JP4024435B2 - Print server and data processing mode control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a print server that executes processing of image data of various image generation apparatuses connected to a network and a data processing mode control method, and more particularly, to receive an image obtained by a medical image diagnostic apparatus via a network. The present invention relates to a network connection type print server that executes various processes such as print output by a printing apparatus or data storage in a database that stores image data, and a data processing mode control method.
[0002]
[Prior art]
In recent years, various image diagnostic apparatuses have been used as medical diagnostic apparatuses. For example, typical apparatuses include an ultrasonic diagnostic apparatus, an MR (Magnetic Resonance) apparatus, a CT (Computerized Tomography) apparatus, and a CR (Computed Radiography) apparatus. These diagnostic imaging apparatuses are called modality devices. Image data photographed by these various modality devices are processed in various ways, such as being printed out by a film printer or stored in a storage means.
[0003]
For example, in the diagnosis using a CT apparatus, a CT engine, which is an image diagnostic apparatus, is operated by a laboratory technician, and a tomographic image of a patient is taken. This image can also be displayed on a video display on the console of the device. Further, by operating a film recorder called an imager connected to a modality (CT apparatus), an image necessary for diagnosis is instructed, and the instructed image is input to the imager, and is printed on a large format film by a printer, for example. Out. This film is handed over to the doctor as a diagnostic image for diagnosis of the patient.
[0004]
Usually, several frames of diagnostic images are laid out on a single film. Furthermore, attribute information such as a patient name, patient ID, examination date and time, examination conditions, a patient's date of birth and a doctor name in charge may be added to the diagnostic image recorded on the film as necessary.
[0005]
Various image data photographed in various modality devices such as the above-described ultrasonic diagnostic apparatus, MR (Magnetic Resonance) apparatus, CT (Computerized Tomography) apparatus, CR (Computed Radiography) apparatus, etc. are connected to their own printers. When printing out or sharing one printer among multiple modalities, connect to the print server via a dedicated line dedicated to each modality device, and images from multiple modalities can be connected to one printer. In general, the printout is performed at
[0006]
In a conventional configuration in which images from a plurality of modalities are printed out by a single printer, a print server that controls the printer identifies connection channels (private lines) of a plurality of modality devices, and from which device. Various processes were executed by distinguishing whether the data was input data.
[0007]
FIG. 1 shows a conventional dedicated line connection type image communication processing system. Various modalities (image diagnostic apparatuses) 101 to 106 make dedicated line connections to the server 107, and when the server 107 receives image data, the input from which modality is identified by identifying the input channel. It is possible to distinguish whether it is an image. Printers 108 and 109 are connected to the server 107, and a database 110 as an image storage device is also connected.
[0008]
The server 107 presets the processing mode of the input image for each channel and has setting information thereof. For example, image data from the modality 101 is input via the channel 1 (Ch1), and the image input from the channel 1 is set to be printed out using the printers 1 and 108, and is also transmitted via the channel 2. The image input from the modality 102 is printed out by the printers 2 and 109 and set to execute storage processing in the database 110. For each of Ch3 to Ch6, processing to be executed is set according to each input channel, and each processing is executed based on this setting information.
[0009]
However, with recent advances in communication network technology, there has been a demand to construct a medical image filing system and handle diagnostic images in a computer system.
[0010]
A communication network configuration for medical images is shown in FIG. As shown in FIG. 2, the modalities are connected by a network, and the image data photographed by the modalities 101 to 106 are input to the server 107 via the network and executed. However, in such a network type configuration, since the image data input method for the server 107 as shown in FIG. 1 is not input on a dedicated channel, the channel identifies which modality is the data sent from the channel. Can not do it.
[0011]
Therefore, it is difficult to switch the setting of processing according to the modality device, that is, the mode of print processing, the image storage processing to the database, etc. for each modality device, which was easy in the system using the dedicated channel of FIG. .
[0012]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described problems, and in a network-type image transfer system in which a plurality of medical image diagnosis apparatuses (modalities) are connected to a network, different prints are used depending on the connected modality devices. An object of the present invention is to provide a print server and a data processing mode control method capable of executing output and data storage processing.
[0013]
Furthermore, the present invention provides a print server and data processing capable of executing print output processing of image data transferred via a network and image data storage processing by a single data transfer processing from a modality device. An object of the present invention is to provide an aspect control method.
