KR101437515B1 - Picture archiving and communication system and method thereof - Google Patents

Abstract

A system and a method to transmit a medical image are disclosed. The present invention comprises: a first medical terminal separating each of at least one medical image file included in the medical image into a header and a body if the medical image is stored and a medical image transmission request is received, merging the separated to at least one header with the separated to at least one body to generate header data and body data, inserting a key code into each of the header data and the body data to generate the header data for transmission and the body data for transmission and to transmit them; a second medical terminal transmitting the medical image transmission request to receive it, requesting and receiving the key code if the header data for transmission and the body data for transmission are received, and restoring the medical image using the received key code; and a relay server analyzing a right of the second medical terminal for the medical image transmission request and performing authentication if the medical image transmission request is received from the second medical terminal, transfers the medical image transmission request to the first medical terminal if the second medical terminal is authenticated, and transmits the key code if a request for the key code is received from at least one between the first medical terminal and the second medical terminal.

Description

TECHNICAL FIELD [0001] The present invention relates to a medical image transmission system and a medical image transmission system,

The present invention relates to a medical image transmission system and method, and more particularly, to a medical image transmission system and method capable of enhancing image security and transmission efficiency.

As information and communication technology develops, medical information is rapidly being computerized. Computerization of medical information is performed throughout the medical field, and patient status information is also computerized along with medical records of patients. Among these medical information, medical image is the most accurate information of the patient's status information. Therefore, most hospitals now convert all test image results taken by medical devices such as X-ray, CT, MRI, PET, SPECT into digital images and save them in mass storage device at the same time, PACS (Picture Archiving and Communication System) system. When the medical image is computerized by operating the PACS, the storage and transmission of the medical image becomes very easy compared with the conventional film type image, so that the medical information of the patient can be conveniently checked at various places. Also, in order to support various medical devices and various computerized inquiry environments, most of the data is stored in a standard manner in which the data is disclosed, so that transmission and retrieval are easy.

On the other hand, computerized medical images transmitted through a network and easy to copy and stored in an open manner are vulnerable to security because they transmit or distribute data.

In most hospitals, as disclosed in Korean Patent Laid-Open No. 10-2003-0081883, medical personnel including doctors are relatively freely able to view medical images of patients in the hospital. However, in view of security and privacy, It is often the case that a medical image can not be transmitted directly to a server or a terminal outside the hospital without a legal representative's consent procedure. However, in some cases, it may be stored on a recording medium such as a film or a CD-ROM according to the needs of the patient as required. Therefore, there is a problem that the medical information is not sufficiently transmitted when the patient freely moves to the hospital, and when the hospital is changed without the medical image, the additional imaging cost is generated to generate the medical image, thereby increasing the cost burden and inconvenience there is a problem. Therefore, there is an urgent need to enhance the security so that medical image transmission and exchange of patients can be expanded outside the hospital.

In addition, since medical images are generally large in size, studies on how to increase the transmission efficiency in order to transmit medical images through a network are needed.

It is an object of the present invention to provide a medical image transmission system capable of enhancing security and increasing transmission efficiency so that information is not leaked even when transmitted outside the hospital.

Another object of the present invention is to provide a medical image transmission method for achieving the above object.

According to another aspect of the present invention, there is provided a medical image transmission system including: a medical image storage unit for storing at least one medical image file included in the medical image, And combining the separated at least one header and the at least one body to generate header data and body data, inserting a key code in each of the header data and the body data to transmit the transmission header data and the transmission body data, A first medical terminal for generating and transmitting the first medical image; A medical image transmission request is transmitted to receive the medical image, and when the transmission header data and the transmission body data are received, the key code is requested and received, and the medical image is restored using the received key code A second medical terminal; And analyzing the authority of the second medical terminal for the medical image transmission request and performing authentication when the medical image transmission request is received from the second medical terminal. When the second medical terminal is authenticated, And transmitting the key code to the first medical terminal when the request for the key code is received from at least one of the first medical terminal and the second medical terminal.

The first medical terminal determines whether the body data is larger than a predetermined reference transmission data size in consideration of transmission efficiency and if the size of the body data is larger than the reference transmission data size, A plurality of divided body data is generated by dividing the divided body data into a plurality of divided body data, and the plurality of divided body data are added to each of the plurality of divided body data to generate and transmit a plurality of the transmitted body data.

The first medical terminal inserts different key codes into the header data and the transmission body data, respectively.

The first medical terminal inserts the key code before each of the header data and the transmission body data to characterize the transmission header data and the transmission body data.

Wherein the relay server receives and stores the transmission header data and the transmission body data from the first medical terminal when the medical image storage request is received from the first medical terminal, The transmission header data and the transmission body data are transmitted to the second medical terminal.

