if the patient's abnormality is checked through the patient monitoring system, the person in charge (doctor, nurse) is called and it takes time for the person in charge to move to the appropriate location, so that the patient's life is endangered by that time. There were possible problems.

Republic of Korea Patent Publication No. 10-2013-0118512 (published on October 30, 2013)

Therefore, an object of the present invention is to monitor the condition of a patient being treated alone through a medical device such as an ECP/EECP device through the patient's bio-information and images, and when an emergency occurs, the patient's expression and movement by bio-information and image analysis To provide a patient monitoring system and method for a limb compression circulatory system that estimates the situation and disease name by applying it to a deep learning artificial intelligence model and performs emergency treatment in response to the estimated disease name.

The patient monitoring system of the extremity compression circulatory apparatus according to the present invention for achieving the above object includes: a monitoring terminal for receiving and displaying monitoring information including the patient's biometric information and images; Obtaining the bio-information by measuring at least one or more bio-signals of the patient, acquiring an image of the patient, transmitting the monitoring information including the bio-information and the image, and emergency response to the transmission of the monitoring information a monitoring information collecting unit that performs emergency treatment according to the first aid information included in the first aid request information when receiving the treatment request information; and when monitoring information is received from the monitoring information collection unit, it is transmitted to the monitoring terminal set in advance, and it is determined whether an emergency has occurred to the patient by analyzing the biometric information and images of the monitoring information, and when an emergency situation occurs, emergency After predicting the name of the disease that caused the situation, it characterized in that it comprises a patient monitoring unit for transmitting first aid request information including first aid information according to the predicted disease name to the monitoring information collecting unit.

The monitoring information collecting unit may include: a biometric information measuring unit attached to the patient's body, detecting a biosignal generated in the patient's body, and outputting biometric information corresponding to the detected biosignal; a camera unit for photographing the patient and outputting the photographed image; an alarm unit for receiving an alarm control signal and generating an alarm; a first aid unit that provides first aid to the patient; and obtaining the biometric information from the biometric information measuring unit, acquiring an image from the camera unit, transmitting monitoring information including the biometric information and the image to the patient monitoring unit, and receiving the monitoring information from the patient monitoring unit. A monitoring control unit that generates an alarm by outputting an alarm control signal to the alarm unit when receiving emergency treatment request information for transmission, and controls the first aid drive unit according to the first aid information included in the first aid request information to perform first aid It is characterized in that it includes.

The first aid unit may include: a compression control unit configured to control the pressure of the compression unit of the ECP/EECP device surrounding the patient's body under the control of the monitoring control unit; With an automatic drug injector connected to a syringe port inserted into the blood vessel of the patient, the drug contained in at least one syringe under the control of the monitoring control unit among at least one or more syringes containing at least different drugs is administered to the blood vessel of the patient a drug administration control unit; and an automatic external defibrillator that applies an electric shock through a defibrillation pad attached to the patient's body under the control of the monitoring controller.

The biometric information is characterized in that at least one of a pulse, heart rate, ECG, and oxygen saturation of the patient.

The monitoring control unit may include: a biometric information obtaining unit for obtaining and outputting biometric information from the biometric information measuring unit; an image information obtaining unit for obtaining and outputting an image from the camera unit; a monitoring information generating unit for generating and outputting monitoring information including the biometric information and the image; a monitoring information providing unit for transmitting the monitoring information to the patient monitoring unit through the communication unit; an emergency treatment monitoring unit for monitoring whether emergency treatment request information is received from the patient monitoring unit according to the transmission of the monitoring information; and an emergency treatment control unit that controls the first aid unit according to the first aid information included in the first aid request information when receiving the first aid request information to perform first aid.

The patient monitoring unit predicts the name of the disease that caused the emergency when determining the occurrence of the emergency, then transmits the predicted disease name to a preset monitoring terminal of the attending physician, and generates an emergency treatment command. Further included in the first aid request information and transmitted, the monitoring control unit performs authentication by comparing the doctor's authentication information of the first aid request information received from the first aid monitoring unit with the pre-stored registered primary care doctor's authentication information, and authentication result information Further comprising an emergency treatment authentication unit for outputting to the first aid control unit, the first aid control unit, characterized in that the execution of the emergency treatment when the authentication is successful.

The monitoring information collecting unit further includes an audio processing unit that receives audio data, outputs it as audible sound through a speaker, converts an audio signal input through a microphone into audio data, and outputs it to the monitoring control unit, wherein the monitoring control unit comprises: It is connected to the patient monitoring unit through the communication unit, is allocated a communication channel with the monitoring terminal by the patient monitoring unit, and transmits audio data input from the audio processing unit to the monitoring terminal through the communication channel, and from the monitoring terminal It characterized in that it further comprises a call processing unit for outputting the received audio data to the audio processing unit.

The patient monitoring unit may include: a server communication unit configured to perform data communication with the monitoring terminal and the monitoring information collection unit through a wired/wireless data communication network; And when monitoring information is received from the monitoring information collection unit through the server communication unit, it is transmitted to the monitoring terminal set in advance through the server communication unit, and biometric information and images of the monitoring information are analyzed to determine whether an emergency has occurred to the patient. After judging and predicting the name of the disease that caused the emergency when determining the occurrence of the emergency, the server control unit transmits emergency treatment request information including emergency treatment information according to the predicted disease name to the monitoring information collection unit through the communication unit. characterized in that

The server control unit may include: a monitoring information acquisition unit for receiving and acquiring monitoring information from a monitoring information collection unit through the server communication unit; an information providing unit for providing the monitoring information to the monitoring terminal set in advance through the server communication unit; an information separation unit for detecting and outputting biometric information and images from the monitoring information; a biometric information analysis unit that compares and analyzes the biometric information input from the information separation unit and preset reference biometric information, determines whether there is an abnormality in the patient, and outputs information on whether there is an abnormality in the biometric information; an image analysis unit that analyzes the image input from the information separation unit, determines whether the patient is abnormal according to the patient's facial expression and movement, and outputs image abnormality information; It is determined whether it is an emergency by the biometric information abnormality information and image abnormality information, and the biometric information, the patient's facial expression and movement information are pre-trained in deep learning based on the biometric information for each disease name, the patient's facial expression and movement. an emergency situation determination unit that predicts a disease name by applying it to the model and outputs emergency treatment information for the predicted disease name; an emergency notification unit for transmitting an emergency situation to a monitoring terminal and a monitoring collection unit when the emergency situation determination unit is determined to be an emergency; and an emergency treatment request unit that generates the first aid request information including the first aid information and transmits the first aid request information to the monitoring information collection unit.