[0014]
Furthermore, the present invention identifies an image input source corresponding to each protocol even when image data transferred via a network is transferred by a plurality of different image communication protocols, and corresponds to the input source. It is an object of the present invention to provide a print server and a data processing mode control method capable of executing processing.
[0015]
Furthermore, the present invention enables mediation of data transfer when outputting image data transferred via a network to other devices that support different image communication protocols, and supports a plurality of communication protocols on the network. It is an object of the present invention to provide a print server and a data processing mode control method that enable communication between devices.
[0016]
[Means for Solving the Problems]
  The present invention has been made to achieve the above-mentioned object, and the first aspect of the present invention is as follows.
  A print server that receives data transmitted from a network-connected image generation device via a network;
  Data transmission source identification processing means for identifying a transmission source of the transmission data based on transmission data from the image generation device;
  A process of determining at least one of a print output process and a database storage process related to transmission data from the image generation apparatus based on the data transmission source identified by the data transmission source identification processing unit A determination means;
  Processing control means for executing processing according to the processing determined by the processing determination means.And
The data transmission source identification processing means has a configuration corresponding to a plurality of communication protocols, and has a configuration for executing data transmission source identification processing of different modes according to the communication protocol of data transmitted from the image generation apparatus.The print server is characterized by the following.
[0017]
Furthermore, in the print server according to the present invention, the process determining means has a process determination table in which processes for each of the image generation apparatuses connected to the network are associated with each other. It is characterized by having the structure which determines the process corresponding to the data transmission source identified in the process means.
[0019]
Further, in the print server according to the present invention, the process control means, based on the same received data, when the process determination means determines that the two processes of the print output process and the database storage process should be executed. Both print output processing and database storage processing are executed.
[0020]
Furthermore, in the print server of the present invention, the process determining means is configured to execute a process for specifying a printer to be used in a print output process using a printer.
[0021]
Furthermore, in the print server of the present invention, the process determining means is configured to execute a process for determining a print mode in a print output process using a printer.
[0022]
Furthermore, the print server according to the present invention, when the process determined by the process determination unit includes a data output process for another device connected to the network, the image data received from the image generation apparatus is connected to the network It is characterized by having a configuration for transferring to another device.
[0023]
Furthermore, in the print server of the present invention, the other device connected to the network is a file server having a data storage database.
[0024]
Furthermore, the print server of the present invention is characterized in that, in a data transfer process to another device connected to the network, the image data is transmitted according to a communication protocol supported by the other device.
[0025]
Furthermore, in the print server of the present invention, the image generation device is a medical image diagnostic device.
[0026]
  Furthermore, the second aspect of the present invention provides
  A data processing mode control method for receiving data transmitted from an image generation apparatus connected to a network via a network and executing processing of the received data,
  A data transmission source identification processing step for identifying a transmission source of the transmission data based on transmission data from the image generation device;
  A process of determining at least one of a print output process and a database storage process related to transmission data from the image generation device based on the data transmission source identified in the data transmission source identification processing step A decision step;
  A process control step for executing a process in accordance with the process determined in the process determining step.And
The data transmission source identification processing step executes processing corresponding to a plurality of communication protocols, and executes data transmission source identification processing of different modes according to the communication protocol of data transmitted from the image generation apparatus.The present invention resides in a data processing mode control method.
[0027]
Furthermore, in the data processing mode control method of the present invention, the processing determining step determines processing for the data transmission source by searching a processing determination table in which processing for each network-connected image generating apparatus is associated. And
[0029]
Further, in the data processing mode control method of the present invention, the process control step may be configured to use the same received data when the process determination step determines that the two processes of the print output process and the database storage process should be executed. Based on this, both print output processing and database storage processing are executed.
[0030]
[Action]
The print server and the data processing mode control method according to the present invention are network-connected to, for example, a modality device such as a CT (Computed Tomography) device, a CR (Computed Radiography) device, an MR (Magnetic Resonance) device, and other terminal devices. A print server and a data processing mode control method for processing a print request, a data storage request, and the like from these external devices.
[0031]
The print server according to the present invention is, in particular, a print server for printing a medical diagnostic image supplied from a modality device on a photosensitive film. The print server has a plurality of print output targets. That is, a plurality of film printers are locally connected to the print server, or the locally connected film printer supports a plurality of output films.
[0032]
The print server according to the present invention obtains its output characteristics in advance from each of the locally connected printers. The output characteristics mentioned here include film size, resolution, film type, and the like.
