KR100334892B1 - Ultrasonic detector using wireless communication and remote diagnosing system using the same - Google Patents

Abstract

The present invention provides a heart rate of the fetus detected by a portable ultrasound sensing device through a communication network and provides a doctor's prescription through the communication network, thereby quickly diagnosing a pregnant woman remotely from a pregnant woman or a hospital, which is difficult to transfer to a hospital. As providing a remote medical care system to enable, by using an ultrasound to detect the heart rate of the fetus in the body of the pregnant woman, heart rate detection means for modulating the detected heart rate and converting it into a radio frequency signal; After demodulating the heart rate signal of the radio frequency received through the airwave band from the heart rate detection means into a heart rate signal before being modulated, converts it into a signal suitable for the communication network and transmits it to the communication network, and transmits the call connection ID input to the communication network. Radio frequency processing means; Analyzing the heart rate of the fetus transmitted through the communication network from the radio frequency processing means, storing and outputting the heart rate analysis results to the communication network, and save the prescription for the heart rate analysis results delivered through the communication network, and stored according to external requirements Medical information management means for providing a prescription to a user through a communication network; ID is provided from the radio frequency processing means and the call is connected to the medical information management means through the communication network, the heart rate analysis results analyzed by the medical information management means and the prescription stored in the medical information management means through the communication network to provide to the user At least one first communication means for providing the user's prescription for the heart rate analysis result input from the outside to the medical information management means through a communication network; And providing a call signal according to external control, and making a call connection with the medical information management means through a communication network by receiving the provided call signal, receiving a prescription for a fetus and a pregnant woman stored in the medical information management means and providing the same to the user. At least one second communication means.

Description

ULTRASONIC DETECTOR USING WIRELESS COMMUNICATION AND REMOTE DIAGNOSING SYSTEM USING THE SAME}

The present invention relates to an ultrasonic sensing device using a wireless communication method and a remote medical care system using the same, and in particular, to detect the heart rate of the fetus using a portable ultrasonic sensing device and to provide a doctor's prescription for this via a communication network It is about a medical care system.

Recently, with the development of medical technology, a technology for measuring a biosignal indicating a functional state of a patient's organs has been developed at a long distance, and the most widely used device as a biosignal measuring device has a long range of functions of the heart. There is an electrocardiogram transmission method. That is, ECG monitors used for diagnosing diseases and health conditions related to the heart include Holter, ECG, Resting ECG, and Stress ECG monitor.

Such an ECG monitor is provided to observe only the ECG waveform for a short time. However, in order to observe cardiac abnormalities such as arrhythmias that occur intermittently, it is necessary to continuously record and analyze them for a long time, and the Holter ECG device has been developed due to these needs. For example, the ECG data detected for about one day using the Holter ECG device is recorded in a cassette or a semiconductor memory device for 24 hours or longer and analyzed.

In the case of the above-described electrocardiogram patient, etc., the patient could be remotely treated. However, the pregnant woman who is not classified as a patient had a problem of having to visit the hospital and receive a diagnosis and diagnosis even in an emergency such as pregnancy poisoning and stillbirth.

Accordingly, the present invention has been made to solve the above problems, by detecting the heart rate of the fetus using a wireless communication method and providing it to the hospital through a communication network, even if the pregnant woman is far from the hospital or the like fetus and pregnant women It is an object of the present invention to provide an ultrasonic sensing device that can quickly diagnose and prescribe.

In addition, the present invention, by providing a heart rate of the fetus detected by the portable ultrasonic sensing device through a communication network and providing a doctor's prescription for this through the communication network, it is difficult to transfer to a hospital pregnant women or pregnant women located at a remote location Another aim is to provide a telemedicine system that enables rapid diagnosis of fetuses and pregnant women.

1 is a block diagram of an ultrasonic sensing apparatus using a wireless communication method according to an embodiment of the present invention.

FIG. 2A is a block diagram of an embodiment of the heart rate sensor of FIG. 1; FIG.

FIG. 2B is a perspective view illustrating a heart rate detector of the ultrasonic sensing device of FIG. 2A; FIG.

3A is a diagram illustrating an embodiment of the radio frequency processor of FIG. 1;

Figure 3b is a perspective view showing a radio frequency processor of the ultrasonic sensing device of Figure 3a.

