KR102154103B1 - Medical information transmission system using ultrasonic wave authentication - Google Patents

Abstract

By using sound wave authentication as an authentication method for transmitting personal medical data to medical institutions, insurance companies, etc., radio wave interference and hacking problems are solved, and medical data can be safely transmitted using a security authentication key to improve the reliability of data transmission. It relates to a medical information transmission system using ultrasonic authentication that promotes and enhances stability.When a medical information request occurs from a medical information request terminal that requests medical information, a security authentication key is generated and transmitted to the data server and patient terminal. , When acceptance information corresponding to a medical information request occurs, an authentication server that generates a sound wave index for sound wave authentication, a medical institution server that transmits the sound wave index to ultrasonic waves through a speaker, and demodulates the sound wave index after receiving it to extract the authentication key. , Comparing the extracted authentication key and the security authentication key, and if the same, including a patient terminal that transmits personal information for medical information transmission, and a data server that transmits registered personal medical information to the medical information request terminal when personal information occurs. , Implement a medical information transmission system using ultrasonic authentication.

Description

Medical information transmission system using ultrasonic wave authentication}

The present invention relates to a medical information transmission system using ultrasonic authentication, and in particular, by using ultrasonic authentication as an authentication method for transmitting personal medical data to a medical institution, insurance company, etc., radio wave interference and hacking problems are solved, and a security authentication key is used. The present invention relates to a medical information transmission system using ultrasound authentication, which enables the safety of medical data to be transmitted by using an ultrasonic wave authentication to improve the reliability of data transmission and enhance the stability.

Recently, the demand for medical information for medical research, artificial intelligence, and big data is increasing day by day, but only a few data can actually be used, and most of the data that is biased from a specific medical institution are distributed and thus integrated. There are difficulties for it.

The domestic medical information system is managed mainly by medical institutions, and is blocked from sharing outside medical institutions operated to protect personal information, and sharing is allowed only at the request of individual patients.

Therefore, reorganization of the domestic medical information management system is required for continuous management of patients.

As part of this request, Asan Hospital in Seoul and Electronics and Telecommunications Research Institute are developing a healthcare big data analysis platform (refer to non-patent document 1) from 2015 to 2020. The medical records and imaging records of over 4 million patients are used, and over 600 million prescription records and over 200 million medical records are in themselves phenomenal data, but even a high number is the result of a single hospital. The deviation is too large to be the national average medical data.

This medical information management system centered on medical institutions makes it difficult to share medical data between hospitals as medical data of individuals who have undergone treatment are fragmented and stored in various hospitals, and medical history management of patients is not continuously performed, resulting in medical services. It became the leading role that hindered the quality of life.

For example, iBlue Button (refer to Non-Patent Document 2) released by Humetrics of the United States is a service that allows you to view health insurance records with a smartphone. In fact, there was a case in which the user of the app had medical records that he did not know about on the charts managed by the hospital, and when he checked through the app, it was revealed that there was an incorrect record. In this way, managing medical data by the patient himself can check whether the medical history is wrong or there is no medical cost fraud, etc., so that it can prepare for a medical accident.

Individual medical records should be kept in the form of medical institutions for medical treatment, and it is safer for information protection to be managed separately, and individuals can easily share their medical information in accordance with the era of the 4th industrial revolution. It is possible to create high-quality data for personal information protection as well as personal continuous management only when it is easily provided and used in places where data is requested according to the individual's will, not medical institutions, and the quality of medical services through such high-quality data I can lead an improvement.

Meanwhile, numerous wireless network radio waves for service (3G, LTE, WiFi, LiFi, Zigbee, Bluetooth, LoRa, Wi media, NFC, Beacon, etc.) coexist in hospitals. Since most of each communication device uses the ISM band, interference between signals must be considered in order to form an additional communication link using radio waves. In this way, not only to prevent collisions between medical devices, but also to deviations according to the methods of equipment manufacturers, the spread of hospitals is more complicated than expected. In such a complex situation, when applying the wireless network method to apply a new service, it is inevitable to configure a fairly complex method by understanding the situation of each hospital and taking into account the conflict with the existing device, thus increasing the cost required for service construction. And it has a problem that it is difficult to spread the service.