[0033]
The print server according to the present invention is a processing request source in addition to a process of receiving image data to be printed or stored in a database when receiving a print request or a data storage request from a modality device or another terminal device. Transmission source information acquisition processing is executed to identify the transmission source.
[0034]
The print server according to the present invention executes either one of printing and / or database storage processing according to the modality device from which the identified image data is transferred, or both processing. In addition, changes in printing methods, such as film orientation (portrait / landscape), film size, recording format (frames per page), background density, gradation characteristics, film type (blue / clear), etc. The method is also changed according to the identified transmission source information.
[0035]
By applying the print server according to the present invention on the network, the modality that is the print request source or the data storage request source does not sequentially instruct the processing mode at the time of transmission of the image data, and the data is requested on the server side. It is possible to identify the transmission source and automatically execute the processing according to the processing mode set according to the data transmission source, and appropriate print output or data storage processing is easily achieved.
[0036]
Other objects, features, and advantages of the present invention will become apparent from a more detailed description based on embodiments of the present invention described later and the accompanying drawings.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a print server and a data processing mode control method according to the present invention will be described in detail with reference to the drawings.
[0038]
[Example 1]
FIG. 3 schematically shows a configuration example of a network system 300 to which the print server and the data processing mode control method of the present invention are applied. On the network system 300, medical images captured by a plurality of modality devices 50A, 50B,... Can be handled by a plurality of workstations 10A, 10B, 10C.
[0039]
The workstation 10A operates as an image viewer. The workstation 10B functions as the print server 300 and prints image data using one or more printers 302 and 303 locally connected to the print server 301. The workstation 10 </ b> C functions as the file server 304 and accumulates image data in a database 305 connected to the file server 304.
[0040]
For example, the image viewer attached to the workstation 10A extracts a plurality of past diagnostic images from the database 305 attached to the file server 304, and confirms the progress of recovery or the progress of the medical condition on the display screen. It has a large screen and high resolution CRT (Cathode Ray Tube) display.
[0041]
As shown in FIG. 3, by arranging a print server 301 on the network, an expensive printer for film printing can be shared among a plurality of modality devices. That is, an image file captured on the modality device can be transferred to a remote print server and printed out. Further, by providing the file server 304 on the network, it is possible to store image files in a shared database, and it is possible to collectively manage diagnosis data of a large number of patients in a hospital. Furthermore, by taking out the diagnostic image from the file server at a later date, it is possible to determine the healing status and the progress of the medical condition by comparing with the latest captured image. In addition, a workstation for browsing images other than the modality device can be provided on the network.
[0042]
The print server 301 appropriately selects printers # 1 and 302 and printers # 2 and 303 connected to the server, and executes print output processing of image data transferred from each modality device 50A through the network. Further, the file server 304 performs storage processing of the transfer image data in the database 305.
[0043]
Each of workstations 10 that handle diagnostic images electronically, ie, print server 301, file server 304, etc., and each modality device 50 is typically networked by a network interface card (NIC: not shown). Connected to.
[0044]
In FIG. 3, the network is, for example, a LAN (Local Area Network) laid in a single hospital. The LAN may be composed of a single LAN segment 20 or a plurality of LAN segments interconnected via a router (or gateway) 30. Alternatively, the network may be a wide area network such as a WAN (Wide Area Network) configured by connecting remote hospital LANs via a dedicated line or the like.
[0045]
On the network, an MR (Magnetic Resonance) device 50A for magnetic resonance for computer tomography, an RI device 50B, a US device 50C, a DSA device 50D for digital subtraction angiography, a CT (Computed Tomography) device 50E, a computer A plurality of modality devices, such as CR (Computed Radiography) apparatus 50F for radiography, which are medical image supply sources, and other workstations 10A, 10B,. Usually, each modality device 50 is deployed in a dedicated diagnostic room (not shown) in the hospital.
[0046]
A printer is mounted on the print server 301 via an adapter card (not shown). The print server 301 performs format processing (including layout processing on a film of a predetermined size), image enlargement / reduction processing, and processing for image data transferred from each modality device 50 on the network. After performing various processes such as conversion to gradation suitable for diagnosis, the image is output by a printer.
[0047]
An output printer for medical diagnostic images is generally a film printer of a type that forms an image on a photosensitive film instead of plain paper. The use of a film as an output medium is based on the fact that the resolution is much higher than that of plain paper (particularly the dynamic range is large), and the affected area can be accurately observed based on the output image.