The server control unit may include: an emergency treatment event monitoring unit for monitoring whether an emergency treatment event occurs after an emergency situation is notified to the monitoring terminal through the emergency situation notification unit; and when an emergency treatment event occurs from the first aid event monitoring unit, first aid confirmation request information is transmitted to the corresponding doctor's monitoring terminal for emergency treatment, and the authentication information obtained by receiving the attending physician's authentication information from the attending physician's monitoring terminal. Further comprising a unit, wherein the first aid request unit further includes the authentication information of the primary care physician in the first aid request information and transmits it to the monitoring information collection unit, wherein the monitoring information collection unit includes the primary care physician authentication information included in the first aid request information It is characterized in that it compares the authentication information of the pre-set primary care physician and executes emergency treatment if they match.

The server control unit forms a data communication channel between the monitoring information collection unit and the monitoring terminal when a call request occurs from any one of the monitoring terminals preset for the monitoring collection unit and the monitoring collection unit through the server communication unit. It characterized in that it further comprises a call relay for providing a mutual voice call.

The image analysis unit may include: a person detection unit configured to detect a person from the image input from the information separation unit; a face detection unit detecting the detected human face; an expression analysis unit analyzing the detected expression of the face; and a motion analyzer for analyzing the detected human motion to determine whether the patient is abnormal according to the patient's facial expression and movement, and output image abnormality information.

The patient monitoring method of the extremity compression circulatory apparatus according to the present invention for achieving the above object is: a monitoring information collecting unit collects monitoring information including biometric information about at least one or more biosignals of a patient and an image captured by the patient a process of supplying monitoring information to the patient monitoring unit; a monitoring information providing process in which the patient monitoring unit receives monitoring information from the monitoring information collection unit and transmits it to a preset monitoring terminal for display; The patient monitoring unit analyzes the bio-information and images of the monitoring information to determine whether an emergency has occurred to the patient, predicts the name of the disease that caused the emergency when determining the occurrence of the emergency, and provides emergency treatment according to the predicted disease name an emergency treatment request process of transmitting first aid request information including information to the monitoring information collecting unit; and a first aid execution process in which the monitoring and collecting unit performs first aid according to the first aid information included in the first aid request information when receiving the first aid request information from the patient monitoring unit.

The monitoring information supply process may include: obtaining, by the monitoring control unit of the monitoring information collecting unit, measuring at least one or more bio-signals of the patient through the bio-information measuring unit, generating and outputting bio-information for the measured bio-signals; an image information acquisition step in which the monitoring control unit acquires and outputs an image of the patient through a camera unit; and generating monitoring information including the biometric information and the image information, and then transmitting the monitoring information to the patient monitoring unit.

The biosignal is characterized in that at least one of pulse, heart rate, ECG, and oxygen saturation.

The emergency treatment request process may include: an emergency situation occurrence determination step in which the server control unit of the patient monitoring unit analyzes biometric information and images of the monitoring information to determine whether an emergency has occurred to the patient; a disease name prediction step of predicting, by the server control unit, the name of the disease that caused the emergency when determining the occurrence of the emergency; and an emergency treatment request step in which the server control unit transmits emergency treatment request information including first aid information according to the predicted disease name to the monitoring information collection unit.

The first aid execution process may include: an emergency treatment monitoring step in which the monitoring control unit monitors whether emergency treatment request information is received from the patient monitoring unit; and an emergency treatment execution step in which the monitoring control unit performs emergency treatment according to the emergency treatment information included in the emergency treatment request information when the first aid request information is received, wherein the first aid execution step includes the monitoring control unit controlling pressure Compression control step of controlling the compression of the compression part of the ECP / EECP device to wrap a part of the patient's body by controlling the compression; The monitoring control unit is connected to the syringe port inserted into the patient's blood vessel and drives the drug injection control unit including at least one or more syringes containing different drugs, at least one of the syringes containing the drug corresponding to the predicted disease name. a drug dosage adjustment step of administering the drug of the syringe to the blood vessel of the patient; and a defibrillation driving step in which the monitoring control unit applies an electric shock through a defibrillation pad attached to the patient's body.

The disease name prediction step is characterized in that the disease name is predicted by applying the biometric information, the patient's facial expression and motion information to a deep learning model trained in advance for each disease name by the biometric information, the patient's facial expression and movement.

The emergency treatment request process may include: an emergency situation determination step in which the server controller analyzes biometric information and images of the monitoring information to determine whether an emergency has occurred to the patient; a disease name prediction step of predicting, by the server control unit, the name of the disease that caused the emergency when determining the occurrence of the emergency; and the server control unit transmits the predicted disease name to a pre-set monitoring terminal of the attending physician, and generates an emergency treatment command. The first aid request information including the primary care physician authentication information and first aid information for the primary care physician is collected by the monitoring information Including a first aid request step of transmitting to a unit, wherein the first aid execution process is performed by the monitoring control unit comparing the doctor's authentication information of the first aid request information received from the first aid monitoring unit with the registered doctor's authentication information stored in advance to authenticate First aid authentication step to perform; and an emergency treatment execution step in which the first aid control unit executes an emergency treatment corresponding to the first aid information when the authentication is successful.

The method includes: when the server control unit generates a call request from any one of the monitoring terminals preset for the monitoring collection unit and the monitoring collection unit through the server communication unit, a data communication channel between the monitoring information collection unit and the monitoring terminal is established. It is characterized in that it further comprises a voice call process to form a mutual voice call.

The present invention has the effect of more accurately confirming the patient's condition because the patient is monitored using both the patient's bio-information and the image taken from the patient.

In addition, the present invention has the effect of more accurately determining the occurrence of the patient's abnormal situation by reflecting the patient's facial expression and movement through biometric information and images when determining the patient's abnormality.

In addition, the present invention predicts the disease name that has occurred in the current patient according to the patient's facial expression and movement through the patient's bio-information and images, and automatically performs emergency treatment corresponding to the predicted disease name, so that in an emergency situation of the patient It has the effect of securing the patient's golden time.

