JP4245980B2 - Medical image recording apparatus and control method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for recording an image acquired by an endoscope or the like used for medical treatment, and more particularly to a technique for improving the reliability of acquiring an image for such medical use.
[0002]
[Prior art]
In recent years, it has been possible to insert an elongated insertion portion into a body cavity, image a region to be examined using an imaging means such as a solid-state imaging device, and observe an internal organ of the body cavity on a monitor screen for inspection or diagnosis. Mirror devices are widely used.
[0003]
In such an endoscope apparatus, an endoscope image captured by an electronic endoscope or the like is recorded, and used as a system by connecting an image recording apparatus so that it can be used effectively for later review or the like. There is a need for an easy-to-use system in the situation.
In addition to the endoscopic images as described above, systems that record various medical images so that they can be effectively used as a database of medical images are being used.
[0004]
As a medical image recording system of this type, for example, in Patent Document 1, data is reliably temporarily stored without being affected by an abnormality of an apparatus in the system, thereby improving the reliability at the time of image recording. A medical image file device is disclosed. In the medical image file device disclosed in Patent Document 1, an endoscope device that obtains an endoscope image of a test site as a moving image, and a recording data amount when the endoscope image is recorded as a still image In order to reduce this, both the image compression apparatus that performs image compression processing on the endoscopic image to generate compressed image data are connected by two signal paths of a video signal line and a communication signal line.
[0005]
In this configuration, in order to record an endoscopic image, the operator may perform a release instructing the recording of the endoscopic image by operating the endoscopic device. When this release is performed, the endoscope apparatus issues a release command. The issued release command is sent to the image compression apparatus via the communication signal line described above.
[0006]
In the image compression apparatus, a communication interface that performs communication with the endoscope apparatus exclusively through the communication signal line described above receives the release command. The communication interface passes this release command to a CPU (Central Processing Unit) that controls the operation of the entire image compression apparatus.
[0007]
The CPU that has recognized the reception of the release command is transferred to the video RAM in which image data obtained by A / D conversion of the endoscope image signal sent from the endoscope apparatus via the video signal line is written. Control to stop the writing operation and capture (capture) the image data at this time, control the image data to be compressed by passing the captured image data to the image compression LSI, and to the video RAM The control for restarting the writing operation and the control for transferring the generated compressed image data to the network I / F and transferring it to the file server are performed collectively. The CPU also manages the operation of the communication interface described above.
[0008]
The file server stores and saves the transferred compressed image data.
[0009]
[Patent Document 1]
Japanese Patent Laid-Open No. 7-141498
[0010]
[Problems to be solved by the invention]
Many of the medical image recording systems as described above, for example, enter patient data, which is information about a patient such as a patient identification code, name, gender, age, etc., into an endoscopic device. Is stored in the file server by associating the compressed image data expressing the above and the above-described patient data. In the medical image file device having the configuration disclosed in Patent Document 1, this function can be realized as follows.
[0011]
First, patient data input to the endoscope apparatus is sent from the endoscope apparatus to the image compression apparatus via the communication signal line described above. In the image compression apparatus, the same communication interface as described above receives this patient data. The communication interface passes this release command to the same CPU as described above.
[0012]
The CPU that has recognized the reception of the patient data performs control to temporarily store the patient data in a memory provided in the image compression apparatus. Thereafter, when the CPU recognizes the receipt of the release command, the patient data is read from the memory and transferred to the network I / F in conjunction with the control for recording the compressed image data in the file server. Controls transfer to the file server.
[0013]
As described above, in the configuration of the conventional medical image recording system, the release command and patient data are transmitted from the endoscope apparatus to the image compression apparatus via the same communication signal line. Also, the operation control of the entire image compression apparatus, in particular, the control of data communication performed with the endoscope apparatus and the control of image processing such as image compression have been performed by a single CPU.
[0014]
For this reason, for example, when the operator operates the endoscope apparatus during the transmission of patient data and releases the patient data, it is possible to wait for transfer of a release command on the communication signal line having a low communication speed, or from data communication control. Due to the CPU switching to image processing control, the control for recording the compressed image data in the file server is delayed, and an endoscopic image delayed from the moment the operator wanted can be recorded. It is done.