(Non-Patent Document 1) 2015.10 Seoul Asan Hospital, a Korean-style "medical big data analysis platform" for heart attack prediction press release (https://goo.gl/KkhYim) (Non-Patent Document 2) 2013.12 Wall Street Journal, a mobile app that allows you to view medical records (https://goo.gl/5vDNFa)

Accordingly, the present invention has been proposed to solve the demand for reorganization of the domestic medical information management system for continuous management of patients as described above and the demand for improvement of the wireless network system of a complex hospital that affects hospital equipment, and provides personal medical data to a medical institution, By using ultrasonic authentication as an authentication method for transmission to insurance companies, etc., radio wave interference and hacking problems are solved, and medical data can be safely transmitted using a security authentication key, thereby improving the reliability of data transmission and enhancing stability. Its purpose is to provide a medical information transmission system using ultrasonic authentication.

Another object of the present invention is to allow the application to be applied directly to the field without the need for additional equipment or equipment, and to transmit medical information using ultrasonic authentication that can be applied to various fields (movie theaters, department stores, bookstores, etc.) To provide a system.

Another object of the present invention is to use ultrasonic waves of 20KHz or more, slightly exceeding the audible frequency of 40 ~ 20,000Hz, so as not to interfere with the hospital's work when applying the service, so that the hospital utilizes the existing speaker currently used for guidance. Therefore, it is to provide a medical information transmission system using ultrasonic authentication to develop an active service that attempts data authentication and transmission without additional installation of equipment for service.

Another object of the present invention is ultrasonic authentication that provides a safe solution from the risk of hacking by using a double security system that combines a modulation method for sound wave authentication and security and an independent authentication key generation when information is exchanged using sound waves. It is to provide a medical information transmission system using

In order to achieve the above object, the medical information transmission system using ultrasonic authentication according to the present invention generates a security authentication key when a medical information request occurs from a medical information request terminal and transmits it to a data server and a patient terminal, An authentication server for generating a sound wave index for sound wave authentication when acceptance information corresponding to a medical information request is generated from the patient terminal; A medical institution server that transmits an ultrasonic wave index generated by the authentication server through a speaker; A patient terminal receiving the sound wave index transmitted from the server of the medical institution, demodulating to extract an authentication key, comparing the extracted authentication key with the security authentication key, and transmitting personal information for authentication if they are the same; And a data server for transmitting registered personal medical information to the medical information requesting terminal when authentication information is generated from the patient terminal.

In the above, the medical information request terminal requests authentication using a cloud-based authentication request application, and is a terminal used by medical staff.

In the above, the authentication server is characterized in that the sound wave index modulated by the security authentication key is transmitted to the medical institution server.

In the above, the sound wave index is characterized in that the security authentication key is modulated using a direct sequence spreading technique.

In the above, the authentication server includes a scrambler for scrambling a security authentication key; A PN code generator that generates a pseudo noise code; A mixer for mixing scrambling data by the scrambler and a PN code generated by the PN code generator; It characterized in that it comprises a modulator for modulating the security authentication key mixed in the mixer with ultrasonic waves.

In the above, the patient terminal downloads and stores a mobile authentication application for sound wave authentication, and performs sound wave authentication through this.

In the above, the patient terminal includes a demodulator for demodulating the received ultrasound signal; A PN code generator that generates a pseudo noise code; A mixer for extracting a security authentication key by mixing the data demodulated by the demodulator and the PN code generated by the PN code generator; And a descrambler that descrambles the security authentication key extracted from the mixer into original security authentication key data.

In the above, the patient terminal compares the security authentication key transmitted from the authentication server with the security authentication key output by the descrambler, and when they match, generates authentication information for medical information transmission as personal information.

According to the present invention, when implementing a communication link using sound waves, since the ISM band occupied by wireless communication technologies is not used, it is possible to secure safety from interference with existing signals.

In addition, since technology can be implemented by combining with software without additional hardware, it is possible to apply the technology according to the purpose after technology development and apply it to various fields (movie theaters, department stores, bookstores, etc.). In addition, it is possible to build a system with only simple equipment (microphone, speaker) even in a necessary situation, so it is advantageous in terms of cost and has excellent expandability.

In addition, according to the present invention, safety from the risk of hacking through a dual security system combining a modulation method (direct sequence spreading and scrambling technology) for sound wave authentication and security when information is exchanged using radio waves and the creation of an independent authentication key. There is an advantage that can be secured.

In addition, according to the present invention, the sound wave authentication technology can be authenticated with an existing device without the need to mount a separate chip or attach a device, such as beacon and NFC, which have been used as authentication means so far, so there is no need for a new infrastructure. There is an effect that promotes improvement.