The second medical terminal first restores and analyzes the at least one header from the header data even if the transmission body data is not received when the transmission header data is received from the first medical terminal, And performing a preliminary work for analyzing the analysis result.

According to another aspect of the present invention, there is provided a medical image transmission method of a medical image transmission system including a first medical terminal, a second medical terminal, and a relay server, Transmitting a medical image transmission request from the terminal to the first medical terminal through the relay server; Dividing each of at least one medical image file included in the medical image corresponding to the medical image transmission request into a header and a body by the first medical terminal; The first medical terminal merging the separated at least one header and the at least one body to generate header data and body data, respectively; The first medical terminal inserts a key code into each of the header data and the body data to generate transmission header data and transmission body data and sequentially transmit the transmission header data and the transmission body data to the second medical terminal; And when the second medical terminal receives the transmission header data and the transmission body data, it requests and receives the key code from the relay server, and restores the at least one header and the body using the received key code Restoring the medical image using the recovered at least one header and a body; .

Wherein the transmitting of the medical image transmission request comprises: transmitting the medical image transmission request to the relay server by the second medical terminal; Analyzing the authority of the second medical terminal for the medical image transmission request and performing authentication by the relay server; And transmitting the medical image transmission request to the first medical terminal when the second medical terminal is authenticated. And a control unit.

Wherein the step of transmitting to the second medical terminal comprises: generating the transmission header data by inserting the key code into the header data; Determining whether the body data is larger than a predetermined reference transmission data size in consideration of transmission efficiency; Generating a plurality of divided body data by dividing the body data into the reference transmission data size if the size of the body data is larger than the reference transmission data size; Generating a plurality of transmission body data by inserting the key code into each of the plurality of divided body data; Transmitting the header data to the second medical terminal; And transmitting the header data to the plurality of transmission body data; And a control unit.

According to another aspect of the present invention, there is provided a medical image transmission method for a medical image transmission system, including a first medical terminal, a second medical terminal, and a relay server, Dividing each of the at least one medical image file included in the medical image into a header and a body by the first medical terminal; The first medical terminal merging the separated at least one header and the at least one body to generate header data and body data, respectively; The first medical terminal inserts a key code in each of the header data and the body data to generate transmission header data and transmission body data; The first medical terminal transmitting a medical image storage request to the relay server; Receiving and storing the transmission header data and the transmission body data from the first medical terminal in response to the medical image storage request; Transmitting the medical image transmission request to the relay server by the second medical terminal; Transmitting, by the relay server, the transmission header data and the transmission body data previously stored in the second medical terminal, in response to the medical image transmission request; And when the second medical terminal receives the transmission header data and the transmission body data, it requests and receives the key code from the relay server, and restores the at least one header and the body using the received key code Restoring the medical image using the recovered at least one header and a body; .

Accordingly, in the medical image transmission system and method of the present invention, the medical image is divided into a plurality of data pieces at the time of transmitting the medical image, and the key code is combined with each of the separated pieces of data and is encrypted. Therefore, even if a part of the piece data of the medical image is leaked, the image can not be restored. Even if the whole piece data is leaked, if the key code is not existed, the image can not be restored normally. In addition, the transmission efficiency can be increased by recombining the separated data into the set size.

1 shows a medical image transmission system according to an embodiment of the present invention.
2 shows an example of medical image data.
Figures 3 and 5 illustrate the concept of generating medical image data in the medical image file of Figure 2.
FIG. 6 shows a medical image transmission method of the medical image transmission system of FIG. 1;

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. However, the present invention can be implemented in various different forms, and is not limited to the embodiments described. In order to clearly describe the present invention, parts that are not related to the description are omitted, and the same reference numerals in the drawings denote the same members.

Throughout the specification, when an element is referred to as "including" an element, it does not exclude other elements unless specifically stated to the contrary. The terms "part", "unit", "module", "block", and the like described in the specification mean units for processing at least one function or operation, And a combination of software.

1 shows a medical image transmission system according to an embodiment of the present invention.

1, a medical image transmission system according to the present invention includes a first medical terminal 100, a client terminal 150, a network 200, a second medical terminal 300, and a relay server 400 .

The first medical terminal 100 is a terminal that stores a medical image and transmits a medical image to the network 200 in response to a medical image transmission request received from one of the client terminal 150, the second medical terminal 300, And transmits the medical image data to the second medical terminal 300 or the relay server 400. In the present invention, the first medical terminal 100 does not transmit medical image data as it is, but distinguishes a header and a body from at least one medical image data, After merging into data and body data, it is re-divided into a size to be transmitted and transmitted. Since the header and the body are separately distinguished and re-divided, security can be improved and at least one medical image data can be transmitted in an optimized size according to the network status, thereby improving the transmission efficiency. The second medical terminal 300 or the relay server 400 receiving the image data may recognize various information about the medical image data to be transmitted to the body in the future, It is possible to increase the processing efficiency of the medical image data by performing the line operation on the medical image.