[0048]
The file server 304 includes a database 305 as a large-capacity storage device for storing a huge amount of diagnostic image files.
[0049]
Each workstation 10 on the network, each modality device 50, and the print server 301 are transparently connected by following a predetermined communication protocol. For example, in the OSI (Open Systems Interconnection) reference standard model, the physical layer and data link layer of the network can be composed of Ethernet, and the transport layer and network layer can be composed of TCP / IP (Transmission Control Protocol / Internet Protocol). . In the upper layer above the session layer, each manufacturer of medical products prepares a dedicated protocol.
[0050]
One representative example of an upper layer protocol in the industry is DICOM (Digital Imaging and Communication for Machine). DICOM is a medical image communication protocol established by ACR (American College of Radiology) and NEMA (The National Electrical Manufacturers Association) in the United States. In addition to DICOM, communication is performed using a protocol specific to the manufacturer of the modality device product connected to the network.
[0051]
According to the medical image communication system 300 as shown in FIG. 3, it is possible to distribute and share diagnostic data among a plurality of terminal devices on a network by digitizing all medical diagnostic data acquired in a hospital. it can. That is, diagnostic data obtained in one diagnostic room can be viewed in another diagnostic room (or a remote hospital diagnostic room). In addition, by retrieving past diagnostic images from the database 305 as appropriate, it is possible to confirm the progress of recovery and the evolution of the disease state. Further, an expensive printer for outputting an image captured by the modality device 50... Or an image taken out from the database 305 can be shared between a plurality of modality devices and workstations.
[0052]
Normally, a plurality of film printers 302 and 303 (two in the example shown in FIG. 3) are connected to the print server 301, and each film printer has one or more trays, so that the client can On the other hand, a large number of film sizes and film types can be provided (the number of printers that can be connected to one print server depends on, for example, the number of ports supported by the server application).
[0053]
Each film printer has a difference in output capability such as gradation characteristics, recording format, and resolution. The film size mentioned here has variations such as half cut (350 mm × 430 mm), large angle (350 mm × 350 mm), B4 (360 mm × 240 mm), and the like. There are two types of film, blue and clear. Further, the recording format means the number of frames per page of the film, portrait / landscape, and the like.
[0054]
On the other hand, in the modality device that generates a diagnostic image, various output characteristics are used. For example, a CT (Computed Tomography) apparatus that generates a slice image of an affected part normally supplies a 512 × 512 dot image composed of 1 to 24 frames as one diagnostic image. Similarly, in the case of an MR (Magnetic Resonance) apparatus that generates a slice image, a diagnostic image for one time supplies an image of 1024 × 1024 dots including 100 to 200 frames. Also, a CR (Computed Radiography) device for digitizing an X-ray image outputs, for example, an image of 4300 × 3500 dots.
[0055]
As described above, in an environment where the modality devices 50... And the workstations 10... Are network-connected, the film printer is deployed in a room different from the modality devices 50. For this reason, it is difficult for each modality device 50..., Which is the print request source, to sequentially check and instruct an appropriate print output destination at the time of printing.
[0056]
Further, the request on each modality device 50... May be a process of not only outputting the image data acquired in each modality device 50. In the configuration of the present invention, these print processing and data storage processing are collectively controlled by the print server 301.
[0057]
The print server 301 according to the present invention receives image data output from various medical diagnostic imaging apparatuses such as a CT apparatus, an MR apparatus, and a CR apparatus, that is, a modality device 50, and performs print processing or data storage processing. At the time of execution, the modality device 50, which is the transfer source of the image data, is identified, and a preset process is executed.
[0058]
FIG. 4 is a detailed block diagram for explaining the functions of the print server. The print server 400 is connected to a network via an interface. Various modality devices 409 to 412 are connected to the network, and a file server 407 having a database 408 is connected to the network. Modality devices 409 to 412 connected to the network transmit various diagnostic image data to the print server 400. A plurality of printers 405 and 406 for printing out image data are connected to the print server 400.
[0059]
When the print server 400 receives data from the modality devices 409 to 412 connected to the network, first, the data transmission source identification processing unit 401 executes processing for identifying the modality that is the data transmission source.