[0015]
Even after the patient data is transmitted, if communication between the endoscope apparatus and the image compression apparatus fails due to various causes such as noise, the communication signal line is reset, but the operator cannot release during that time. Or, although it was intended to be released, an endoscopic image is not recorded, and problems such as not being aware of this may occur.
[0016]
In consideration of the original use of the medical image recording system for recording medical images, such user misoperation should be prevented, and image recording failures should be minimized.
The present invention has been made in view of the above circumstances, and a problem to be solved is to improve the reliability of acquiring images for medical use.
[0017]
[Means for Solving the Problems]
Medical image recording which is one aspect of the present invention apparatus Indicates a first communication means for performing data communication with another device, and an image recording instruction, and the other through a signal path provided separately from that used in the data communication. The second communication means for acquiring the instruction information sent from the other device, and the control relating to the recording of the medical use image represented by the image signal sent from the other device for the acquisition of the instruction information. Image recording control means based on Via the communication signal line Between other devices To get patient data showing information about the patient A first communication means for performing data communication; A storage means having a predetermined storage area for storing patient data acquired by the data communication and a communication failure occurring in the communication signal line are monitored, and a communication failure is indicated when the communication failure occurs. A monitoring means for outputting a notification; Indicates the image recording instruction, Communication signal line A second communication means for obtaining instruction information sent from the other device via a signal path provided separately from the medical device expressed by an image signal sent from the other device Image recording control means for performing control related to image recording based on acquisition of the instruction information; The image recording control means detects whether a notification indicating the communication failure is output from the monitoring means, and outputs a notification indicating the communication failure in the monitoring means by the detection means. When it is detected that the patient data has not been read, the patient data read by the first communication means is read from the predetermined storage area of the storage means, and the patient data read means reads the patient data. Transfer means for transferring the patient data and the medical use image to an external recording device; It is comprised so that it may have.
[0018]
According to this configuration, even if some failure occurs in the signal path used in the data communication between the first communication means and another device, the signal path provided separately from the signal path Since control related to image recording is performed based on instruction information sent from other devices, it is possible to perform image recording in response to the instruction information quickly, and the reliability of acquiring images for medical use is improved. improves.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a functional configuration of a medical image recording system embodying the present invention. As shown in the figure, this medical image recording system includes an endoscope observation apparatus 1, an image compression apparatus 2, and an external storage 3.
[0022]
The endoscope observation apparatus 1 captures an endoscope image of a test site, and transmits an image signal representing the endoscope image to the image compression apparatus 2 via a video signal line 11. Further, for example, patient data, which is information related to the patient such as a patient identification code, name, sex, and age, input to the endoscope observation apparatus 1 by the operator is transmitted to the image compression apparatus 2 via the communication signal line 12. To do. Further, when the operator operates the endoscope apparatus to perform release for instructing recording of an endoscope image, information indicating that the release has been performed (hereinafter simply referred to as “release information”). Is transmitted to the image compression apparatus 2 via the release-dedicated line 13. Here, the release exclusive line 13 is independent of the communication signal line 12 and is provided for transmitting release information.
[0023]
In the present embodiment, the communication signal line 12 conforms to RS-232C (Recommended Standard 232 version C), which is a serial communication standard established by the Electronic Industries Alliance (EIA). Things will be used. Moreover, the release exclusive line 13 is a contact provided in the endoscope observation apparatus 1, and is defined as a contact for the synchronized light emission mechanism in the Japanese Industrial Standard (JIS B7091-1992) relating to a camera shutter. The release information described above is transmitted to the image compression apparatus 2 by connecting to the X contact.
[0024]
The image compression apparatus 2 includes an external device communication control unit 21, an image processing unit 22, and an image control unit 23.
The external device communication control unit 21 controls various data communications performed with the endoscope observation apparatus 1, and is sent from the endoscope observation apparatus 1 via the communication signal line 12. Patient data is received and passed to the image controller 23.
[0025]
The image processing unit 22 sequentially A / D (analog-digital) converts an image signal that is a moving image sent from the endoscope observation apparatus 1 via the video signal line 11. When release information is acquired from the endoscope observation apparatus 1 via the release dedicated line 13, image compression processing is performed on the image data after the A / D conversion, and an endoscope image that is a still image is obtained. Generate compressed image data that is expressed. The generated compressed image data is transferred to the image control unit 23.