In addition, the present invention notifies the doctor's mobile terminal in case of automatic emergency treatment for predicting the disease name for the patient, and performs automatic first aid treatment upon successful authentication by performing the doctor's consent and authentication of the consented doctor. It has the effect of securing the safety of emergency treatment by

1 is a diagram showing the configuration of a patient monitoring system of a limb compression circulatory apparatus according to the present invention.
2 is a view showing the detailed configuration of the monitoring information collecting unit of the patient monitoring system of the limb compression circulatory system according to the present invention.
3 is a view showing the detailed configuration of the patient monitoring unit of the patient monitoring system of the limb compression circulatory system according to the present invention.
4 is a flowchart illustrating a patient monitoring method of the limb compression circulatory apparatus according to the present invention.
5 is a flowchart illustrating a patient monitoring information collection and emergency treatment method of the monitoring information collection unit among the patient monitoring methods of the extremity compression circulatory apparatus according to an embodiment of the present invention.
6 is a flowchart illustrating a method of determining whether a patient is abnormal and an emergency treatment by a patient monitoring unit among a method of monitoring a patient of a limb compression circulatory apparatus according to an embodiment of the present invention.

Hereinafter, the configuration and operation of the patient monitoring system of the limb compression circulatory system according to the present invention will be described with reference to the accompanying drawings, and the patient monitoring method of the limb compression circulatory system in the system will be described in detail.

1 is a diagram showing the configuration of a patient monitoring system of a limb compression circulatory apparatus according to the present invention.

Referring to FIG. 1 , the patient monitoring system of the extremity compression circulatory apparatus of the present invention includes a monitoring information collecting unit 10 , a monitoring terminal 20 , and a patient monitoring unit 30 .

The monitoring information collecting unit 10 , the monitoring terminal 20 , and the patient monitoring unit 30 are connected to the wired/wireless data communication network 1 by any one of wired and wireless to perform data communication with each other.

The wired and wireless data communication network 1 is any one of an Internet Protocol (IP)-based Internet network including a Wi-Fi network, a mobile communication network such as 3G, 4G, 5G, and a WiBro network One or more may be a combined data communication network.

In addition, the wired and wireless data communication network 1 is a wireless personal network formed by a plurality of short-range wireless communication devices that perform short-range wireless communication such as Bluetooth, Zigbee, and Ultra Wide Band (UWB). (Wireless Personal Area Network: WPAN) may be a more integrated network. The short-range wireless communication device may be configured in each of the monitoring information collection unit 10 , the monitoring terminal 20 , and the patient monitoring unit 30 .

The monitoring information collecting unit 10 is installed in the patient monitoring area 2 such as a hospital room, ECP/EECP treatment room, intensive care unit, MRI/CT imaging room, etc. to obtain biometric information of the patient 3 in the patient monitoring area 2 . and acquires an image of the patient monitoring area 2 , and transmits monitoring information including the acquired biometric information and image to the patient monitoring unit 30 through the wired/wireless data communication network 1 .

In addition, the monitoring information collection unit 10 monitors the reception of emergency treatment request information for the monitoring information collected and transmitted, and when the emergency treatment request information is received, performs an emergency treatment corresponding to the emergency treatment request information.

The monitoring information collecting unit 10 includes a camera to collect images, but the patient monitoring area 2 monitors the patient monitoring area 2 separately from the camera included in the monitoring information collecting unit 10 . An independent camera 200 such as a separate CCTV or IP camera may be further configured.

The independent camera 200 may also be configured to transmit the captured image to the patient monitoring unit 30 directly through the wired/wireless data communication network 1 or through a CCTV management system (not shown). To this end, the patient monitoring unit 30 should manage information on the patient monitoring area 2 in which the independent camera 200 is installed.

The detailed configuration and operation of the monitoring information collecting unit 10 will be described in detail with reference to FIG. 2 below.

The monitoring terminal 20 may be a computer used by a nurse, a doctor, or the like, a computer terminal such as a laptop computer, a smart pad, or a smart terminal such as a smart phone.

In the monitoring terminal 20, the patient monitoring application according to the present invention is installed, and when monitoring information is received from the patient monitoring unit 30 through the wired/wireless data communication network 1 by operating in the background, the patient monitoring application is placed in the foreground. of a graphic user interface (GUI), and the monitoring information is displayed through the GUI.

In addition, the monitoring terminal 20 may provide a call function capable of performing a voice call with the monitoring collection unit 10 by driving a speaker and a microphone through the patient monitoring application.

The patient monitoring unit 30 is connected to the monitoring information collection units 10 installed in at least one or more patient monitoring areas 2 through a wired/wireless data communication network 1, and is being treated by the connected monitoring information collection unit 10. It manages information about patients, and stores and manages information about the person in charge of the patient, that is, nurses and attending physicians.

The patient monitoring unit 30 collects monitoring information from each monitoring information collection unit 10, transmits the collected monitoring information to the monitoring terminal 20 of the corresponding person in charge, and biometric information of the corresponding patient for each collected monitoring information. and first aid request information including first aid information corresponding to the predicted disease name, which monitors whether an emergency situation occurs to the patient by analyzing the image, predicts the disease name that caused the emergency situation through artificial intelligence when an emergency situation occurs is transmitted to the monitoring information collection unit 10 through the wired/wireless data communication network 1 .

The patient monitoring unit 30 may notify that an emergency has occurred to the monitoring terminal 20 of the person in charge when an emergency situation occurs to the patient in the patient monitoring area 2 , and immediately alerts when an emergency situation is determined before predicting the disease name The occurrence request information may be transmitted to the monitoring information collection unit 10 so that an alarm is generated in the monitoring information collection unit 10 .

The detailed configuration and operation of the patient monitoring unit 30 will be described in detail with reference to FIG. 3 below.

2 is a view showing the detailed configuration of the monitoring information collecting unit 10 of the patient monitoring system of the limb compression circulatory system according to the present invention.

Referring to FIG. 2 , the monitoring information collecting unit 10 includes a monitoring storage unit 110 , a communication unit 120 , an alarm unit 130 , an emergency treatment unit 140 , a biometric information measurement unit 150 , and a camera unit 160 . and a monitoring control unit 170 , and may further include an input/output unit 180 and an audio processing unit 190 according to an embodiment.