In addition, the first medical terminal 100 may encode transmission data to be transmitted by inserting a keycode at a time of combining at least one header and a body that are separately classified to enhance security.

The client terminal 150 is a terminal used by a user such as a doctor or a patient and can transmit data transmitted by the first medical terminal 100 through the relay server 400. However, The first medical terminal 100 may communicate directly with the first medical terminal 100 through the network 200. In this case, The client terminal 150 transmits a medical image transmission request to the first medical terminal 100 or the relay server 200 according to a user command. The client terminal 150 may send a medical image transmission request directly to the first medical terminal 100. This may cause a security problem so that the client terminal 150 transmits a medical image transmission request to the relay server 400 So that the relay server 400 can transmit the medical image transmission request to the first medical terminal 100 again. However, if the client terminal 150 is an authenticated terminal authorized by the first medical terminal 100, the client terminal 150 can directly transmit the medical image transmission request to the first medical terminal 100. For example, when the client terminal 150 is constructed as the integrated medical system in the first medical terminal 100 and the medical institution 100, the client terminal 150 directly transmits a medical image transmission request to the first medical terminal 100 You may be authorized to do so.

Also, the client terminal 150 may directly receive the requested medical image, or may request the medical image transmission to the second medical terminal 300 or another client terminal. The client terminal 150 directly receives the medical image in the case where the client terminal 150 is constructed as the integrated medical system in the same medical institution as the first medical terminal 100, 1 medical terminal 100 or the relay server 400 according to the present invention.

The network 200 provides communication between at least the first and second medical terminals 100 and 300 and the client terminal 150 and the relay server 400. The network 200 may be used interchangeably with communication and communication networks, and the network 200 of the present invention includes both wired and wireless networks. The network 200 may also include both a local area network and a remote wide area network.

Like the client terminal 100, the second medical terminal 300 can request a medical image transmission to the first medical terminal 100 directly or through the relay server 400, Medical image data can be restored and a medical image can be obtained. At this time, the second medical terminal 300 receives the header from the medical image data that is divided and combined after the header and the body are separated and transmitted, and then the header is firstly restored to acquire the information about the medical image in advance Perform preliminary work to analyze the received body. Thus shortening the processing time for medical image data. When the key code for encryption is inserted into the medical image data, the key code is requested and received by the relay server 400, and the medical image data is restored using the received key code. When restoring the medical image data using the key code, the second medical terminal 300 can also determine whether the medical image data received is damaged or not by using the key code. That is, it can be checked whether there is no error in the medical image.

The relay server 400 authenticates the first and second medical terminals 100 and 300 and the client terminal 150 and transmits and receives information such as a key code for security between the authenticated devices. The relay server 400 provides an interface or a program interface such as a separate web site in order to allow the client terminal 150 and the second medical terminal 300 to transmit a medical image transmission request and receive a requested medical image can do. The relay server 400 may process the received medical image data and provide the processed medical image data to the requesting terminal.

When the medical image transmission request is received, the relay server 400 first verifies the authority of the device requesting the medical image transmission and the device transmitting the medical image, and performs authentication. Unlike medical data, medical image data is used only in medical field, so it should not be unnecessarily leaked to the outside. Accordingly, the relay server 400 determines whether the device transmitting the medical image transmission request is a registered medical terminal or a client terminal registered in the medical terminal. If the terminal is an unregistered terminal, registration and authorization can be performed through predetermined user authentication or terminal authentication. And transmits the medical image transmission request to the first medical terminal 100 in which the medical image is stored by performing authentication of the corresponding terminal only when the terminal transmitting the medical image transmission request is a pre-registered terminal. The first medical terminal 100 receiving the medical image transmission request must also be registered in the relay server 400 and be an authenticated terminal.

When the relay server transmits the medical image transmission request to the first medical terminal 100, the relay server may generate a key code for enhancing the security of the medical image data and transmit the key code to the first medical terminal 100 together. If the first medical terminal 100 directly generates the key code, the key code generated by the first medical terminal 100 is received and stored. When the second medical terminal 300 receives the medical image data and transmits a key code request signal to restore the medical image, the second medical terminal 300 determines the authority of the second medical terminal 300, (300).

As a result, the medical image transmission system shown in FIG. 1 not only allows the relay server 400 to transmit a medical image after authenticating a medical image requesting apparatus and a medical image transmitting apparatus, Or at least one medical image data of a medical image to be transmitted to the relay server 400 is divided into a header and a body, and at least one header and a separated body are combined and then merged or re- do. Therefore, it is possible to increase the security and to reduce the medical image processing time and increase the transmission efficiency by receiving the header in advance. Further, by inserting a key code in each of the divided image data, the security can be further increased.