[0026]
The image control unit 23 controls the operation of the image processing unit 22, for example, image processing, in response to acquisition of information sent from the endoscope observation apparatus 1 via the release dedicated line 13 and indicating that the release has been performed. Control of the memory provided in the unit 22 and processing control of image compression are performed, and the compressed image data passed from the image processing unit 22, patient data passed from the external device communication control unit 21, and the external storage 3 are sent.
[0027]
The external storage 3 is, for example, a file server that stores and saves compressed image data and patient data sent from the image control unit 23 in association with each other.
Next, FIG. 2 will be described. This figure shows the hardware configuration of the image compression apparatus 2 shown in FIG.
[0028]
The function of the external device communication control unit 21 is realized by a CPU-A 211, a RAM-A 212, a ROM-A 213, and a communication I / F (interface) 214. These components are connected to each other via a bus 215, and can exchange various data with each other under the control of the CPU-A 211.
[0029]
The CPU-A 211 is a central processing unit that controls the entire external device communication control unit 21 by executing a predetermined control program, and corresponds to the communication control means in this embodiment. The CPU-A 211 is directly connected to the CPU-B 231 provided in the image control unit 23, and various data can be exchanged with the CPU-B 231 by performing data communication according to the control program. it can. Since the CPU-A 211 and the CPU-B 231 are directly connected without using a bus or the like, the data transfer speed in this data communication is at least between the endoscope observation apparatus 1 and the external device communication control unit 21. It is sufficiently faster than that in data communication performed between.
[0030]
The RAM-A 212 is a memory used as a work memory when the CPU-A 211 executes a control program, and is also used to temporarily hold various data as necessary.
The ROM-A 213 is a memory in which a control program executed by the CPU-A 211 is stored in advance. When a predetermined power is supplied to the image compression apparatus 2, the CPU-A 211 reads the control program from the ROM-A 213. And execute.
[0031]
The communication I / F 214 performs data communication with the endoscope observation apparatus 1 via the communication signal line 12 under the control of the CPU-A 211, and exchanges various data. This corresponds to the first communication means. In the present embodiment, a communication I / F 214 that can perform data communication in accordance with the RS-232C standard described above is used.
[0032]
The functions of the image control unit 23 are realized by the CPU-B 231, RAM-B 232, ROM-B 233, network I / F 234, and release I / F 236. Among these components, those other than the release I / F 236 are connected to each other via a bus 235, and various data can be exchanged under the control of the CPU-B 231.
[0033]
The CPU-B 231 is a central processing unit that controls the entire image control unit 23 by executing a predetermined control program, and corresponds to an image recording control unit in the present embodiment. The CPU-B 231 is directly connected to the release I / F 236 and can immediately recognize the release information acquired from the endoscope observation apparatus 1. Furthermore, as described above, the CPU-B 231 is directly connected to the CPU-A 211, and various data can be exchanged with the CPU-A 211 by performing data communication according to the control program.
[0034]
The RAM-B 232 is a memory used as a work memory when the CPU-B 231 executes a control program, and is also used to temporarily hold various data as necessary.
The ROM-B 233 is a memory in which a control program executed by the CPU-B 231 is stored in advance. When a predetermined power is supplied to the image compression apparatus 2, the CPU-B 231 reads the control program from the ROM-B 233. And execute.
[0035]
The network I / F 234 performs data communication with the external storage 3 under the control of the CPU-B 231 to exchange various data.
The release I / F 236 detects release information transmitted from the endoscope observation apparatus 1 via the release dedicated line 13 and notifies the CPU-B 231 of the detection result. This corresponds to two communication means. As described above, in this embodiment, since the release dedicated line 13 is connected to the X contact provided in the endoscope observation apparatus 1, the state of the X contact is changed from the open state (high impedance state). Release information is conveyed by changing to a contact state (short circuit state). Therefore, the release I / F 236 detects this change.
[0036]
The function of the image processing unit 22 is realized by the A / D converter 221, the V-RAM 222, and the image compression LSI 223. Among these components, the V-RAM 222 and the image compression LSI 223 are both connected to each other via the bus 235 described above, and can exchange various data with each other under the control of the CPU-B 231. Further, various data can be exchanged with each component of the image control unit 23 connected to the bus 235.