The monitoring storage unit 110 includes a program area for storing a control program for controlling the operation of the monitoring information collecting unit 10, a temporary area for storing data generated during execution of the control program, and a program area for storing data generated during execution of the control program. It may include a data area for semi-permanently storing data and data necessary for executing the control program. In the data area, the doctor's authentication information may be registered.

The communication unit 120 is connected to the wired/wireless data communication network 1 by any one of wired and wireless so as to perform data communication with the patient monitoring unit 30 , which is another device connected to the wired/wireless data communication network 1 .

The alarm unit 130 may receive an alarm control signal from the monitoring control unit 170 to generate an alarm such as an alarm.

The first aid unit 140 includes a compression control unit 141 , an automated external defibrillator (AED) 142 , and a drug injection control unit 143 , such as an emergency response unit under the control of the monitoring control unit 170 . carry out treatment

When the compression control unit 141 is the patient monitoring area 2 is an ECP/EECP treatment room and the patient is wearing a compression air cuff (hereinafter referred to as “compression unit”) (not shown) to receive ECP/EECP treatment. By adjusting the compression strength of the compression part, it may be possible to perform first aid measures to relax or contract the heart more strongly. Specifically, the compression control unit 141 normally performs a treatment operation that operates with a compression intensity corresponding to cardiovascular treatment, and when an emergency situation occurs during the treatment operation, the compression intensity is controlled under the control of the monitoring controller 170 . It increases the pressure on the heart and makes it perform the same role as performing CPR.

The AED 142 includes two defibrillation pads that are attached to the copper, etc., just below the right clavicle and under the left nipple of the patient, and is controlled by the monitoring controller 170 to deliver electricity to the heart of the patient through the defibrillation pads. Execute first aid with shock.

The drug input control unit 143 may be an automatic drug injector connected to a syringe port inserted into the patient's vestibule, and includes one or more syringes containing at least different drugs, and controls the monitoring control unit 170 . Receives and executes an emergency treatment of injecting the drug contained in at least one syringe corresponding to the first aid information of the name of the disease into the blood vessel of the patient.

The bio-information measuring unit 150 measures the patient's bio-signal through bio-signal sensors attached to the patient's head, wrist, finger, heart, and the like, and outputs bio-information corresponding to the bio-signal to the monitoring controller 170 . The bio-signal may be pulse, heart rate, electrocardiogram (ECG), oxygen saturation, etc., and the bio-information may be pulse information, heart rate information, electrocardiogram information, oxygen saturation information, etc., text information, waveform information, etc. this could be

The camera unit 160 outputs an image captured by the patient monitoring area 2 to the monitoring control unit 170 .

The input/output unit 180 includes an input unit 181 and a display unit 182 .

The display unit 182 may display treatment information provided to the patient, biometric information of the patient, and the like.

The input unit 181 includes a button input device having a plurality of buttons for selecting, executing, and ending a plurality of functions, a keyboard including a plurality of function keys and character keys for inputting characters, and the display unit 182 ), a touchpad that is integrally configured on the screen and outputs a position signal corresponding to the touched position, a mouse that moves the coordinates of the cursor displayed on the display unit 182 and outputs information about the moving coordinates, etc. may include more.

The audio processing unit 190 includes a speaker and a microphone, converts the audio data output from the monitoring control unit 170 into an audible sound through a speaker, and outputs it, obtains an audio signal for the audible sound through a microphone, converts the audio data and monitors output to the control unit 170 .

The monitoring control unit 170 includes a biometric information acquisition unit 172 , an image information acquisition unit 173 , a monitoring information generation unit 174 , a monitoring information providing unit 175 , a first aid monitoring unit 176 , and a first aid control unit ( 178), and further includes an ECP control unit 171, a first aid authentication unit 177, and a call processing unit 179 according to an embodiment to control the overall operation of the monitoring information collection unit 10 of the present invention .

The ECP control unit 171 controls the compression of the compression unit by controlling the compression control unit 141 according to the ECP/EECP treatment configured in the ECP/EECP device by the monitoring information collection unit 10 of the present invention. According to an embodiment of the present invention, the ECP control unit 171 may be configured to receive a first aid control command from the first aid control unit 178 and control the compression control unit 141 .

The biometric information acquisition unit 172 obtains and outputs the biometric information through the biometric information measurement unit 150 .

The image information acquisition unit 173 obtains and outputs an image through the camera unit 160 .

The monitoring information generating unit 174 generates and outputs monitoring information including the biometric information obtained through the biometric information obtaining unit 172 and the image obtained through the image information obtaining unit 173 .

The monitoring information providing unit 175 transmits the monitoring information generated by the monitoring information generating unit 174 to the patient monitoring unit 30 through the communication unit 120 .

The first aid monitoring unit 176 monitors whether emergency treatment request information for the monitoring information transmitted to the patient monitoring unit 30 is received from the patient monitoring unit 30 .

The first aid authentication unit 177 is configured according to an embodiment, and when the first aid request information is received through the first aid monitoring unit 176, the doctor's authentication information included in the first aid request information and the pre-registered doctor's authentication information , and authentication is performed according to whether they match.

When the first aid request information is obtained through the first aid monitoring unit 176, the first aid control unit 178 controls the first aid unit 140 according to the first aid information included in the first aid request information to provide first aid to the patient. According to an embodiment, when authentication is successful through the first aid authentication unit 177, the first aid unit 140 is controlled according to the first aid information to perform first aid on the patient.

When a call request is generated through the input unit 181 , the call processing unit 179 requests a call with the person in charge from the patient monitoring unit 30 through the communication unit 120 , and establishes a communication channel from the patient monitoring unit 30 . It is assigned so that a call can be performed through the monitoring terminal 20 and the audio processing unit 190 of the corresponding person in charge.

In addition, the call processing unit 179 receives a call channel according to the call request of the monitoring terminal 20 from the patient monitoring unit 30 , so as to perform a call with the patient through the audio processing unit 190 .

3 is a view showing the detailed configuration of the patient monitoring unit 30 of the patient monitoring system of the limb compression circulatory system according to the present invention.

Referring to FIG. 3 , the patient monitoring unit 30 includes a server storage unit 210 , a server communication unit 220 , and a server control unit 230 .