Figure 4 is a block diagram of a remote medical care system using an ultrasonic sensing apparatus according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: heart rate sensor 120: radio frequency processor

130: communication network 141 to 14n: mobile communication terminal

151 to 15n: telephone 161 to 16n: computer

The present invention for achieving the above object, in the ultrasonic sensing device for providing a heart rate of the fetus checked using a wireless communication system to the communication network, by detecting the heart rate of the fetus in the body of the pregnant woman using the ultrasonic wave, Heart rate detection means for outputting a heart rate in text and voice, and converting the detected heart rate into a radio frequency signal and transmitting the same; And a radio frequency processing means for outputting a heart rate signal of a radio frequency received through the airwave band from the heart rate detection means by text and voice, converting the received heart rate signal of the radio frequency into a signal suitable for the communication network, and transmitting the signal to the communication network. It includes.

In addition, the present invention, in the remote medical care system for diagnosing patients such as fetus and pregnant women located at a distance from the hospital through a communication network, by detecting the heart rate of the fetus in the pregnant woman's body using ultrasound, Heart rate detection means for modulating the heart rate and converting the heart rate into a radio frequency signal; The heart rate signal of the radio frequency received through the airwave band from the heart rate detecting means is demodulated into a heart rate signal before being modulated, converted into a signal suitable for the communication network, transmitted to the communication network, and an ID for a call connection input to the outside ( Radio frequency processing means for transmitting an identifier (ID) to the communication network; Analyzing the heart rate of the fetus transmitted through the communication network from the radio frequency processing means, storing and outputting the heart rate analysis result to the communication network, and stores a prescription for the heart rate analysis result delivered through the communication network, the external request Medical information management means for providing a user with a prescription stored according to the communication network; The medical information management means and the communication network are connected by the ID provided from the radio frequency processing means through the communication network, and the heart rate analysis result analyzed by the medical information management means and the prescription stored in the medical information management means are stored in the communication network. At least one first communication means received through the communication network and provided to the user and provided to the user, and a prescription of the user for the heart rate analysis result input from the outside through the communication network; And providing a call signal according to external control, and making a call connection with the medical information management means through the communication network through the provided call signal, receiving a prescription for a fetus and a pregnant woman stored in the medical information management means. At least one second communication means for providing.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a block diagram of an ultrasonic sensing apparatus using a wireless communication method according to an embodiment of the present invention, by detecting the heart rate of the fetus in the body of the pregnant woman using the ultrasonic wave, and converts the detected heart rate signal into a radio frequency signal And a heart rate detector 110 to transmit and transmit a heart rate signal of a radio frequency received from the heart rate detector 110 into a signal suitable for a commercial communication network and transmits the signal to a commercial communication network.

The heart rate detector 110 is a single device separated from the radio frequency processor 120 and is used to detect fetal heart rate using ultrasound while being carried by users such as medical personnel.

The radio frequency processor 120 is wired to a communication network such as a commercial telephone network, and serves to connect the heart rate signal detected by the heart rate detector 110 to the communication network.

More detailed configuration and operation of the heart rate detector 110 and the radio frequency processor 120 having such a function will be described in detail with reference to the accompanying drawings.

On the other hand, using the wireless communication method according to the present invention as described above, the ultrasonic sensing device is not limited to measuring the heart rate of the fetus, it may be used to detect heart rate of all humans and animals.

FIG. 2A is a configuration diagram of an embodiment of the heart rate sensor of FIG. 1.

Referring to FIG. 2A, the heart rate sensor of FIG. 1 receives a sensor 111 for detecting a heart rate of a fetus and a heart rate pattern recognition for receiving a heart rate signal detected by the sensor 111 to recognize a current heart rate pattern of a fetus. The controller 112 receives the heart rate pattern recognized by the heart rate pattern recognition unit 113 to determine the fetal heart rate, controls the output of the determined heart rate text signal and voice signal, and controls the transmission of the determined heart rate. The display unit 114 for displaying the heart rate of the fetus converted into the text signal by the control unit 113 under the control of the control unit 113 and the control unit 113 under the control of the control unit 113. The sound output unit 115 for outputting the heartbeat sound of the fetus converted into the voice signal by the 113 and the heart rate converted into the baseband signal by the control unit 113 under the control of the control unit 114 is wireless. Convert to frequency signal And a transmission processor 116 to transmit on.

Here, the display unit 114 may be implemented using a liquid crystal screen such as an LCD (Liquid Crystal Display), and the voice output unit 115 may be implemented using earphones or headphones that can be attached to a human ear. have.

Although not shown in the drawings, the heart rate detector of the ultrasonic sensing apparatus according to the present invention has a function of adjusting the volume of sound output through the voice output unit 115.

2B is a perspective view illustrating a heart rate detector of the ultrasonic sensing apparatus of FIG. 2A.

Referring to the operation of the heart rate detector of the ultrasonic sensing apparatus according to the present invention having the structure as described above in detail as follows.