[0037]
A / D 221 is an A / D converter that sequentially A / D (analog-digital) converts an image signal sent from the endoscope observation apparatus 1 via the video signal line 11. Image data obtained by this A / D conversion is stored in a V-RAM 222 which is a memory provided exclusively for image data.
[0038]
The image compression LSI 223 reads out the image data stored in the V-RAM 222 based on an instruction from the CPU-B 231 and performs image compression processing to generate compressed image data. The generated compressed image data is stored in the RAM-B 232. Stored in a predetermined area.
[0039]
Hereinafter, the processing contents of the control processing performed when the CPU-A 211 and CPU-B 231 shown in FIG. 2 respectively read and execute predetermined control programs stored in the ROM-A 213 and ROM-B 233 respectively. explain.
[0040]
First, FIG. 3 will be described. This figure is a flowchart showing the contents of communication control processing performed by the CPU-A 211 of the external device communication control unit 21. This process is started after predetermined power is supplied to the image compression apparatus 2 and the CPU-A 211 starts executing a predetermined control program, and a predetermined initialization process performed first is completed.
[0041]
First, in S101, processing for monitoring the communication I / F 214 is performed, and in subsequent S102, processing for determining whether or not a failure has occurred in data communication with the endoscope observation apparatus 1 is performed. . Here, when it is determined that a communication failure has occurred (Yes in S102), a process for notifying the CPU-B 231 of the occurrence of a communication failure is performed in S103, and thereafter the process proceeds to S101. The process of returning and monitoring the communication I / F 214 is repeated.
[0042]
On the other hand, when it is determined in the determination process of S102 that no communication failure has occurred (the determination result is No), the patient data sent from the endoscope observation apparatus 1 is transmitted to the communication I / F 214 in S104. A process for determining whether or not is received is performed. Here, when it is determined that the patient data is received (determination result is Yes), the process proceeds to S105, while when it is determined that the patient data is not received (determination result is No). Returns the process to S101 and repeats the process of monitoring the communication I / F 214.
[0043]
In S105, a process for storing the patient data received by the communication I / F 214 in a predetermined area of the RAM-A 212 is performed.
In subsequent S106, it is determined whether or not the reception of the patient data by the communication I / F 214 is completed. Here, when it is determined that the reception of the patient data is completed (determination result is Yes), the process proceeds to S107, and when it is determined that the reception of the patient data is not completed (determination result is No). The process returns to S105 and the process of storing patient data is continued.
[0044]
In S107, the process of reading the patient data stored in the RAM-A 212 and transferring it to the CPU-B 231 is performed, and then the process of returning to S101 and monitoring the communication I / F 214 is repeated.
The above processing is the communication control processing, and the CPU-A 211 performs this processing, thereby receiving the patient data sent from the endoscope observation apparatus 1 via the communication signal line 12 and the received patient data. Can be transferred to the image control unit 23 by the external device communication control unit 21.
[0045]
Next, FIG. 4 will be described. This figure shows the processing contents of the communication data acquisition process performed by the CPU-B 231 of the image control unit 23 in a flowchart. This process is an interrupt process that is started when the CPU-B 231 detects that some data is sent from the CPU-A 211 of the external device communication control unit 21.
[0046]
When the communication data acquisition process is started, first, in S201, a process of receiving data sent from the CPU-A 211 is performed.
In S202, it is determined whether or not the data received by the process in the previous step is a notification indicating the occurrence of the communication failure described above. Here, when it is determined that the received data is a notification indicating the occurrence of a communication failure (when the determination result is Yes), the process proceeds to S203, and it is determined that the notification is not a notification indicating the occurrence of a communication failure. If (when the determination result is No), the process proceeds to S204.
[0047]
In S203, a process of setting a “communication failure flag” defined in a predetermined register in the CPU-B 231 is performed. Thereafter, the communication data acquisition process is terminated, and the process returns to the normal process.
In S204, it is determined whether the data received by the process of S101 is patient data. When it is determined that the received data is patient data (when the determination result is Yes), the process proceeds to S205. On the other hand, when it is determined that the received data is not patient data (when the determination result is No), the process returns to S201 and the process of receiving the data sent from the CPU-A 211 is repeated.