The server storage unit 210 includes a program area for storing a control program for controlling the operation of the patient monitoring unit 30, a temporary area for temporarily storing data generated during execution of the control program, and data generated during execution of the control program. and a data area for semi-permanently storing data necessary for executing the control program. In the data area, in order to detect and analyze people, faces, expressions, and movements from reference biometric information for analyzing biometric information and determining whether a patient is abnormal based on biometric information, information about various faces, expressions, and movements of a person in advance The trained training model and learning data can be stored, and the patient monitoring area usage schedule information including patient information using the patient monitoring area 2, the monitoring information collection unit 10 installed in the patient monitoring area 2 A database including information about the patient, a nurse in charge of the patient, and information about a person in charge including a primary care physician may be configured.

The server communication unit 220 is connected to the wired/wireless data communication network 1 by any one of wired and wireless and is a device connected to the wired/wireless data communication network 1, the monitoring information collection unit 10, the independent camera 200 and the monitoring terminal 20. It enables data communication with each other.

The server control unit 230 includes a monitoring information obtaining unit 231 , an information providing unit 232 , an information separating unit 233 , a biometric information analyzing unit 234 , an image analyzing unit 235 , and an emergency situation determining unit 236 . , an emergency situation notification unit 237 , an emergency treatment event monitoring unit 238 , an authentication information acquisition unit 239 , an emergency treatment request unit 240 , and a call relay unit 241 of the patient monitoring unit 30 . Controls the overall operation.

The monitoring information acquisition unit 231 collects monitoring information from the monitoring information collection unit 10 of at least one or more patient monitoring areas 2 and stores it in the server storage unit 210 .

The information providing unit 232 provides the monitoring information received through the monitoring information obtaining unit 231 to the monitoring terminal 20 used by the patient in charge of the patient receiving treatment in the monitoring information collecting unit 10 .

The information separation unit 233 separates the biometric information and the image from the monitoring information, outputs the biometric information to the biometric information analyzer 234 , and outputs the image to the image analyzer 235 .

The biometric information analysis unit 234 compares the biometric information output from the information separation unit 233 with the reference biometric information stored in advance in the server storage unit 210 to determine whether the patient is normal, and returns the determined result information. The included biometric information abnormality information is output to the emergency situation determination unit 236 .

The image analysis unit 235 includes a person detection unit 251 , a face detection unit 252 , an expression analysis unit 253 , and a motion analysis unit 254 to detect a person, ie, a patient, in an image, and perform facial expressions and movements of the patient. , and output the image abnormality information, which is the abnormality of the patient, to the emergency situation determination unit 236 .

More specifically, the person detection unit 251 detects a person, that is, a patient in the image. As the detection method, a Mobilenet-SSD convolutional neural network (CNN) may be used. Since the MobileNet-SSD CNN itself is a technology well known to those skilled in the art, a detailed description thereof will be omitted.

The face detection unit 252 detects the detected face of the patient. The face detection method may also be applied to a CNN model.

The expression analysis unit 253 detects a facial expression when a face is detected through the face detection unit 252 . The facial expression may be classified into a painful expression, a comfortable expression, a pleasant expression, and the like, and the painful expression may be further classified, such as the degree of distortion and which part of the face is distorted.

The expression analysis unit 253 should include a CNN model generated by performing CNN training on a face image including various expressions such as a painful expression, a comfortable expression, a pleasant expression, etc. in advance to detect the facial expression. .

The motion analyzer 254 analyzes the motion of a person from the human image in which the person is detected by the person detection unit 251 . The motion analysis can also be analyzed by applying to a CNN model, and the CNN model is trained for characteristic motions generated according to each disease name, and it will be preferable to be trained for normal patient motions.

The image analysis unit 235 outputs the image abnormality information according to the facial expression and motion analysis to the emergency situation determination unit 236 .

The emergency determination unit 236 receives the biometric information abnormality information input from the biometric information analysis unit 234 and the image abnormality information inputted from the image analysis unit 235 and comprehensively analyzes it, so that the patient in the image is emergency. Determine whether the situation is

The emergency determination unit 236 also predicts the disease name by applying the biometric information analyzed to the CNN model, the analyzed facial expression and motion information, and outputs the predicted disease name.

The emergency notification unit 237 transmits the alarm generation request information to the monitoring information collection unit 10 and the monitoring terminal 20 to generate an alarm when it is determined through the emergency situation determination unit 236 that it is an emergency situation.

The first aid event monitoring unit 238 monitors whether a first aid event occurs. The emergency treatment event may be generated when the emergency situation determination unit 236 determines that it is an emergency, and the emergency treatment of the monitoring terminal 20 by the transmission of the alarm generation request information from the emergency situation notification unit 237 It may be generated by request.

The authentication information acquisition unit 239 is configured according to an embodiment and when an emergency treatment event occurs through the first aid event monitoring unit 238, the primary care physician's authentication information is received from the primary care physician's monitoring terminal 20, which is the person in charge of the patient. accept and get

When it is determined that the emergency treatment is in the emergency, the first aid request unit 240 generates first aid request information including first aid information corresponding to the determined disease name and transmits it to the monitoring information collection unit 10, or according to an embodiment. The doctor's authentication information is further included in the first aid request information and transmitted to the monitoring information collection unit 10 .

The call relay unit 241 monitors the monitoring collection unit 10 and the monitoring collection unit 10 through the server communication unit 220 when a call request occurs from any one of the monitoring terminals preset for the patient. A data communication channel is formed between the information collection unit 10 and the monitoring terminal 20 to provide mutual voice calls.

4 is a flowchart illustrating a patient monitoring method of the limb compression circulatory apparatus according to the present invention.

Referring to FIG. 4 , first, when the monitoring information collecting unit 10 is driven, it collects the monitoring information including the patient's biometric information and the image captured by the patient monitoring area 2 ( S10 ).

The monitoring information collection unit 10 transmits the collected monitoring information to the patient monitoring unit 30 , and the patient monitoring unit 30 responds to the received monitoring information to the patient being treated in the patient monitoring area 2 . It is provided to the monitoring terminal 20 of the person in charge (S20).

The patient monitoring unit 30 analyzes the received monitoring information to analyze whether an emergency has occurred (S30), and monitors whether an emergency has occurred (S40).