The first and second medical terminals 100 and 300 may be implemented as an information communication device or a medical device such as a server, a personal computer, a mobile phone PDA, or a smart device provided in the first and second medical institutions. Although the first and second medical terminals 100 and 300 are separately distinguished from the client terminal 150 in the above description, the client terminal 150 may be the same device as the first or second medical terminal 100 or 300. That is, the client terminal 150 may transmit or receive the medical image and restore the medical image.

The relay server 400 basically transfers the medical image transmission request received from the second medical terminal 300 to the first medical terminal 100 and the second medical terminal 300 transmits the medical image transmission request to the first medical terminal 100 The relay server 400 receives the medical image storage request from the first medical terminal 100 and transmits the medical image to the relay server 400 regardless of the medical image transmission request of the second medical terminal 300 The medical image can be received from the first medical terminal 100 and stored and restored. When the medical image transmission request is received from the second medical terminal 300, the first medical terminal 100 may transmit the previously stored medical image to the second medical terminal 300 without transmitting the medical image transmission request to the first medical terminal 100 . At this time, as in the first medical terminal 100, the relay server 400 divides each of at least one medical image data of a medical image to be transmitted into a header and a body, combines the separated at least one header and a body, It is possible to merge or re-divide it into a size considering the efficiency, and transmit the key code by inserting it.

2 shows an example of medical image data.

The computerized medical image files (FL1 to FLn) as well as the computerized medical images obtained by the medical imaging apparatuses such as X-ray, CT, MRI, PET, SPECT, And a body including the contents of the video data. The medical image files FL1 to FLn are composed of headers H1 to Hn and bodies B1 to Bn in the same manner as a general image file. However, the header of a medical file (FL1 to FLn) contains only the characteristic information such as data format, resolution, file size and creation date, Additional information such as medical institution information, patient information, inspection information, photographing device information, inspection information, reference information, and image configuration information is further included as meta information. Therefore, although the header of the general image file is configured to be several hundreds of bytes in size, the sizes of the headers H1 to Hn of the medical image files FL1 to FLn are in the order of tens of Kbytes, .

On the other hand, the bodies B1 to Bn of the medical image files FL1 to FLn include pixel information constituting the image, and the shape corresponding to the file format set in the header H1 to Hn of the medical image file And stored. The file format of the medical image file can be set, for example, as JPEG or DICOM (Digital Image Communication in Medicine). The size of the bodies B1 to Bn including the pixel information can be set to several hundreds of kilobytes to several gigabytes according to the format and thus is relatively large in size as compared with the headers H1 to Hn.

In FIG. 2, a plurality of medical image files (FL1 to FLn) are displayed because a medical device such as CT or MRI can generate hundreds to thousands of medical image files each having a size of about 200 to 1,500 Kbytes Because. On the other hand, a medical device such as a US (ultrasonic device) or an XA (angiography device) can generate a medical image of a video format of several hundred Mbytes to several Gbytes in a single inspection. Since 500 medical image files are transmitted in one scan, 500 medical image files are transmitted. However, if only one medical image file is generated, one medical image file Only the file is transferred. Therefore, the medical image transmission system should be considered to efficiently transmit medical image files of various sizes and numbers.

FIG. 3 and FIG. 5 illustrate a concept of generating medical image data in the medical image file of FIG. 2, and FIG. 3 illustrates a process of generating a medical image data header of the medical image file.

3 (a) shows a case in which medical images to be transmitted are n (n is a natural number) medical image files FL1 to FLn. The first medical terminal 100 for transmitting the medical image distinguishes the headers H1 to Hn and the bodies B1 to Bn from each of the n medical image files FL1 to FLn as shown in (b) . Then, one header data (HD) is generated by combining the separated n headers (H1 to Hn) as shown in (c). The header data HD may be generated by a simple combination of n headers H1 to Hn, or may be generated according to a predetermined combination method.

When the header data HD is generated, the first medical terminal 100 inserts the key code KC into the header data HD generated as shown in (d). The key code KC may be generated directly by the first medical terminal 100 as an encryption code for enhancing the security of the medical image data or may be received by the relay server 400. [ The key code KC may be generated by combining an identification value or request date information of the device (the client terminal 150 or the second medical terminal 300) requesting the medical image and an encrypted string. The break value used in the key code (KC) may be an IP address value of a requesting device, a key value set in an application program requesting a medical image, an application installed in another device or another device such as an ID value of the operating system All kinds of values that can be used singly or in combination for the purpose of distinguishing them from programs can be used.

As a method of generating a key code (KC) as an encryption code by combining division values, a conventional standard encryption technique such as the SHA-512 technique may be used, or a specific technique of self-encryption such as bit operation may be used .