The sensor 111 detects the heart rate of the fetus in the pregnant woman's body and transmits it to the heart rate pattern recognition unit 112. In this case, the sensor 111 outputs the detected heart rate in an analog form. ) Converts the transmitted analog heart rate signal into a digital signal and uses it for heart rate pattern recognition. That is, the heart rate pattern recognition unit 112 extracts only a desired signal component by filtering the converted digital heart rate signal, and then recognizes the fetal heart rate pattern using the extracted signal component. In this case, the heart rate pattern recognition unit 112 performs heart rate pattern recognition under the control of the control unit 113.

As described above, after the fetal heart rate pattern is recognized, the controller 113 determines the fetal heart rate through the recognized heart rate pattern, converts the determined heart rate into a text signal, and displays the text on the display 114 to determine it. The heart rate is converted into a baseband signal suitable for the transmission processor 116 and output. In addition, the controller 113 determines the heartbeat state of the fetus through the recognized heart rate pattern, converts the determined heartbeat state into a voice signal, and outputs the converted heartbeat sound of the fetus through the sound output unit 115. .

In addition, the transmission processor 116 modulates the baseband heart rate signal transmitted from the control unit 113 to be carried on the carrier, and then up-converts the modulated heart rate signal into a high frequency signal suitable for the airwave band. 120). Here, the high frequency heart rate signal output from the transmission processor 116 has a frequency band of 2 MHz and is transmitted at a speed of 50 to 240 bpm. However, the frequency band and the transmission speed of the high frequency heart rate signal transmitted from the transmission processing unit 116 are not limited thereto, and may be changed.

3A is a diagram illustrating an embodiment of the radio frequency processor of FIG. 1.

As shown in FIG. 3A, the radio frequency processor of FIG. 1 includes a reception processor 121 for demodulating a high frequency heart rate signal received from the heart rate detector 110 into a baseband signal after demodulating the signal into a baseband signal; The control unit 122 converts the baseband heart rate signal transmitted from the reception processing unit 121 into a signal suitable for communication network connection, and controls the text signal and voice signal output of the transmitted heart rate according to the control of the control unit 122. The display unit 123 which displays the heart rate of the fetus converted into the text signal by the control unit 122 as a character, and the heart of the fetus converted into the audio signal by the control unit 122 under the control of the control unit 122. A speaker 124 for outputting a pulsating sound and a communication network interface 125 for connecting a heart rate signal transmitted from the control unit 122 to a communication network.

Here, the display unit 123 may be implemented as a display element such as an LCD.

In addition, the controller 122 provides an ID (ID: Identifier) input by the user through the communication network interface 125, which is used by medical personnel in a hospital or the like to detect the heart rate signal of the fetus detected by the heart rate detector 110. To transfer to a specific computer.

On the other hand, the radio frequency processor of the ultrasonic sensing device according to the present invention is a sound control unit for adjusting the sound volume so that people around can clearly hear the heartbeat sound of the fetus output through the speaker 124 (not shown) Well) is provided.

3B is a perspective view illustrating a radio frequency processor of the ultrasonic sensing apparatus of FIG. 3A. However, reference numeral 126 denotes a charging unit for charging the radio frequency processor 120 and is not shown in FIG. 3A.

Referring to the operation of the radio frequency processor of the ultrasonic sensing apparatus according to the present invention having the structure as described above in detail as follows.

As described above in FIG. 2A, when the fetal heart rate detected by the heart rate detector 110 is received through the airwave band, the reception processor 121 processes the received heart rate signal of the received radio frequency in the controller 122. After conversion to a suitable baseband signal, the heart rate signal is demodulated to a signal before being modulated and passed to the controller 122.

Subsequently, the control unit 122 converts the heart rate signal received by the reception processing unit 121 into a text signal and displays the text through the display unit 123 and converts the heart rate signal transmitted from the reception processing unit 121 into a communication network. The signal is converted into a signal and transmitted to the communication network interface 125. In addition, the controller 122 determines the heartbeat state of the fetus through the heart rate signal transmitted from the reception processor 121, converts the determined heartbeat state into a voice signal, and the heartbeat sound of the fetus is transmitted through the speaker 124. Control the output.

In addition, the communication network interface 125 functions as a bidirectional communication interface, and in a state in which a call connection is made between the communication network and the radio frequency processor 120, a heart rate signal converted and transmitted by the controller 122 is connected to the communication network, In addition, the ID provided from the control unit 122 is transmitted to the communication network.