[0060]
The data transmission source identification processing unit 401 has a configuration compatible with various communication protocols used by each modality device connected to the network, and executes a process of determining the data transmission source modality according to each protocol. To do. For example, when data is received in accordance with DICOM, which is often used as a medical image data communication protocol, an application entity title (Application Entity Title) transmitted when a data communication session is established is identified, and data is based on this data. Perform source identification. For example, when FINP (Fuji Information Network Protocol) is used as a communication protocol, tag data as information about a transmission image is transmitted as a step before transmitting image data. "Device" information is extracted and the information source is specified. In addition to this, a data transmission source identification process corresponding to the communication protocol is executed to determine the modality that has transmitted the data.
[0061]
When the data transmission source identification processing unit 401 determines the transmission modality of the image data, the acquired modality device identification data is sent to the processing determination unit 402. The process determination unit 402 includes a process determination table 404 that defines a process to be executed corresponding to a modality device connected to the network.
[0062]
An example of the processing determination table is shown in FIG. At the left end of the table shown in FIG. 5, the identification value corresponding to each modality device connected to the network is recorded, and the right column shows data indicating the processing mode of the received image data from each modality device. Has been. The modality identification value corresponds to the identification value acquired by the data transmission source identification processing unit 401 based on the device determination process corresponding to each protocol. The processing determination table shown in FIG. 5 records whether or not database storage processing is performed (B), whether or not output processing by a printer is necessary, and which printer is selected and output (C). ing. The numerical value in the “(C) Printer” column is an identification value indicating the printer to be output, and (−) without an entry indicates that a setting that does not require print output is made.
[0063]
(D) Background color density to (J) direction is an item in which an output mode for print output is set. In addition to items such as number of output sheets, output film size, direction (L: Landscape, P: Portrait), background color density (B: Bright, D: Dark, M: middle), polarity Various output modes such as (N: Normal, R: Reverse) can be set.
[0064]
In setting the processing determination table, it is necessary to set the printer output mode and controllable items according to the performance of the connected printer. Further, when a new printer is connected, the identification value of the printer can be added to the (C) Printer column of the processing determination table, and processing settings corresponding to the performance of the new printer can be added to the table. Note that the processing determination table shown in FIG. 5 is merely an example, and more detailed setting items may be added, or only database storage, printer output, or both may be set.
[0065]
In addition, when a new modality device is connected to the network, the device identification data identified according to the communication protocol used by the modality device is added, the identification value of the modality device is added to the processing decision table, and the processing contents are displayed in the table. By setting to, it is possible to easily set the processing contents of a new modality device added to the network.
[0066]
Returning to FIG. 4, the processing of the print server 400 will be described. When the process determination unit 402 determines the processing mode based on the data transmission source identification value acquired by the data transmission source identification processing unit 401 using the processing determination table described with reference to FIG. 5, the processing determination unit 402 transmits data indicating the processing mode to the processing control unit. Pass to 403. The processing control unit 403 receives image data sent from each modality via the network, and receives processing instruction data indicating the processing contents determined by the processing determination unit 402 based on the processing determination table 404, and sends it to each printer. Run the output.
[0067]
When there is a database storage instruction in the processing determination table, data transfer to the file server 407 via the network is executed, and data storage processing to the database 408 in the file server 407 is executed.
[0068]
For example, if the processing instruction data received by the processing control unit 403 from the processing determination unit 402 is set such that the printer 1 is selected and the number of output sheets is five, the image data is transferred using the printers 1 and 405 according to the instruction data. Output 5 sheets. If there is an instruction to store the database, the image data is output to the file server 407 and the storage process in the database 408 is executed.
[0069]
As described above, according to the configuration of the present invention, in a network-type image transfer system in which a plurality of medical image diagnostic apparatuses are connected to a network, processing modes that differ depending on each connected modality device, for example, print output The data storage process can be automatically executed according to the preset contents. For example, the print output process of the image data transferred via the network and the image data storage process are performed from one modality device. It can be executed by data transfer processing.
[0070]
Furthermore, according to the configuration of the present invention, even when image data transferred via a network is transferred by a plurality of different image communication protocols, the data transmission source identification processing unit 401 performs transmission source identification processing corresponding to the protocol. Therefore, it is possible to identify an image input source corresponding to each protocol and execute processing corresponding to the input source.
[0071]
[Example 2]
In the configuration of the first embodiment illustrated in FIG. 4, the print server 400 has a configuration capable of supporting the image data communication protocol of each of the modality devices 409 to 412 connected to the network, but the file server 407 has a specific communication protocol. There may be a configuration that only supports. Such a configuration will be described as a second embodiment. FIG. 6 shows a configuration in which a file server 601 that performs data storage processing having a database is connected via a network 600.