Also, the key code KC can be utilized as an error check code or an error correction code that is often used in existing data communication. In the case where an error check code or an error correction code is added to the key code KC, the second medical terminal 300 or the relay server 400, which receives the medical image data, It is possible to determine whether or not the medical image data, which may occur in the medical image data, is damaged.

The generated key code (KC) is inserted before the beginning of the header data (HD). The reason that the key code KC is inserted before the start of the header data HD is to make it difficult to analyze the file information of the header data HD. As described above, in the medical image file, the headers H1 to Hn include various information that is not included in the general image file. Therefore, when the medical image file is leaked out, there is a possibility that the medical information about the patient is leaked. , And security. And, since the beginning part of a general file includes the characteristic information of a file such as a format format as a header, if the start information of the file is analyzed, the remaining part of the file can be easily interpreted. Therefore, in the present invention, by inserting the encrypted key code (KC) in front of the header data (HD), it becomes difficult to interpret the combination or restoration into medical image data.

When the key code KC is inserted into the header data HD, the header data HD in which the key code KC is inserted is easily compressed as shown in (e) to generate compressed header data CHD. Then, the first medical terminal 100 transmits the compressed header data CHD to the second medical terminal 300 as transmission header data.

4 and 5 illustrate a case where the sum of body sizes of a plurality of medical image files to be transmitted is smaller than or equal to a preset reference transmission data size, FIG. 5 shows a case where the sum of the body sizes is larger than the reference transmission data size.

The reason why the body of the medical image file is generated as the medical image data is classified according to the data size as shown in FIGS. 4 and 5 in order to increase the data transmission efficiency. In order for the data to be transmitted through the network 200, a protocol for the data transmission method is required between the transmitting side and the receiving side of data and the repeaters transmitting data on the network. Most Internet-based networks currently use TCP / IP to send and receive data. For example, in the TCP / IP based data transmission / reception process, a transmitting side transmits a connection request to confirm a data path with a receiving side, and maintains a connection waiting state until a response to a connection request is received . When a reply is received from the receiving side, it transmits the data, processes the transmitted data, and makes a connection termination request when the transmission is completed. Then, after the reception end waits for the connection end request until a reply to the connection end request is received, the connection is terminated when the reply is received. In this process, the delay time due to the connection wait state and the end wait state is a loss delay time in which the actual data is not transmitted. Therefore, in order to increase the transmission efficiency, it is necessary to reduce the waiting time. In order to reduce the waiting time, the number of data transmission requests must be reduced. In other words, it is possible to increase the transmission efficiency by dividing the data into a plurality of pieces of data and transmitting a larger number of data a smaller number of times than transmitting a smaller number of pieces of data a plurality of times. However, even when the data capacity is increased and transmitted, there is a limit due to a change in the utilization information of the transmission bandwidth of the data and a change in network conditions, resulting in a lower transmission efficiency. Therefore, in order to increase the transmission efficiency of the medical image data, it is necessary to consider the size of the medical image data.

As shown in FIG. 4, when the sum of body sizes of a plurality of medical image files to be transmitted is smaller than or equal to a reference transmission data size, a header of the medical image file of FIG. 3 is generated as medical image data. That is, from the plurality of medical image files FL shown in (a), the bodies B1 to Bn are separated as shown in (b), and then one body data BD is generated by combining as shown in (c). A key code (KC) is generated and inserted in front of the generated body data (BD) to generate transmission body data. However, in FIG. 4, the transmission body data does not have to be additionally compressed unlike the compressed header data CHD in FIG. The data included in the bodies B1 to Bn are mostly already compressed as image data, and the compression efficiency is very low even if the image data is further compressed and the consumption of resources for decompression is larger.

On the other hand, FIG. 5 shows a case where the sum of body sizes of a plurality of medical image files is larger than a reference transmission data size, and (a) to (c) are performed as in FIG. However, FIG. 5 (d) shows a case in which the body data BD is divided into a plurality of divided body data DBD1 to DBDm (m is a natural number) having a reference transmission data size. This is for transmitting the body data to a size that can increase the transmission efficiency as described above. When the body data BD is divided into a plurality of divided body data DBD1 through DBDm, a key code KC for each of the divided body data DBD1 through DBDm is generated and inserted, And generates data. The first medical terminal 100 may directly generate the key code KC for each of the plurality of divided body data DBD1 to DBDm and the key code KC for the header data HD, ). ≪ / RTI > The key code KC for each of the plurality of divided body data DBD1 to DBDm may be set to the same value, but it is preferable that the key code KC is generated to have different values in order to enhance security.