4 is a block diagram of a remote medical care system using an ultrasonic sensing apparatus according to another embodiment of the present invention, the heart rate detector 110 and the radio frequency processor 120 of the ultrasonic sensing apparatus described above with reference to FIG. Communication network 130 for exchanging wireless communication and computer communication, mobile communication terminals 141 to 14n connected to communication network 130 through a base station, and telephones 151 to 15 connected to communication network 130 through commercial telephone lines. 15n), computers (161 to 16n) having a communication ID, connected to the communication network 130, and heart rate transmitted from the ultrasound sensing device through the communication network 130, to analyze the health status of the fetus and the pregnant woman. Provide the analysis result to the computers 161 to 16n, and provide the information to the user through the communication network 130 while managing the medical information provided through the communication network 130 from the computers 161 to 16n. The medical information server 170 is provided.

Referring to the operation of the telemedicine system according to the present invention having the structure as described above in detail as follows.

When the call connection is made between the ultrasonic sensing device and the communication network 130, when the heart rate and the input ID of the fetus detected by the ultrasonic sensing device are transmitted to the communication network 130, the medical information server 170 communicates with the communication network from the ultrasonic sensing device. After analyzing the fetal heart rate received through the 130, the heart rate analysis result is transmitted to the computer using the ID transmitted from the radio frequency processor 120 through the communication network (130). In addition, the medical information server 170 stores the heart rate analysis result.

The computer using the ID provided from the ultrasound sensing apparatus among the computers 161 to 16n receives the fetal heart rate analysis result provided from the medical information server 170 through the communication network 130. Therefore, the doctor diagnoses the fetal and pregnant women's health conditions through the fetal heart rate analysis result, and inputs a prescription according to the diagnosis result through the available computers among the computers 161 to 16n. At this time, the prescription for the fetus and pregnant women provided through the computer from the doctor is delivered to the medical information server 170 through the communication network 130 and stored.

As such, the doctor's prescription stored in the medical information server 170 is provided to the users through the communication network 130, that is, the users are mobile communication terminals (141 to 14n) or telephones (151 to 15n) or computer (161). To 16n), a prescription of a doctor stored in the medical information server 170 may be provided.

For example, in order for a user to receive a doctor's prescription stored in the medical information server 170 as described above through one of the computers 161 to 16n, the ID of the computer used by the user is provided. The medical information server 170 provides the requested prescription to the user's computer. In this case, the medical information server 170 may provide the doctor's prescription as voice information so that the doctor's prescription may be output as a text on a monitor of the computer, and in the case of a computer capable of voice output, may be provided through voice.

And, if the user is to receive the prescription of the doctor stored in the medical information server 170 through one of the mobile communication terminal (141 to 14n), the user using the mobile communication terminal using the medical information server Providing a call signal to the 170 to allow a call connection between the mobile communication terminal and the medical information server 170 through the communication network 130, and then through the communication network 130 and the base station from the medical information server 170 You can get a prescription from your doctor. At this time, the medical information server 170 provides the doctor's prescription as voice information, and also provides the doctor's prescription as text information so that the doctor's prescription can be output as text on the LCD screen of the mobile communication terminal.

In addition, when using the telephones (151 to 15n) to receive the prescription of the doctor stored in the medical information server 170, a call signal such as a telephone number, etc. using the telephone used by the user through the communication network 130 When provided to the medical information server 170, the medical information server 170 in response to the voice of the doctor's prescription requested to the user's phone.

On the other hand, although not shown in the drawings, the present invention can provide a doctor's prescription stored in the medical information server 170 also through a communication means such as a fax. Of course, even when using a communication means such as a fax, as described above, the call connection is made between the fax and the medical information server 170 through the communication network 130.

As such, in order to receive a doctor's prescription via fax, users may receive a number of faxes that can be received using mobile communication terminals 141 to 14n, telephones 151 to 15n, or computers 161 to 16n. The information server 170 may transmit the information. And, the medical information server 170 can provide a prescription of the doctor requested by the fax number delivered as described above.

Therefore, the present invention can improve the safety of the fetus and the pregnant woman by diagnosing and diagnosing the health status of the fetus through the above-described process even if the pregnant woman does not visit the hospital directly. In addition, it is possible to diagnose urgently pregnant women quickly and safely.

Although the technical spirit of the present invention has been described in detail according to the above-described preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

As described above, the present invention has the following effects by detecting the heart rate of the fetus using a portable ultrasonic sensing device and providing a doctor's prescription thereof through a communication network.

First, it is possible to quickly diagnose a pregnant woman and the fetus in the pregnant woman's body difficult to transport to the hospital.