[0072]
In FIG. 6, a print server 400 similar to that described in FIG. 4 is connected to the network 600, and a file server 601 and a modality device 602 are further connected. Although not shown in the figure, it is assumed that more modality devices are connected to the network 600.
[0073]
The modality device 602 sends image data to the network 600 using one communication protocol A supported by the device. On the other hand, the file server 601 supports only the communication protocol B different from the communication protocol A, and does not support the communication protocol A.
[0074]
In the configuration shown in FIG. 6, the file server 601 and the modality device 602 support different communication protocols, so that the file server 601 cannot directly process image data transmitted by the modality device 602. However, the print server 400 has a configuration that supports both the communication protocols A and B.
[0075]
First, when the print server 400 receives the transmission image data from the modality device 602, the data transmission source identification processing unit 401 acquires the data transmission source identification value, and the data processing determination unit 402 is the same as described in FIG. The processing mode corresponding to the modality device 602 is determined by the processing determination table.
[0076]
By setting the database storage of the file server 601 in the processing mode defined in the processing determination table, the data processing determination unit determines that the database storage processing of the file server 601 is to be executed. Further, the process control unit 403 executes a process of transferring the received image data to the file server 601 in order to execute this process.
[0077]
The print server 400 supports not only the communication protocol A but also the communication protocol B, and transmits image data to the file server 601 according to the communication protocol B supported by the file server 601.
[0078]
As described above, the print server of the present invention can support a plurality of communicable protocols such as modality devices, file servers, and other print servers connected to the network. It becomes possible to play a role of mediating communication between devices.
[0079]
Therefore, for example, even when the communication protocol supported by the modality device newly added to the network is a new communication protocol that is not supported by other network connections, only the print server is set to support the communication protocol. As a result, data can be transferred to other network connection devices via the print server.
[0080]
[Example 3]
As a third embodiment, a configuration in which a print server has a file server function will be described.
[0081]
FIG. 7 shows a configuration example of a network system 700 to which the print server and the data processing mode control method of this embodiment are applied. On the network system 700, medical images captured by a plurality of modality devices 50A, 50B... Can be handled by a plurality of workstations 10A, 10B. A print server (which also functions as a file server) 701 is connected to the network.
[0082]
A print server 701 on the network shown in FIG. 7 executes print output control to the printers 702 and 703 and also executes data file control to the database 704.
[0083]
By deploying such a print server 701 in a network, an expensive printer for film printing can be shared among a plurality of modality devices, and image data is stored in a database, thereby diagnosing a large number of patients. Data can be managed collectively in the hospital.
[0084]
The print server 701 selects printers # 1 and 702 and printers # 2 and 703 connected to the server as appropriate, and executes print output processing of image data transferred from each modality device 50A through the network. It also functions as a file server that controls storage processing of transferred image data in the database 704.
[0085]
Each of the print server 701, each modality device 50, and the workstation 10 that electronically handles diagnostic images is normally connected to the network by a network interface card (NIC: not shown).
[0086]
In FIG. 7, the network is, for example, a LAN (Local Area Network) laid in a single hospital. The LAN may be composed of a single LAN segment 20 or a plurality of LAN segments interconnected via a router (or gateway) 30. Alternatively, the network may be a wide area network such as a WAN (Wide Area Network) configured by connecting remote hospital LANs via a dedicated line or the like.
[0087]
A printer is mounted on the print server 701 via an adapter card (not shown). The print server 701 performs format processing (including layout processing on a film of a predetermined size), image enlargement / reduction processing, and processing for image data transferred from each modality device 50 on the network. After performing various processes such as conversion to gradation suitable for diagnosis, the image is output by a printer. A plurality of film printers 702 and 703 are connected to the print server 701, and each film printer is provided with one or more trays. Can be provided.
[0088]
The print server 701 also has a function as a file server, and includes a database 704 as a large-capacity storage device for storing a huge amount of diagnostic image files.
[0089]
The workstation indicated by reference number 10A operates as an image viewer. This image viewer 10A is for taking out a plurality of past diagnostic images from a database 704 attached to the print server 701, for example, and confirming the progress of recovery or the progress of a medical condition on a display screen. A CRT (Cathode Ray Tube) display and the like having a screen and a high resolution are provided.