[0048]
In S205, processing for clearing the “communication failure flag” is performed, and in subsequent S206, processing for storing the received patient data in a predetermined area of the RAM-B232 is performed. Thereafter, the communication data acquisition process is terminated, and the process returns to the normal process.
The above processing is the communication data acquisition processing, and the CPU-B 231 performs this processing, so that the patient data sent from the CPU-A 211 of the external device communication control unit 21 can be used in the image control unit 23. In addition, the image control unit 23 can perform processing according to the occurrence of failure communication in data communication with the endoscope observation apparatus 1.
[0049]
Next, FIG. 5 will be described. This figure shows the processing contents of the image recording control process performed by the CPU-B 231 of the image control unit 23 in a flowchart. This process is started after predetermined power is supplied to the image compression apparatus 2 and the CPU-A 211 starts executing a predetermined control program, and a predetermined initialization process performed first is completed.
[0050]
First, in S211, processing for monitoring the release I / F 236 is performed, and in subsequent S212, it is determined whether or not the release information described above has been obtained. Here, when it is determined that the release information has been obtained (when the determination result is Yes), the process proceeds to S213. On the other hand, when it is determined that release information has not been obtained (when the determination result is No), the process of S211 is repeated.
[0051]
In S213, the CPU-B 231 performs processing for setting execution prohibition of interrupt processing. Specifically, this process is realized by performing a process of setting an “interrupt prohibition flag” defined in a predetermined register in the CPU-B 231, for example. By executing this process, the above-described communication data acquisition process is prohibited.
[0052]
In S214, processing for temporarily stopping the sequential rewriting operation of the image data output from the A / D 221 to the V-RAM 222 performed by the CPU-B 231 is performed. By this process, the image data stored in the V-RAM 222 at that time is captured.
[0053]
In S215, the image data stored in the V-RAM 222 is read out and transferred to the image compression LSI 223, and an instruction to start the image compression process is given to the image compression LSI 223. The image compression LSI 223 that has received this instruction performs image compression processing on the image data stored in the V-RAM 222 to generate compressed image data. The generated compressed image data is stored in a predetermined area of the RAM-B232.
[0054]
In S216, it is determined whether or not a notification indicating completion of the image compression processing for the image data stored in the V-RAM 222 has been received from the image compression LSI 223, and the processing in S216 is repeated until this notification is received.
In S217, it is determined whether or not the above-described “communication failure flag” is set. When it is determined that the “communication failure flag” is set (when the determination result is Yes), the process proceeds to S218. On the other hand, when it is determined that the “communication failure flag” is not set (determination) If the result is No), the process proceeds to S219.
[0055]
In S218, when this image recording process was performed last time, a process of reading patient data stored in a predetermined area of the RAM-B 232 by a process of S221 described later is performed. Thereafter, the process proceeds to S220.
In S219, a process of reading the latest patient data stored in a predetermined area of the RAM-B232 by the process of S206 of the communication data acquisition process (FIG. 4) described above is performed.
[0056]
In S220, the network I / F 234 is controlled, and the patient data read from the RAM-B 232 by the process of S218 or S219 and the image compression LSI 223 are generated and stored in a predetermined area of the RAM-B 232. A process of transferring the compressed image data to the external storage 3 is performed. In the external storage 3, the transferred compressed image data and the patient data are stored in association with each other and stored.
[0057]
In S221, the patient data transferred to the external storage 3 by the process of S220 described above is a predetermined area of the RAM-B232 and is the target of the process of S206 of the communication data acquisition process (FIG. 4) described above. Are stored in different areas.
[0058]
In S222, a process of resuming the sequential rewriting operation of the image data stopped in the process of S214 to the V-RAM 222 is performed.
In S223, for example, by performing the process of clearing the above-described “interrupt prohibition flag”, a process of canceling the prohibition of execution of the interrupt process in the CPU-B 231 performed by the process of S213 described above is performed. By executing this process, the communication data acquisition process described above can be executed.
[0059]
After the process of S223 is completed, the process of returning to S211 and monitoring the release I / F 236 is repeated.
The processing up to this point is the image recording control processing, and the CPU-B 231 performs this processing to control the operation of the image processing unit 22, the compressed image data passed from the image processing unit 22, and the external device communication control unit 21. Transfer of the patient data passed to the external storage 3 is enabled by the image control unit 23.