In the above description, the plurality of divided body data DBD1 to DBDm are divided into sizes that can increase the transmission efficiency. However, the body data BD is transmitted with a plurality of pieces of transmission body data in which the key code KC is inserted into the plurality of divided body data DBD1 to DBDm. Therefore, when dividing the body data BD into a plurality of divided body data DBD1 to DBDm, it is preferable that the body data BD is divided in consideration of the size of the key code KC. Since the size of the file to be transmitted can be set in advance, it is easy to divide into a plurality of divided body data DBD1 to DBDm in consideration of the size of the key code KC.

In the above description, the transmission body data is not compressed or encrypted. However, for security, the transmission body data can also be compressed or encrypted and transmitted.

As shown in FIG. 5, the method of dividing and transmitting a body is applied to a case where a medical image having a capacity of 200 Mbytes is transmitted through a network 200 composed of various environments such as 100 Mbps and 10 Mbps. The experiment was conducted with an average of 10 transmissions using the HTTP 1.1 transmission method.

Experimental results show that 200Mbyte medical images to be transmitted for comparison are composed of various sizes. First, when 1000 medical image data of 200 Kbytes are transmitted, the transmission rate is measured as 175 Kbps. When 100 medical image data of 2 Mbyte size is transmitted, the transmission rate is measured as 300 Kbps. In the case of transmitting 10 medical image data of 20 Mbyte size, it was measured at 1500 Kbps. When one medical image data of 200 Mbyte size was transmitted, it was measured at 900 Kbps transmission rate. In other words, it takes 27 minutes to transfer 4 200Mbyte medical images (total 800Mbytes) composed of medical image data of different sizes.

On the other hand, according to the medical image transmission system of the present invention, data of a size smaller than the reference transmission data size is merged, and a large file is divided and then recombined and transmitted, As shown in FIG. Therefore, the data size for transmission in the medical image transmission system can be set to 20 Mbytes, which is determined to be the highest transmission efficiency. The size of data for transmission can be variously set according to the transmission environment. In this case, since all the transmitted medical image data can be transmitted with a uniform transmission efficiency, it takes 7.3 minutes to transmit the total transmission amount of 8000 Mbytes. However, in the present invention, additional time is required for inserting a key code for security and for merging and dividing medical image data. The additional time depends on the performance of the medical image transmission system, but it took 2 minutes for the system that performed the experiment. Therefore, in the medical image transmission system of the present invention, the time required for transmitting the medical image of 800Mbyte is 9.3 minutes. This indicates that the transmission method according to the present invention has a transmission efficiency about three times higher than that of the conventional method when the same 800 Mbyte medical image is transmitted.

FIG. 6 shows a medical image transmission method of the medical image transmission system of FIG. 1;

6, the client terminal 150 or the second medical terminal 300 transmits a medical image transmission request (S11, S12). The client terminal 150 can directly transmit the medical image transmission request to the first medical terminal 100 as the authenticated terminal provided in the same integrated medical system in the medical institution as the first medical terminal 100, The medical terminal 300 can not transmit a medical image transmission request to the first medical terminal 100 directly at the first medical terminal 100 and other medical institutions. Accordingly, the second medical terminal 300 transmits the medical image transmission request to the relay server 400. When the medical image transmission request is received from the second medical terminal 300, the relay server 400 authenticates the second medical terminal 300 and the medical image transmission request (S13). The relay server 400 can authenticate the authority of the device of the second medical terminal 300 and authenticate the authority of the application program transmitting the medical image transmission request. If it is determined that the authority is appropriate for medical image transmission, the relay server 400 transmits the stored medical image or transmits the medical image transmission request to the first medical terminal 100 (S14). If the client terminal 150 is not an authenticated terminal included in the integrated medical system in the same medical institution as the first medical terminal 100, the client terminal 150 also transmits a medical image transmission request to the relay server 400 And the relay server 400 can perform authentication with respect to the client terminal 150. [

When the first medical terminal 100 or the relay server 400 receives the medical image transmission request, the first medical terminal 100 or the relay server 400 acquires the medical image corresponding to the medical image transmission request among the previously stored medical images, Each of the medical image files is divided into headers H1 to Hn and bodies B1 to Bn as shown in FIGS. 3 to 5 (S15). When the first medical terminal 100 is divided into the headers H1 to Hn and the bodies B1 to Bn, the first medical terminal 100 includes at least one header H1 to Hn divided as shown in FIGS. 3 to 5C, And header data HD and body data BD are generated in step S16 by combining the first and second bodies B1 to Bn for each header and body.

The first medical terminal 100 or the relay server 400 determines the size of the generated body data BD and determines whether the size of the body data BD is larger than a predetermined reference transmission data size at step S17. If it is determined that the size of the body data BD is larger than the reference transmission data size, a plurality of divided body data DBD1 to DBDm are generated by dividing the size of the body data BD into the reference transmission data capacity units (S18 ). If it is determined that the size of the body data BD is not larger than the reference transmission data size, the body of the plurality of transmission files FL1 to FLn is merged with the reference transmission data size without dividing the body data BD.