[0090]
FIG. 8 is a detailed block diagram for explaining the functions of the print server. The print server 400 is connected to a network via an interface, and various modality devices are connected to the network, and image data is transferred to the print server 400. Connected to the print server 400 are a plurality of printers 801 and 802 for printing out image data, and a database 803 for storing image data.
[0091]
When the print server 400 receives data from a modality connected to the network, the data transmission source identification processing unit 401 executes processing for identifying the modality that is the data transmission source. The data transmission source identification processing unit 401 has a configuration capable of supporting various communication protocols used by each modality device connected to the network. As described in the first embodiment, processing for determining the modality of the data transmission source is executed in accordance with each protocol.
[0092]
When the data transmission source identification processing unit 401 determines the transmission modality of the image data, the acquired modality device identification data is sent to the processing determination unit 402. The process determination unit 402 determines a process based on a process determination table that defines a process to be executed corresponding to the modality device connected to the network. The processing determination table is the same as that in FIG. 5 described in the first embodiment.
[0093]
When the processing determination unit 402 determines the processing mode based on the processing determination table, the data indicating the processing mode is passed to the processing control unit 403. The processing control unit 403 receives image data sent from each modality via the network, and receives processing instruction data indicating the processing content determined by the processing determination unit 402 based on the processing determination table 404. Execute data output for.
[0094]
In this configuration, since the database 704 is connected to the print server 701 having a function as a file server, it is not necessary to execute image data on the network at the time of database storage processing.
[0095]
Next, a data processing mode control method using the print server of the present invention will be described. FIG. 9 is a flowchart for explaining a data processing mode control method using the print server of the present invention. Hereinafter, each step of the flowchart of FIG. 9 will be described.
[0096]
First, in step 901, the print server receives data transmitted from each modality device via the network. After receiving this data, in step 902, data transmission source identification processing corresponding to each communication protocol is executed.
[0097]
The data transmission source identification processing in step 902 is performed by different processing according to the communication protocol as described in FIG. For example, when the protocol is DICOM, an application entity title (Application Entity Title) transmitted when a data communication session is established is identified, and the data transmission source is identified based on this data. When the communication protocol is FINP, “starting device” information included in the tag data related to the transmission image is extracted.
[0098]
When the data transmission source is identified in step 902, in step 903, the processing determination table is searched to determine the processing content. This is executed as a process in which the process determining unit 402 in FIG. 4, FIG. 6, or FIG. 8 searches for a process determination table that is a table (for example, FIG. 5) in which each modality is associated with the process contents in advance. Processing determined by the table includes output using a printer, storage in a database, printing mode, and the like.
[0099]
When the processing contents are determined in step 903, in step 904, output processing for a device directly connected to the print server, for example, a printer, data storage processing for a database, data display processing on a display, or the like is executed.
[0100]
Next, in step 905, it is determined whether the processing determined in the table search includes data storage processing in an external device that is not directly connected to the print server, such as a network connection file server.
[0101]
If processing for an external device is included, in step 906, image data is output via the network in accordance with a communication protocol supported by the external device. If the process for the external device is not included, the process in step 905 is not performed and the process ends.
[0102]
The present invention has been described in detail above with reference to specific embodiments. However, it is obvious that those skilled in the art can make modifications and substitutions of the embodiments without departing from the gist of the present invention. In other words, the present invention has been disclosed in the form of exemplification, and should not be interpreted in a limited manner. In order to determine the gist of the present invention, the claims section described at the beginning should be considered.
[0103]
【The invention's effect】
As described above, according to the print server and the data processing mode control method of the present invention, in the network-type image transfer system in which a plurality of medical image diagnostic apparatuses are connected to the network, different processing modes depending on each modality device. For example, print output and data storage processing can be automatically executed in accordance with preset contents.
[0104]
Further, according to the print server and the data processing mode control method of the present invention, the print output process of the image data transferred via the network and the image data storage process are executed by a single data transfer process from the modality device. Can be possible.
[0105]
Furthermore, according to the print server and the data processing mode control method of the present invention, image input corresponding to each protocol can be performed even when image data transferred via a network is transferred by various different image communication protocols. It is possible to identify a source and execute a process according to the input source.
[0106]
Furthermore, according to the print server and the data processing mode control method of the present invention, image data transferred via a network according to a specific communication protocol is output to another device that supports a protocol different from the protocol. In some cases, it is possible to mediate data transfer, and mutual communication can be performed even when devices using different communication protocols coexist in the network.