[0060]
In addition, the present invention is not limited to the above-described embodiments, and various improvements and changes can be made without departing from the scope of the present invention.
For example, in the above-described embodiment, transfer of patient data from the external device communication control unit 21 to the image control unit 23 is performed by data communication between the CPU-A 211 and the CPU-B 231. Instead, for example, a dual port RAM is used as the RAM-B 232 so that both the CPU-A 211 and the CPU-B 231 can read / write data from / to the RAM-B 232, and the CPU-A 211 has a predetermined configuration of the RAM-B 232 The patient data may be directly stored in this area, and by doing so, the processing burden of the CPU-B 231 for acquiring the patient data from the external device communication control unit 21 can be further reduced.
[0061]
In the above-described embodiment, the CPU-A 211 notifies the CPU-B 231 of the occurrence of a communication failure. Instead, for example, when no communication failure has occurred, the CPU-A 211 is set at regular intervals. When the pulse signal is sent from the A-A 211 to the CPU-B 231 and the CPU-B 231 cannot receive the pulse signal at intervals within a predetermined time, the endoscope observation apparatus 1 and the external device communication control unit The CPU-B 231 performs a so-called watchdog for the CPU-A 211 that causes the CPU-B 231 to generate temporary patient data on the assumption that a failure has occurred in the data communication performed with the CPU 21. You may do it. By doing so, even if a communication failure due to the external device communication control unit 21 itself occurs, the image control unit 23 can appropriately control the image recording.
[0062]
In the above-described embodiment, the patient data input to the endoscope observation apparatus 1 is received by the external device communication control unit 21 of the image compression apparatus 2, transferred to the external storage 3 together with the compressed image data, and stored. However, for example, the external device communication control unit 21 receives the device data for identifying the endoscope observation apparatus 1 itself such as the model name and the serial number and other equipment used together with the patient data, together with the compressed image data. The data may be transferred to the external storage 3 and stored, and the device data of the image compression apparatus 2 itself may be transferred and stored in the same manner.
[0063]
Further, in the above-described embodiment, the CPU-A 211 that receives patient data through RS232C communication and the CPU-B 231 that detects a release signal are configured. The CPU may be provided with an RS232C serial communication port and an I / O port for detecting a release signal, and this one CPU may perform multitask processing.
[0064]
In the above-described embodiment, the reception path of patient data is limited to that via the communication signal line 12 from the endoscope observation apparatus 1, but as is well known, patient identification is included in patient data. By inputting information such as an ID to the endoscope observation apparatus 1, all the patient data registered in the database of the filing apparatus may be called by using the information as a search key. May be called from an HIS (Hospital Information Server) in the hospital.
[0065]
In the above-described embodiment, the video signal of the endoscopic image, which is an analog video signal, is A / D converted. For example, USB (Univarsal Serial Bus) or IEEE 1394 (Institute of Electrical and Electronic Engineers 1394). The digital image data representing the endoscopic image may be input from the endoscope observation apparatus 1 to the image compression apparatus 2 using such an interface.
[0066]
Further, if the endoscopic image is output from the endoscope observation apparatus 1 in the form of digital data, the video signal line 11 is integrated with the communication signal line 12, and the patient data and the digital image data are integrated. You may make it input from the endoscope observation apparatus 1 to the image compression apparatus 2. FIG. In short, it is sufficient that only the release instruction uses a signal path independent of other data.
[Appendix]
(Appendix 1) The first communication means performs data communication in accordance with the RS-232C standard, and the second communication means acquires the instruction information obtained from the X contact of the other device. The medical image recording system according to claim 1.
[0067]
(Supplementary note 2) The medical image recording system according to supplementary note 1, wherein the first communication means performs data communication in accordance with a universal serial bus (USB) standard.
(Additional remark 3) Said 1st communication means performs the data communication which transmits the patient data which shows the information regarding a patient, or the image data expressing the image for medical use, The additional remark 1 characterized by the above-mentioned. Medical image recording system.
[0068]
(Supplementary note 4) The medical image recording system according to supplementary note 3, wherein the first communication means performs data communication in accordance with a universal serial bus (USB) standard or an IEEE 1394 standard.