Second, the fetus and the pregnant woman can be diagnosed without regard to the location of the pregnant woman.

Third, the fetus and pregnant women can be diagnosed quickly and anywhere, thereby significantly improving the quality of medical services.

Claims (6)

In the ultrasonic sensing device for providing a fetal heart rate of the fetus checked by using a wireless communication method, Heart rate detection means for detecting the heart rate of the fetus in the body of the pregnant woman using the ultrasound, and outputs the detected heart rate in text and voice, converts the detected heart rate into a radio frequency signal and transmits; And Radio frequency processing means for outputting the heart rate signal of the radio frequency received through the airwave band from the heart rate detection means in text and voice, converts the received heart rate signal of the radio frequency into a signal suitable for the communication network and transmits it to the communication network Ultrasonic sensing device comprising a. Telemedicine system for diagnosing patients such as fetuses and pregnant women remotely from the hospital through a communication network, Heart rate detection means for detecting the heart rate of the fetus in the body of the pregnant woman using the ultrasonic wave, modulates the detected heart rate and converts it into a radio frequency signal and transmits; The heart rate signal of the radio frequency received through the airwave band from the heart rate detecting means is demodulated into a heart rate signal before being modulated, converted into a signal suitable for the communication network, transmitted to the communication network, and an ID for a call connection input to the outside ( Radio frequency processing means for transmitting an identifier (ID) to the communication network; Analyzing the heart rate of the fetus transmitted through the communication network from the radio frequency processing means, storing and outputting the heart rate analysis result to the communication network, and stores a prescription for the heart rate analysis result delivered through the communication network, the external request Medical information management means for providing a user with a prescription stored according to the communication network; The medical information management means and the communication network are connected by the ID provided from the radio frequency processing means through the communication network, and the heart rate analysis result analyzed by the medical information management means and the prescription stored in the medical information management means are stored in the communication network. At least one first communication means received through the communication network and provided to the user, and providing the user's prescription for the heart rate analysis result input from the outside to the medical information management means; And Provides a call signal according to external control, connects the call with the medical information management means through the communication network by the provided call signal, receives a prescription for the fetus and pregnant women stored in the medical information management means and provides it to the user At least one second communication means Telemedicine system using an ultrasonic sensing device comprising a. The method of claim 2, Each of the at least one first communication means, And a computer which communicates with the medical information management means by a predetermined ID and communicates with the medical information management means through the communication network. The method of claim 2, Each of the at least one second communication means, A telephone that is connected to the communication network through a commercial telephone line, provides a call signal, makes a call connection with the medical information management means, and communicates with the medical information management means through the communication network; A mobile communication terminal wirelessly connected to the communication network through a base station, providing a call signal, making a call connection with the medical information management means, and communicating with the medical information management means through the communication network; And A fax connected to the communication network through a commercial telephone line and connected to the medical information management means by a call signal provided from the outside, and receiving a signal provided through the communication network from the medical information management means. Telemedicine system using an ultrasonic sensing device comprising a. The method according to claim 1 or 2, The heart rate detection means, A sensor for detecting a heart rate of the fetus; A heart rate pattern recognition unit configured to receive a heart rate signal sensed by the sensor and recognize a current heart rate pattern of the fetus; A control unit configured to receive a heart rate pattern recognized by the heart rate pattern recognition unit, determine a fetal heart rate, control a text signal and an audio signal output of the determined heart rate, and control wireless transmission of the determined heart rate; A display unit displaying a fetal heart rate, converted into a text signal by the controller, as a character under the control of the controller; A sound output unit for outputting a heartbeat sound of the fetus converted into a voice signal by the controller, under the control of the controller; And According to the control of the control unit, the transmission processing unit for modulating the heart rate converted into a baseband signal by the control unit and then converted into a radio frequency signal for transmission Ultrasonic sensing device and a medical treatment system using the same. The method according to claim 1 or 2, The radio frequency processing means, A reception processing unit for demodulating a high frequency heart rate signal received from the heart rate detecting unit into a baseband signal after demodulating the signal into a baseband signal; Converts the baseband heart rate signal transmitted from the reception processing unit into a signal suitable for communication network connection, outputs the call connection ID input from the outside, and controls the transmission of the text and voice signals of the transmitted heart rate; Control unit; A display unit displaying a fetal heart rate, converted into a text signal by the controller, as a character under the control of the controller; A speaker for outputting a heartbeat sound of the fetus converted into a voice signal by the controller, under the control of the controller; And Communication network interface for connecting the heart rate signal transmitted from the control unit to the communication network Ultrasonic sensing device and a medical treatment system using the same.