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing a conventional system configuration for transmitting a medical image to a server via a dedicated channel.
FIG. 2 is a diagram schematically illustrating a configuration example of a network system for sharing medical images between terminal devices.
FIG. 3 is a diagram schematically showing a configuration example of a network system provided for implementing the present invention.
FIG. 4 is a block diagram illustrating a functional configuration of a print server (first embodiment) according to the present invention.
FIG. 5 is a diagram showing an example of a processing determination table of the print server according to the present invention.
FIG. 6 is a diagram illustrating processing when data transmission is performed between the print server (second embodiment) of the present invention and an external device connected to the network.
FIG. 7 is a diagram schematically showing an example of the configuration of a network system (third embodiment) provided for implementing the present invention.
FIG. 8 is a block diagram illustrating a functional configuration of a print server (third embodiment) according to the present invention.
FIG. 9 is a diagram illustrating processing in the print server of the present invention as a flowchart.
[Explanation of symbols]
101-106 Modality equipment
107 servers
108,109 Printer
110 database
10 ... Workstation
20 ... LAN
30 ... Router
50 ... Modality equipment
300 ... Network system
301 Print server
302,303 Printer
304 File server
305 database
400 print server
401 Data transmission source identification processing unit
402 Processing determination unit
403 Processing control unit
404 processing decision table
405 Printer 1
406 Printer 2
407 File server
408 database
600 network
601 File server
602 Modality equipment
801 Printer 1
802 Printer 2
803 database

Claims (10)

A print server that receives data transmitted from a network-connected image generation device via a network;
Data transmission source identification processing means for identifying a transmission source of the transmission data based on transmission data from the image generation device;
A process of determining at least one of a print output process and a database storage process related to transmission data from the image generation apparatus based on the data transmission source identified by the data transmission source identification processing unit A determination means;
Processing control means for executing processing according to the processing determined by the processing determination means,
The data transmission source identification processing means has a configuration corresponding to a plurality of communication protocols, and has a configuration for executing data transmission source identification processing of different modes according to the communication protocol of data transmitted from the image generation apparatus. And
The processing determination unit has a processing determination table that associates processing for each of the image generation apparatuses connected to the network, and the data transmission source identified by the data transmission source identification processing unit is retrieved by searching the processing determination table. print server, characterized in that it have a configuration to determine the corresponding processing. When the process determining unit determines that the two processes of the print output process and the database storage process are to be executed, both the print output process and the database storage process are performed based on the same received data. The print server according to claim 1, wherein the print server is executed. 3. The print server according to claim 1, wherein the process determining unit is configured to execute a process of specifying a printer to be used in a print output process using a printer.   4. The print server according to claim 1, wherein the process determining unit is configured to execute a process of determining a print mode in a print output process using a printer. The print server, when the process determined by the process determining means includes a data output process for another device connected to the network, the image data received from the image generating device print server according to any one of claims 1 to 4, characterized in that it has a structure to be transferred to the device. 6. The print server according to claim 5 , wherein the other device connected to the network is a file server having a data storage database. 7. The print server according to claim 5 , wherein the print server is configured to transmit image data according to a communication protocol supported by the other device in a data transfer process to the other device connected to the network. Print server. The image generation apparatus, the print server according to any of claims 1 to 7, characterized in that a medical image diagnostic apparatus. A data processing mode control method for receiving data transmitted from an image generation apparatus connected to a network via a network and executing processing of the received data,
A data transmission source identification processing step for identifying a transmission source of the transmission data based on transmission data from the image generation device;
A process of determining at least one of a print output process and a database storage process related to transmission data from the image generation device based on the data transmission source identified in the data transmission source identification processing step A decision step;
A process control step for executing a process according to the process determined in the process determination step,
The data transmission source identification processing step executes processing corresponding to a plurality of communication protocols, and executes different types of data transmission source identification processing according to the communication protocol of data transmitted from the image generation apparatus. Step,
The data processing mode control method , wherein the processing determination step is a step of determining processing for a data transmission source by searching a processing determination table in which processing for each image generation apparatus connected to a network is associated . When the process determining step determines that the two processes of the print output process and the database storage process are to be executed, both the print output process and the database storage process are performed based on the same received data. The data processing mode control method according to claim 9, wherein:

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