When an emergency situation occurs, the patient monitoring unit 30 transmits the alarm generation request information to the monitoring information collection unit 10 and the monitoring terminal 20 of the person in charge corresponding to the patient being treated in the patient monitoring area 2, Alerts that a situation has occurred (S50).

After alerting that the emergency has occurred, the patient monitoring unit 30 checks whether an emergency treatment event occurs (S60), and when the emergency treatment event occurs, the patient's facial expression and The disease name is predicted based on the movement, and first aid request information including first aid information corresponding to the predicted disease name is transmitted to the monitoring information collecting unit 10 . Then, the monitoring information collecting unit 30 executes an emergency treatment corresponding to the first aid information included in the received first aid request information (S70).

5 is a flowchart illustrating a method for collecting patient monitoring information and first aid treatment by a monitoring information collecting unit among a method for monitoring a patient of a limb compression circulatory apparatus according to an embodiment of the present invention.

Referring to FIG. 5 , the monitoring control unit 170 of the monitoring information collecting unit 10 checks whether a patient monitoring event occurs ( S111 ). The patient monitoring event may be generated when the monitoring information collecting unit 10 is driven, may be generated when a monitoring start command is input through the input unit 181 , and may be generated from the patient monitoring unit 30 through the communication unit 120 . It may also be generated when a monitoring request is made.

When a patient monitoring event occurs, the monitoring control unit 170 starts to acquire biometric information through the biometric information measurement unit 150 (S113), and starts to acquire an image through the camera unit 160 (S115).

When the bio-information and the image start to be acquired, the monitoring control unit 170 starts to generate monitoring information including the bio-information and the image and transmit it to the patient monitoring unit 30 ( S117 ).

When the monitoring information starts to be transmitted, the monitoring control unit 170 monitors whether an alarm generation event is generated by receiving alarm generation request information from the patient monitoring unit 30 (S119), and when an emergency treatment event occurs, the alarm unit ( 130) to generate an alarm by outputting an alarm control signal (S121).

When an alarm is generated, the monitoring control unit 170 monitors whether an emergency treatment event is generated according to the emergency treatment request information (S122), and when an emergency treatment event occurs, according to an embodiment, the doctor's authentication information included in the emergency treatment request information and By comparing the pre-registered authentication information of the attending physician, authentication is performed (S123), and it is determined whether authentication is successful (S125).

If authentication fails, the monitoring control unit 170 continuously generates only an alarm (S121), and if authentication is successful, it controls the configuration of the first aid unit 140 corresponding to the first aid information included in the first aid request information to provide emergency treatment. Execute (S127).

After the execution of the emergency treatment, the monitoring control unit 170 checks whether an emergency release event occurs (S129), turns off the alarm when the emergency release event occurs, and releases the emergency situation (S131). The emergency release event may be generated when an emergency release button of the input unit 181, a release code, etc. are input, or may be generated when an emergency release request is received from the patient monitoring unit 30 through the communication unit 120 .

6 is a flowchart illustrating a method of determining whether a patient is abnormal and an emergency treatment by a patient monitoring unit among a method of monitoring a patient of a limb compression circulatory apparatus according to an embodiment of the present invention.

Referring to FIG. 6 , the server control unit 230 monitors whether monitoring information is received from the monitoring information collection unit 10 ( S211 ).

When the monitoring information is received, the server control unit 230 detects biometric information and an image from the monitoring information (S213), analyzes the detected biometric information (S215), and determines whether the patient is normal based on the biometric information (S217).

When it is determined that the patient is normal based on biometric information, the server control unit 230 analyzes the image to detect a person, detects a face from the detected person, detects the detected facial expression, and displays the detected facial expression. It is applied to the artificial intelligence model to determine whether the patient's expression is normal (S221).

If the patient's facial expression is not normal, the server control unit 230 monitors the first alarm generation request information that generates the first alarm, which is the weakest alarm stage, because the facial information is normal but the facial expression is abnormal. It will be transmitted to the terminal 20 (S223).

On the other hand, if the patient's expression is also normal, the server controller 230 applies the human movement detected through image analysis to the AI model to determine whether the movement is a general movement or a movement caused by pain due to a symptom of a disease. It is determined whether there is an abnormality in movement (S225).

If there is an abnormality in the expression and movement, the server control unit 230 transmits the secondary alarm request information to the monitoring information collection unit 10 and the monitoring terminal 20 to generate the secondary alarm (S227).

On the other hand, if it is determined that there is an abnormality in the patient in the bio-information-based determination of whether the patient is normal, the server control unit 230 performs the same image analysis to determine whether there is an abnormality in the patient's expression and movement of the patient (S229, S231, S233) .

If it is determined that there is an abnormality in all of the biometric information, the patient's facial expression and movement, the server control unit 230 applies the biometric information, the patient's facial expression and movement information as input data to an artificial intelligence model generated in advance to estimate the disease name. Start (S235), and check whether the disease name is traced (S237).

When the disease name is estimated, the server control unit 230 transmits emergency treatment request information including tertiary alert request information and first aid information on the estimated disease name to the monitoring information collection unit 10 (S239).

After transmitting the emergency treatment request information, the server control unit 230 checks whether an emergency release event occurs (S241), and ends the defrosting emergency treatment operation when the emergency release event occurs. The emergency release event may be generated when emergency release information is received from any one of the monitoring terminal 20 and the monitoring information collecting unit 10 of the patient in charge.

In addition, according to an embodiment, when estimating the name of a disease, the primary care physician authentication information request information is transmitted to the primary doctor's monitoring terminal 20 among the person in charge to obtain the primary care physician authentication information, and then the emergency treatment request information including the obtained primary care authentication information is monitored. It may be transmitted to the collection unit 10 .

On the other hand, it is common knowledge in the art that the present invention is not limited to the typical preferred embodiment described above, but can be improved, changed, replaced, or added in various ways within the scope of the present invention. Those who have will be able to understand it easily. If implementation by such improvement, change, substitution, or addition falls within the scope of the appended claims below, the technical idea should also be regarded as belonging to the present invention.