[0069]
【The invention's effect】
As described above in detail, the medical image recording system according to the present invention includes a communication unit for performing data communication with other devices, and a communication path different from that used in this data communication. And a communication unit for acquiring instruction information indicating an image recording instruction sent from the other device.
[0070]
Alternatively, the medical image recording system according to the present invention includes a communication control unit that performs control related to data communication performed with another device, and a medical device represented by an image signal transmitted from the other device. An image recording control unit that performs control related to image recording for a purpose based on instruction information indicating an image recording instruction is configured to be provided independently.
[0071]
Both configurations of the medical image recording system according to the present invention have the effect of improving the reliability of acquiring images for medical use.
[Brief description of the drawings]
FIG. 1 is a diagram showing a functional configuration of a medical image recording system for carrying out the present invention.
FIG. 2 is a diagram showing a hardware configuration of the image compression apparatus 2 shown in FIG.
FIG. 3 is a flowchart showing processing contents of communication control processing;
FIG. 4 is a flowchart showing processing contents of communication data acquisition processing;
FIG. 5 is a flowchart showing the processing content of an image recording control process.
[Explanation of symbols]
1 Endoscopic observation equipment
2 Image compression device
3 External storage
11 Video signal line
12 Communication signal line
13 Release line
21 External device communication controller
22 Image processing unit
23 Image controller
211 CPU-A
212 RAM-A
213 ROM-A
214 Communication I / F
215, 235 bus
221 A / D
222 V-RAM
223 Image Compression LSI
231 CPU-B
232 RAM-B
233 ROM-B
234 Network I / F
236 Release I / F

Claims (5)

A first communication means for performing data communication for acquiring patient data indicating information about the patient with other devices via the communication signal line ;
Storage means having a predetermined storage area for storing patient data acquired by the data communication;
Monitoring means for monitoring a communication failure occurring in the communication signal line, and outputting a notification indicating the communication failure when the communication failure occurs;
An image recording instruction, second communication means for acquiring instruction information sent from the other device via a signal path provided separately from the communication signal line ;
Image recording control means for performing control related to recording of an image for medical use represented by an image signal sent from the other device based on acquisition of the instruction information ,
The image recording control means includes
Detecting means for detecting whether a notification indicating the communication failure is output from the monitoring means;
When the detection unit detects that the notification indicating the communication failure is not output in the monitoring unit, the patient data acquired by the first communication unit is stored in the predetermined storage area of the storage unit. Patient data reading means for reading from,
Transfer means for transferring patient data read by the patient data reading means and the medical use image to an external recording device;
A medical image recording apparatus comprising: The image recording control means includes
Storing the patient data transferred to the external recording device in a storage area different from the predetermined storage area of the storage means;
The patient data reading means includes
When it is detected by the detection means that the notification indicating the communication failure is output in the monitoring means, patient data stored in a storage area different from the predetermined area is read. The medical image recording apparatus according to claim 1 . The medical image recording apparatus according to claim 1, wherein the monitoring unit monitors a communication failure occurring in the communication signal line by monitoring the first communication unit. A first communication step for performing data communication for acquiring patient data indicating information about a patient with another device via a communication signal line;
A storing step of storing patient data acquired by the data communication in a predetermined storage area provided in a storage unit;
Monitoring a communication failure occurring in the communication signal line, and outputting a notification indicating the communication failure when the communication failure occurs;
A second communication step that shows an instruction to record an image, and acquires instruction information sent from the other device via a signal path provided separately from the communication signal line;
An image recording control step for performing control related to recording of an image for medical use represented by an image signal sent from the other device based on acquisition of the instruction information, and
The image recording control step includes
A detection step of detecting whether or not a notification indicating the communication failure is output in the monitoring step;
If it is detected by the detection step that the notification indicating the communication failure is not output in the monitoring step, the patient data acquired by the first communication step is stored in the predetermined storage area of the storage means. Reading patient data from
A transfer step of transferring the patient data read out by the patient data reading step and the medical use image to an external recording device;
A control method for a medical image recording apparatus, comprising: The image recording control step includes
Storing the patient data transferred to the external recording device in a storage area different from the predetermined storage area of the storage means;
The patient data reading step includes
When it is detected by the detection step that a notification indicating the communication failure is output in the monitoring step, patient data stored in a storage area different from the predetermined area is read. The method for controlling a medical image recording apparatus according to claim 4.

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