In addition, the current system consists of hospital-centered medical information, so there is a hassle for patients to receive medical records at each hospital. However, in the present invention, data can be managed and stored by an individual patient through a simple authentication procedure, and the data can be easily transmitted back to a third hospital, thereby preventing double examination and reducing unnecessary expenses.

In addition, when a patient visits a hospital for medical treatment, doctors are having difficulty in accurate medical treatment due to incorrect medical history or incorrect prescription history. However, according to the present invention, if the patient directly manages his or her medical information, the doctor It is helpful in making a diagnosis, and this has the effect of promoting an environment where patients can receive better quality medical services.

In addition, according to the present invention, since medical information is personal information, it is practically not easy to disclose all information. Therefore, it is possible to increase efficiency in personal medical data management by providing only the information that the patient wants to disclose directly. The medical information management system that directly manages information can minimize malicious access by others and can manage where and how one's own medical information is being used, thereby controlling the leakage of medical information, thereby promoting security improvement. There is this.

1 is a schematic configuration diagram of a medical information transmission system using ultrasonic authentication according to the present invention,
2 is an exemplary diagram of data scrambling of a scrambler applied to the present invention;
3 is an exemplary diagram of an implementation of an encryptor (Spreader) applied to the present invention;
4 is a conceptual diagram of sound wave index modulation and demodulation in the present invention,
5 is a schematic diagram of sound wave authentication in the present invention.

Hereinafter, a medical information transmission system using ultrasound authentication according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a medical information transmission system using ultrasonic authentication according to a preferred embodiment of the present invention, comprising a medical information request terminal 10, an authentication server 30, a patient terminal 30, and a data server 40. Include.

Although not shown in FIG. 1, the medical information transmission system using ultrasonic authentication according to the present invention transmits the sound wave index transmitted from the authentication server 20 between the authentication server 20 and the patient terminal 30 to ultrasonic waves through a speaker. It may further include a medical institution server to transmit. Here, the medical institution server means a hospital server.

In addition, the data server 40 may be a server that separately stores medical information or may be replaced with the hospital server.

The medical information request terminal 10 is a terminal that requests medical information of a corresponding patient during treatment with a patient. It is preferable that the medical information request terminal 10 request authentication using a cloud-based (PC/MS Surface4) authentication request application.

Preferably, the medical information request terminal 10 may be implemented as a doctor computer used by a doctor, a hospital server used in a hospital linked with a doctor computer, or a computer used by an insurance company.

When a medical information request occurs from the medical information request terminal 10, the authentication server 20 generates a security authentication key and transmits it to the patient terminal 30, and accepts the medical information request from the patient terminal 30. When information is generated, it plays a role of generating a sound wave index for sound wave authentication. The authentication server 20 generates a communication sound wave, and uses a pseudo noise code (PN code) to classify a magnetic signal. In addition, it is desirable to generate a random data pattern through data scrambling.

More preferably, the authentication server 20 transmits the sound wave index modulated by the security authentication key to the medical institution server.

Here, the sound wave index is that the security authentication key is modulated using a direct sequence spread spectrum technology as shown in FIGS. 2 to 3.

In order to generate a sound wave index of the security authentication key, the authentication server 20 is a Scrambler 21a for scrambling the security authentication key and a PN code for generating a PN code, as shown in FIG. 4A. A data mixer 21 comprising a PN code generator 21b and a mixer 21c that mixes the scrambling data of the scrambler 21a with the PN code generated by the PN code generator 21b, the It may include a modulator 22 that modulates the security authentication key mixed in the mixer 21c with ultrasonic waves.

The patient terminal 30 is a terminal used by a user (patient) to provide medical information, and may be implemented as a smartphone. The patient terminal 30 receives the sound wave index transmitted from the medical institution server (hospital server), demodulates it, extracts an authentication key, compares the extracted authentication key and the security authentication key, and transmits personal information if they are identical. do.

It is preferable that the patient terminal 30 downloads and stores a mobile authentication application (Android 4.1 or higher driving application, iOS 8.0 or higher driving application) for sound wave authentication, and performs sound wave authentication through this.

For sound wave authentication, the patient terminal 30 includes a demodulator 31 that demodulates the received ultrasound signal, a PN code generator 32a that generates a pseudo noise code, and the demodulator 31 as shown in FIG. 4B. ), the mixer 32 extracting a security authentication key by mixing the data demodulated by the PN code generator 32a and the PN code generated by the PN code generator 32a, and the original security authentication by descrambling the security authentication key extracted from the mixer 32 It includes a data extractor 32 composed of a descrambler 32c made of key data.