1: Wired and wireless data communication network 2: Patient monitoring area
10: monitoring information collection unit 20: monitoring terminal
30: patient monitoring unit 110: monitoring storage unit
120: communication unit 130: alarm unit
140: first aid unit 141: pressure control unit
142: AED 143: drug administration control unit
150: biometric information measurement unit 160: camera unit
170: monitoring control unit 210: server storage unit
220: server communication unit 230: server control unit

Claims (20)

a monitoring terminal for receiving and displaying monitoring information including a patient's biometric information and an image;
Obtaining the bio-information by measuring at least one or more bio-signals of the patient, acquiring an image of the patient, transmitting the monitoring information including the bio-information and the image, and emergency response to the transmission of the monitoring information a monitoring information collecting unit that performs emergency treatment according to the first aid information included in the first aid request information when receiving the treatment request information; and
When monitoring information is received from the monitoring information collection unit, it is transmitted to the monitoring terminal set in advance, and by analyzing the biometric information and image of the monitoring information, it is determined whether an emergency has occurred to the patient, and when an emergency situation occurs, an emergency situation is determined. After predicting the disease name that caused the disease, the patient monitoring system of the extremity compression circulatory apparatus comprising a patient monitoring unit for transmitting emergency treatment request information including first aid information according to the predicted disease name to the monitoring information collecting unit.
According to claim 1,
The monitoring information collection unit,
a biometric information measuring unit attached to the patient's body to detect a biosignal generated from the patient's body and output biometric information corresponding to the detected biosignal;
a camera unit for photographing the patient and outputting the photographed image;
an alarm unit for receiving an alarm control signal and generating an alarm;
a first aid unit that provides first aid to the patient; and
Obtaining the biometric information from the biometric information measuring unit, acquiring an image from the camera unit, transmitting monitoring information including the biometric information and the image to the patient monitoring unit, and transmitting the monitoring information from the patient monitoring unit A monitoring control unit that generates an alarm by outputting an alarm control signal to the alarm unit when receiving emergency treatment request information for Monitoring system having a first aid function, characterized in that it comprises.
3. The method of claim 2,
The first aid unit,
a compression control unit for controlling the pressure of the compression unit of the ECP/EECP device surrounding a part of the patient's body under the control of the monitoring control unit;
With an automatic drug injector connected to a syringe port inserted into the blood vessel of the patient, the drug contained in at least one syringe under the control of the monitoring control unit among at least one or more syringes containing at least different drugs is administered to the blood vessel of the patient a drug administration control unit; and
and at least one automatic external defibrillator that applies an electric shock through a defibrillation pad attached to the patient's body under the control of the monitoring controller.
3. The method of claim 2,
The biometric information is
The patient monitoring system of the extremity compression circulatory system, characterized in that any one or more of the patient's pulse, heart rate, ECG, and oxygen saturation.
3. The method of claim 2,
The monitoring control unit,
a biometric information obtaining unit for obtaining and outputting biometric information from the biometric information measuring unit;
an image information obtaining unit for obtaining and outputting an image from the camera unit;
a monitoring information generating unit for generating and outputting monitoring information including the biometric information and the image;
a monitoring information providing unit for transmitting the monitoring information to the patient monitoring unit through the communication unit;
an emergency treatment monitoring unit for monitoring whether emergency treatment request information is received from the patient monitoring unit according to the transmission of the monitoring information; and
When the first aid request information is received, the patient monitoring system of the extremity compression circulatory apparatus, characterized in that it comprises a first aid control unit that controls the first aid unit according to the first aid information included in the first aid request information to execute first aid.
6. The method of claim 5,
The patient monitoring unit,
After predicting the name of the disease that caused the emergency when determining the occurrence of an emergency, the predicted disease name is transmitted to a preset monitoring terminal of the attending physician, and an emergency treatment command is issued. to send, including more in
The monitoring control unit,
A first aid authentication unit for performing authentication by comparing the doctor's authentication information of the first aid request information received from the first aid monitoring unit and the registered primary care physician's authentication information stored in advance, and outputting the authentication result information to the first aid control unit;
The first aid control unit,
The patient monitoring system of the extremity compression circulatory device, characterized in that the first aid is executed when the authentication is successful.
6. The method of claim 5,
The monitoring information collection unit,
Further comprising an audio processing unit for receiving audio data and outputting it as audible sound through a speaker, converting an audio signal input through a microphone into audio data and outputting it to the monitoring control unit,
The monitoring control unit,
It is connected to the patient monitoring unit through the communication unit, is allocated a communication channel with the monitoring terminal by the patient monitoring unit, and transmits audio data input from the audio processing unit to the monitoring terminal through the communication channel, and from the monitoring terminal The patient monitoring system of the extremity compression circulatory apparatus, characterized in that it further comprises a call processing unit for outputting the received audio data to the audio processing unit.
According to claim 1,
The patient monitoring unit,
a server communication unit for performing data communication with the monitoring terminal and the monitoring information collection unit through a wired/wireless data communication network; and
When monitoring information is received from the monitoring information collecting unit through the server communication unit, it is transmitted to the monitoring terminal set in advance through the server communication unit, and biometric information and images of the monitoring information are analyzed to determine whether an emergency has occurred to the patient. and a server control unit for predicting the name of the disease that caused the emergency when determining the occurrence of the emergency, and transmitting first aid request information including first aid information according to the predicted name to the monitoring information collection unit through the communication unit. Patient monitoring system of the extremity compression circulatory device, characterized in that.
9. The method of claim 8,
The server control unit,
a monitoring information acquisition unit that receives and acquires monitoring information from the monitoring information collection unit through the server communication unit;
an information providing unit for providing the monitoring information to the monitoring terminal set in advance through the server communication unit;
an information separation unit for detecting and outputting biometric information and images from the monitoring information;
a biometric information analysis unit that compares and analyzes the biometric information input from the information separation unit and preset reference biometric information, determines whether there is an abnormality in the patient, and outputs information on whether the biometric information is abnormal;
an image analysis unit that analyzes the image input from the information separation unit, determines whether the patient is abnormal according to the patient's facial expression and movement, and outputs image abnormality information;
It is determined whether it is an emergency by the biometric information abnormality information and image abnormality information, and the biometric information, the patient's facial expression and movement information are pre-trained by the biometric information for each disease name, the patient's facial expression and movement. an emergency situation determination unit that predicts a disease name by applying it to the model and outputs emergency treatment information for the predicted disease name;