When the division of the body data BD is completed according to the data size, the first medical terminal 100 requests the key code KC to the relay server 400 (S19). Then, the relay server 400 generates a key code KC and transmits it to the first medical terminal 100 (S20). The relay server 400 may transmit only one key code KC but may be transmitted in a plurality of ways corresponding to the header data HD and the divided body data DBD1 to DBDm respectively. However, in some cases, the first medical terminal 100 may directly generate the key code KC and transmit it to the relay server 400.

The first medical terminal 100 combines the received key code KC with the header data HD and the divided body data DBD1 to DBDm to generate transmission header data and at least one And generates transmission body data. At this time, it is preferable that the key code KC is coupled before the header data HD and the divided body data DBD1 to DBDm.

If the relay server 400 directly transmits the pre-stored medical image, it is divided into the header data HD and the header data HD without having to transmit the key code KC generated by the relay server 400 to the first medical terminal 100. [ And combines with each of the body data DBD1 to DBDm to generate transmission header data and at least one transmission body data.

When the transmission header data and at least one transmission body data are generated, the first medical terminal 100 or the relay server 400 first transmits the transmission header data to the second medical terminal 300 (S22). When the second medical terminal 300 receives the transmission header data, the second medical terminal 300 requests the key code (KC) to the relay server 400 (S23). The relay server 400 transmits the key code KC to the second medical terminal 300 (S24). The second medical terminal 300 restores the transmission header data to the header data using the received key code, restores the header data back to at least one header, and prepares work for the body data to be subsequently applied ( S25).

Then, the first medical terminal 100 transmits the transmission body data to the second medical terminal 300 via the relay server 400 (S26). The second medical terminal 300 receiving the transmission body data through the relay server 400 restores the transmission body data as body data by using the key code KC in the same manner as the transmission header data, (S27). At this time, the second medical terminal 300 may further request and receive a key code (KC) for the transmission body data to the relay server 400. When the transmission body data is divided and applied, And can additionally request and receive the key code (KC) to the relay server 400 whenever data is received.

If both the header and the body of at least one medical image file are restored, the same medical image as the medical image stored in the first medical terminal 100 is restored using the restored header and body (S28). When the medical image is restored, the second medical terminal 300 transmits a receipt completion confirmation to the relay server 400 to terminate the medical image transmission (S29).

As a result, the medical image transmission method according to the present invention divides each of at least one medical image file included in the medical image into a header and a body, merges the separated header and body, Increase security when transmitting video. Further, the relay server 400 further enhances the security by authenticating the device requesting the medical image and storing the key code. In addition, considering the size of the merged body, the merged body can be merged or re-divided to have a high transmission efficiency, and the transmission efficiency can be greatly increased.

The method according to the present invention can be implemented as a computer-readable code on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like, and a carrier wave (for example, transmission via the Internet). The computer-readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (18)