In addition, the patient terminal 30 compares the security authentication key transmitted from the authentication server 20 with the security authentication key output by the descrambler 31, and if they match, personal authentication information for medical information transmission It is desirable to occur with information.

The data server 40 receives a security authentication key for security authentication from the authentication server 20, compares each other when personal information (authentication key) is generated from the patient terminal 30, and if they match, the registered It serves to transmit personal medical information to the medical information request terminal 10 or a medical institution server. Here, when the data server 40 is a hospital server that stores and manages medical information in the hospital, personal medical information is directly transmitted to the medical information request terminal 10, and the data server 40 interlocks with the medical institution server. In the case of a separate medical data management server, personal medical information is transmitted to the medical institution server.

The operation of the medical information transmission system using ultrasonic authentication according to the present invention configured as described above will be described in detail as follows.

First, the doctor who treats the patient obtains the patient's consent to view the patient's previous personal medical records while treating the patient. Patient consent may be given orally. If the patient agrees, the doctor requests medical information of the patient using the medical information request terminal 10. It is preferable that the medical information request terminal 10 requests authentication using a cloud-based (PC/MS Surface4) authentication request application.

When a request for personal medical information occurs to the medical information request terminal 10, the medical request data is transmitted to the authentication server 20 via a hospital server or directly.

The authentication server 20 generates a security authentication key when a medical information request occurs from the medical information request terminal 10 and transmits it to the patient terminal 30. Subsequently, when acceptance information corresponding to the medical information request is generated from the patient terminal 30, a sound wave index for sound wave authentication is generated. The authentication server 20 generates sound waves for communication, and uses a pseudo noise code (PN code) to classify a magnetic signal. In addition, it is desirable to generate a random data pattern through data scrambling.

Here, the sound wave index is a security authentication key modulated using a direct sequence spreading technique as shown in FIGS. 2 to 3.

To generate a sound wave index of the security authentication key, the authentication server 20 scrambles the security authentication key in the same manner as in FIG. 2 in the scrambler 21a of the data mixer 21, as shown in FIG. 4A, and the mixer ( In 21c), scrambling data (security authentication key) is generated by mixing the PN code generated from the PN code generator 21b, which generates the PN code, and the scrambling data of the scrambler 21a. do. The generated scrambling data is modulated with ultrasonic waves in the modulator 22 and transmitted to a medical institution server or a hospital server.

The medical institution server or hospital server demodulates the received ultrasound data into original data, converts the received ultrasound data into an ultrasound signal, and propagates (broadcasts) in the hospital using a speaker or the like. At this time, when broadcasting is performed using a speaker or the like using sound waves, everyone in the hospital can listen to it in the audible frequency band. Therefore, in this case, the sound wave acts as noise for other users who do not have to listen to the sound wave. In large hospitals, many doctors treat many patients at the same time, and if the audible frequency is used, there is a concern that this may act as a fairly large noise.

Accordingly, in the present invention, ultrasound (20Khz or more) that cannot be heard by human ears other than an audible frequency is emitted using a speaker, so that the authentication key can be accurately transmitted to the patient even in a noisy environment due to many patients.

The patient receives the ultrasound transmitted from the medical institution server or the hospital server by using the patient terminal 30 during treatment with the doctor, demodulates and extracts the authentication key, compares the extracted authentication key with the security authentication key, and authenticates if the same Transfer personal information for

Here, the patient terminal 30 downloads and stores a mobile authentication application for sound wave authentication (Android 4.1 or higher driving application, iOS 8.0 or higher driving application) from the authentication server 20, and performing sound wave authentication through this.

For sound wave authentication, the patient terminal 30 receives ultrasonic waves through a microphone and demodulates the received ultrasonic signals using the demodulator 31, as shown in FIG. 4B. Subsequently, the PN code generated by the PN code generator 32a that generates the pseudo noise code by the mixer 32b in the data extractor 32 and the data demodulated by the demodulator 31 are mixed to extract a security authentication key. Subsequently, the descrambler 32c descrambles the security authentication key extracted from the mixer 32 to make the original security authentication key data.

Next, the patient terminal 30 compares the security authentication key transmitted from the authentication server 20 with the security authentication key output by the descrambler 32c, and if they match, personalize authentication information for medical information transmission. It happens with information. Here, the personal information, which is the authentication information, may be fingerprint information or authentication key information using an I-PIN or the like.