an emergency notification unit for transmitting an emergency situation to a monitoring terminal and a monitoring collection unit when the emergency situation determination unit is determined to be an emergency; and
and a first aid request unit for generating the first aid request information including the first aid information and transmitting the first aid request information to the monitoring information collecting unit.
10. The method of claim 9,
The server control unit,
an emergency treatment event monitoring unit for monitoring whether an emergency treatment event occurs after an emergency situation is notified to the monitoring terminal through the emergency situation notification unit; and
When an emergency treatment event occurs from the first aid event monitoring unit, the emergency treatment confirmation request information is transmitted to the corresponding doctor's monitoring terminal for emergency treatment, and the authentication information acquisition unit for receiving and acquiring the attending physician's authentication information from the attending physician's monitoring terminal for this including more,
The first aid request unit,
The primary care physician's authentication information is further included in the first aid request information and transmitted to the monitoring information collection unit,
The monitoring information collection unit,
The patient monitoring system of the extremity compression circulatory apparatus, characterized in that the first aid treatment is executed when the doctor's authentication information included in the first aid request information is matched with the pre-set doctor's authentication information.
11. The method of claim 10,
The server control unit,
When a call request occurs from any one of the monitoring terminals preset for the monitoring collection unit and the monitoring collection unit through the server communication unit, a data communication channel is formed between the monitoring information collection unit and the monitoring terminal to provide a mutual voice call Patient monitoring system having a first aid function, characterized in that it further comprises a call relay.
10. The method of claim 9,
The image analysis unit,
a person detection unit for detecting a person from the image input from the information separation unit;
a face detection unit detecting the detected human face;
an expression analysis unit analyzing the detected expression of the face; and
The patient monitoring system of the extremity compression circulatory apparatus, comprising a motion analyzer for analyzing the detected human movement, and outputting image abnormality information by determining whether the patient is abnormal according to the patient's facial expression and movement.
a monitoring information supply process in which the monitoring information collecting unit transmits, to the patient monitoring unit, monitoring information including biometric information for at least one or more biosignals of the patient and an image captured by the patient;
a monitoring information providing process in which the patient monitoring unit receives monitoring information from the monitoring information collection unit and transmits it to a preset monitoring terminal for display;
The patient monitoring unit analyzes the bio-information and images of the monitoring information to determine whether an emergency has occurred to the patient, predicts the name of the disease that caused the emergency when determining the occurrence of the emergency, and provides emergency treatment according to the predicted disease name an emergency treatment request process of transmitting first aid request information including information to the monitoring information collecting unit; and
The patient of the extremity compression circulatory apparatus, characterized in that the monitoring and collecting unit includes a first aid execution process for performing emergency treatment according to the first aid information included in the first aid request information when the first aid request information is received from the patient monitoring unit. monitoring method.
14. The method of claim 13,
The monitoring information supply process is
a bio-information acquisition step in which the monitoring control unit of the monitoring information collection unit measures at least one or more bio-signals of the patient through the bio-information measuring unit, and generates and outputs bio-information for the measured bio-signals;
an image information acquisition step in which the monitoring control unit acquires and outputs an image of the patient through a camera unit; and
The patient monitoring method of the extremity compression circulatory apparatus, characterized in that it comprises the step of generating monitoring information including the biometric information and the image information and then transmitting the monitoring information to the patient monitoring unit.
15. The method of claim 14,
The biosignal is
A patient monitoring method of a limb compression circulatory system, characterized in that any one or more of pulse, heart rate, ECG, and oxygen saturation is present.
14. The method of claim 13,
The first aid request process is
an emergency situation occurrence determination step in which the server control unit of the patient monitoring unit analyzes biometric information and images of the monitoring information to determine whether an emergency has occurred to the patient;
a disease name prediction step of predicting, by the server control unit, the name of the disease that caused the emergency when determining the occurrence of the emergency; and
and the server control unit transmitting first aid request information including first aid information according to the predicted disease name to the monitoring information collecting unit.
17. The method of claim 16,
The first aid execution process is
an emergency treatment monitoring step in which the monitoring control unit monitors whether emergency treatment request information is received from the patient monitoring unit; and
When the first aid request information is received, the monitoring control unit performs an emergency treatment according to the first aid information included in the first aid request information, including a first aid execution step,
The first aid execution step is
a compression control step in which the monitoring control unit controls the compression control unit to adjust the compression of the compression unit of the ECP/EECP device surrounding a part of the patient's body;
The monitoring control unit is connected to the syringe port inserted into the patient's blood vessel and drives the drug injection control unit including at least one or more syringes containing different drugs, at least one of the syringes containing the drug corresponding to the predicted disease name. a drug dosage adjustment step of administering the drug of the above syringe into the blood vessel of the patient; and
and wherein the monitoring control unit applies any one of the defibrillation driving steps of applying an electric shock through a defibrillation pad attached to the patient's body.
17. The method of claim 16,
The disease name prediction step is
Patient monitoring method of a limb compression circulatory apparatus, characterized in that the biometric information, the patient's expression and movement information are applied to a deep learning model trained in advance for each disease name, the patient's expression and movement to predict the disease name .
14. The method of claim 13,
The first aid request process is
an emergency situation determination step in which the server controller analyzes biometric information and images of the monitoring information to determine whether an emergency has occurred to the patient;
a disease name prediction step of predicting, by the server control unit, the name of the disease that caused the emergency when determining the occurrence of the emergency; and
The server control unit transmits the predicted disease name to a preset monitoring terminal of the attending physician, and generates an emergency treatment command. Including a first aid request step to transmit,
The first aid execution process is
a first aid authentication step in which the monitoring control unit compares the doctor's authentication information of the first aid request information received from the first aid monitoring unit with the pre-stored registered doctor's authentication information to perform authentication; and
and a first aid execution step in which the first aid control unit executes an emergency treatment corresponding to the first aid information when the authentication is successful.
14. The method of claim 13,
When the server control unit generates a call request from any one of the monitoring terminals preset for the monitoring collection unit and the monitoring collection unit through the server communication unit, a data communication channel is formed between the monitoring information collection unit and the monitoring terminal to form a mutual voice Patient monitoring method of the extremity compression circulatory apparatus, characterized in that it further comprises a voice call process for providing a call.

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