A medical image transmission system including a first medical terminal, a second medical terminal, and a relay server,
And a medical image transmission request transmitted from the second medical terminal through the relay server is received, the at least one medical image file included in the medical image is divided into a header and a body, Generating header data and body data by merging each of the at least one header and the at least one body and generating transmission header data and transmission body data by inserting a key code into each of the header data and the body data, 2 a first medical terminal for transmitting to a medical terminal;
The method comprising: transmitting a medical image transmission request to the first medical terminal via the relay server to receive the medical image; receiving, when the transmission header data and the transmission body data are received from the first medical terminal, A second medical terminal for requesting and receiving a key code, and restoring the medical image using the received key code; And
When receiving the medical image transmission request from the second medical terminal, performs authentication by analyzing the authority of the second medical terminal with respect to the medical image transmission request, and when the second medical terminal is authenticated, A relay server for transmitting the key code to the first medical terminal when a request for the key code is received from at least one of the first medical terminal and the second medical terminal; A medical image transmission system. 2. The method of claim 1, wherein the first medical terminal
If the size of the body data is larger than the reference transmission data size, dividing the body data into the reference transmission data size and dividing the body data into a plurality of divided bodies And generating and transmitting a plurality of the transmission body data by adding the key code to each of the plurality of divided body data. The relay server according to claim 1, wherein the relay server
And generates and stores the key code when the key code request is received from the first medical terminal, and transmits the generated key code to the first medical terminal. The relay server according to claim 1, wherein the relay server
And receives and stores the key code generated by the first medical terminal. 2. The method of claim 1, wherein the first medical terminal
And a different key code is inserted into the header data and the transmission body data, respectively. 2. The method of claim 1, wherein the first medical terminal
And the transmission header data and the transmission body data are generated by inserting the key code before each of the header data and the transmission body data. 2. The method of claim 1, wherein the first medical terminal
And the transmission header data is generated by compressing the header data in which the key code is inserted by a predetermined method. The relay server according to claim 1, wherein the relay server
Receiving a medical image storage request from the first medical terminal, receiving and storing the transmission header data and the transmission body data from the first medical terminal, and when receiving a medical image transmission request from the second medical terminal, And transmits the previously stored transmission header data and the transmission body data to the second medical terminal. 9. The system of claim 8, wherein the second medical terminal
If the transmission header data is received from the first medical terminal or the relay server, restores and analyzes the at least one header from the header data even if the transmission body data is not received, and analyzes the at least one body The medical image transmission system comprising: The medical image transmission system according to claim 1,
At least one of the first medical terminal and the second medical terminal is provided in the same integrated medical system in the medical institution as the first medical terminal to transmit the medical image transmission request directly to the first medical terminal so that the first medical terminal transmits the medical image to the second medical terminal A client terminal; Wherein the medical image transmission system further comprises: A medical image transmission method of a medical image transmission system including a first medical terminal, a second medical terminal, and a relay server,
Transmitting a medical image transmission request from the second medical terminal to the first medical terminal through the relay server;
Dividing each of at least one medical image file included in the medical image corresponding to the medical image transmission request into a header and a body by the first medical terminal;
The first medical terminal merging the separated at least one header and the at least one body to generate header data and body data, respectively;
The first medical terminal inserts a key code into each of the header data and the body data to generate transmission header data and transmission body data, and transmits the transmission header data and the transmission body data to the second medical terminal; And
When the second medical terminal receives the transmission header data and the transmission body data, it requests and receives the key code to the relay server, restores the at least one header and the body using the received key code, Restoring the medical image using the recovered at least one header and a body; And transmitting the medical image. 12. The method of claim 11, wherein transmitting the medical image transmission request comprises:
Transmitting the medical image transmission request to the relay server by the second medical terminal;
Analyzing the authority of the second medical terminal for the medical image transmission request and performing authentication by the relay server; And
Transmitting the medical image transmission request to the first medical terminal when the second medical terminal is authenticated; And transmitting the medical image. 12. The method of claim 11, wherein transmitting to the second medical terminal
Generating the transmission header data by inserting the key code into the header data;
Determining whether the body data is larger than a predetermined reference transmission data size in consideration of transmission efficiency;
Generating a plurality of divided body data by dividing the body data into the reference transmission data size if the size of the body data is larger than the reference transmission data size;
Generating a plurality of transmission body data by inserting the key code into each of the plurality of divided body data;
Transmitting the header data to the second medical terminal; And
Transmitting the header data to the plurality of transmission body data; And transmitting the medical image. 14. The method of claim 13, wherein transmitting to the second medical terminal
Further comprising the step of the first medical terminal requesting and receiving the key code to the relay server before the step of generating the transmission header data. 14. The method of claim 13, wherein transmitting to the second medical terminal
The first medical terminal generating the key code prior to generating the transmission header data; And
Transmitting the generated key code to the relay server; Further comprising the steps of: 12. The method of claim 11, wherein transmitting to the second medical terminal
Wherein a key code different from the header data and the transmission body data is inserted into the header data and the transmission body data, respectively. A medical image transmission method of a medical image transmission system including a first medical terminal, a second medical terminal, and a relay server,
Dividing each of at least one medical image file included in the medical image into a header and a body by the first medical terminal;
The first medical terminal merging the separated at least one header and the at least one body to generate header data and body data, respectively;
The first medical terminal inserts a key code in each of the header data and the body data to generate transmission header data and transmission body data;
The first medical terminal transmitting a medical image storage request to the relay server;
Receiving and storing the transmission header data and the transmission body data from the first medical terminal in response to the medical image storage request;
Transmitting the medical image transmission request to the relay server by the second medical terminal;
Transmitting, by the relay server, the transmission header data and the transmission body data previously stored in the second medical terminal, in response to the medical image transmission request; And
When the second medical terminal receives the transmission header data and the transmission body data, it requests and receives the key code to the relay server, restores the at least one header and the body using the received key code, Restoring the medical image using the recovered at least one header and a body; And transmitting the medical image. 18. The method of claim 17, wherein generating the transport header data and the transport body data comprises:
Generating the transmission header data by inserting the key code into the header data;
Determining whether the body data is larger than a predetermined reference transmission data size in consideration of transmission efficiency;
Generating a plurality of divided body data by dividing the body data into the reference transmission data size if the size of the body data is larger than the reference transmission data size; And
Generating a plurality of transmission body data by inserting the key code into each of the plurality of divided body data; And transmitting the medical image.

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