When the authentication server 20 receives authentication information, which is personal information transmitted from the patient terminal 30, the authentication server 20 transmits a security authentication key to the data server 40.

The data server 40 receives the security authentication key for security authentication transmitted from the authentication server 20, and when personal information (authentication key) is generated from the patient terminal 30, the data server 40 compares with each other, and if they match. The registered personal medical information is transmitted to the medical information request terminal 10 or the medical institution server. Here, when the data server 40 is a hospital server that stores and manages medical information in the hospital, personal medical information is directly transmitted to the medical information request terminal 10, and the data server 40 interlocks with the medical institution server. In the case of a separate medical data management server, personal medical information is transmitted to the medical institution server.

The present invention creates an index of a sound wave authentication method in order to transmit personal medical data to a medical institution, an insurance company, etc., and generates an authentication key for index protection, so that medical data can be safely transmitted.

When applying the medical information transmission service according to the present invention, it is not necessary to purchase additional equipment other than installing a personal app, and by using ultrasonic waves instead of radio waves, it not only solves the problem of radio interference and hacking, but also improves the reliability and stability of data transmission. You will be able to.

In addition, the present invention can be used in fields requiring medical data such as medical institutions, insurance companies, pharmaceutical companies, researchers, etc., and can be used in various fields without the purchase of additional equipment by being applied to applications in various industries requiring authentication.

Although the invention made by the present inventor has been described in detail according to the above embodiment, the present invention is not limited to the above embodiment, and it is common knowledge in the art that various changes can be made without departing from the gist of the invention. It is self-evident to those who have

10: medical information request terminal
20: authentication server
30: patient terminal
40: data server

Claims (8)

As a system for transmitting personal medical information using ultrasound authentication,
When a medical information request occurs from a medical information request terminal that requests medical information, a security authentication key is generated and transmitted to the patient terminal, and when acceptance information corresponding to the medical information request is generated from the patient terminal, a sound wave index for ultrasound authentication is generated. Generating authentication server;
A medical institution server that transmits an ultrasonic wave index generated by the authentication server through a speaker;
A patient terminal receiving the sound wave index transmitted from the server of the medical institution, demodulating to extract an authentication key, comparing the extracted authentication key with the security authentication key, and transmitting personal information, which is authentication information for medical information transmission, if they are the same; And
When personal information is generated from the patient terminal, it includes a data server for transmitting registered personal medical information to the medical information requesting terminal,
When personal information is generated by the patient terminal, the authentication server generates a security authentication key for protecting the sound wave index and transmits it to the data server,
The data server compares the personal information transmitted from the patient terminal with the security authentication key transmitted from the authentication server and, if the same, transmits the personal medical information to the medical request terminal,
The personal information is authentication key information using I-PIN,
The sound wave index is a medical information transmission system using ultrasonic authentication, characterized in that the security authentication key modulated using a direct sequence spreading technology.
The medical information transmission system using ultrasonic authentication as set forth in claim 1, wherein the medical information request terminal requests authentication using a cloud-based authentication request application.
The medical information transmission system using ultrasonic authentication according to claim 1, wherein the authentication server transmits a sound wave index obtained by modulating the security authentication key to a medical institution server.
delete In claim 1 or 3, wherein the authentication server is a scrambler for scrambling a security authentication key; A data mixer consisting of a PN code generator for generating a pseudo-noise code, a mixer for mixing scrambling data from the scrambler and a PN code generated by the PN code generator, and a modulator for modulating the security authentication key mixed in the mixer with ultrasonic waves Medical information transmission system using ultrasonic authentication, characterized in that.
The medical information transmission system using ultrasound authentication of claim 1, wherein the patient terminal downloads and stores a mobile authentication application for sound wave authentication, and performs sound wave authentication through the download.
The apparatus of claim 6, wherein the patient terminal comprises: a demodulator configured to demodulate the received ultrasound signal; A PN code generator that generates a pseudonoise code, a mixer that extracts a security authentication key by mixing the data demodulated by the demodulator and the PN code generated by the PN code generator, and a security authentication key extracted from the mixer are descrambled to Medical information transmission system using ultrasonic authentication, comprising a data extractor made of a descrambler made of security authentication key data.
The method of claim 7, wherein the patient terminal compares the security authentication key transmitted from the authentication server with the security authentication key output by the descrambler, and if they match, generates authentication information for medical information transmission as personal information. Medical information transmission system using ultrasonic authentication.

Images