JP6660680B2 - Medical examination system - Google Patents

Description

  The present invention relates to a medical test system.

  2. Description of the Related Art Health examinations and medical examinations (hereinafter, sometimes referred to as health examinations, etc.) for maintaining health and preventing or early detecting a disease are widely performed. In health examinations and the like, a large number of examinees gather at a venue and various tests are performed. The designation of the venue and the implementation date is generally performed by the examinee himself or the organization to which the examinee belongs. Venues vary in location and scale. Under such circumstances, there is a difference in congestion status depending on the venue, date, and time zone.

  With the progress of the aging society in recent years, the importance of health examinations and the like is expected to increase, and new businesses such as remote use and rental of medical devices are progressing. In addition, devices that can be easily operated by non-experts and devices that can be inspected by the subject themselves have appeared.

In health examinations and the like, it is desirable to provide more accurate and more accurate diagnoses using advanced test equipment and diagnostic applications. An optical coherence tomography is an inspection device expected to contribute to such a purpose. 2. Description of the Related Art An optical coherence tomography is used to obtain a cross-sectional image, three-dimensional data, and analysis data of a biological tissue using optical coherence tomography (OCT). The application of optical coherence tomography is particularly advanced in the field of ophthalmology. The following devices are widely used in ophthalmology.
-A fundus camera for photographing the fundus-A scanning laser ophthalmoscope (SLO) for obtaining a fundus image by laser scanning using a confocal optical system (Scanning Laser Ophthalmoscope, SLO)
・ Eye refraction tester (refractometer, keratometer) for measuring refraction characteristics of the eyeball
-Tonometer for measuring intraocular pressure-Specular microscope for obtaining corneal characteristics (corneal thickness, cell distribution, etc.)-Wavefront analyzer for obtaining eyeball aberration information using a Hartmann-Shack sensor

  It has been found that signs of diseases other than eye diseases can be detected by ophthalmic examination. For example, reports have been made regarding the detection of early lesions of diseases such as diabetes, cancer, Alzheimer's disease, hypertension, and arteriosclerosis. It is assumed that an ophthalmic examination apparatus is used for examination of such a disease. In addition, it is expected that the importance of ophthalmic examinations in health examinations and the like will increase.

JP 2008-165667 A JP 2006-302006 A JP 2011-24930 A JP 2013-248376 A

  Various techniques have been proposed for efficiently conducting medical examinations and the like. However, these conventional techniques are intended to improve the throughput at one venue, and cannot promote overall efficiency in an area where a plurality of venues exist.

  An object of the system according to the present invention is to further improve the efficiency of medical examinations and the like.

The medical examination system according to the embodiment includes a plurality of examination apparatuses installed in two or more examination halls, information processing apparatuses installed in each of the examination halls, and a management apparatus capable of communicating with the information processing apparatuses. . The information processing device includes an operation status information generation unit and a first communication unit. The operation status information generation unit generates operation status information indicating the operation status of one or more inspection devices installed in the inspection site. The first communication unit transmits the稼work status information to the management device. The management device includes a storage unit, a second communication unit, a guidance information generation unit, and a first transmission control unit. The storage unit stores subject information that is pre-registered subject information and includes address information of a terminal used by the subject . The second communication unit receives a稼work status information transmitted from the information processing apparatus. The guidance information generating unit is configured to determine whether or not the subject among the two or more inspection venues is based on the subject information regarding the one or more subjects before the test is performed and the operation status information received by the second communication unit. Guidance information for guiding the subject to a venue that is located near the pre-registered venue or a venue that is located near the location of the subject and that has a low degree of congestion is generated. The first transmission control unit controls the second communication unit based on the address information included in the subject information so as to transmit the guidance information to at least one of the use terminals of the one or more subjects. I do.

  According to the embodiment, it is possible to further improve the efficiency of the health examination and the like.

FIG. 1 is a schematic diagram illustrating an example of a configuration of a medical examination system according to an embodiment. FIG. 1 is a schematic diagram illustrating an example of a configuration of a medical examination system according to an embodiment. FIG. 1 is a schematic diagram illustrating an example of a configuration of a medical examination system according to an embodiment. FIG. 4 is a sequence diagram illustrating an example of a usage pattern of the medical examination device according to the embodiment.

  Some examples of typical embodiments of the present invention will be described. It should be noted that the contents of the documents and known techniques cited in this specification can be used in the embodiments.

  The medical examination system according to the embodiment is applicable to a medical form in which a subject (examinee) visits a venue and performs an examination, such as a medical examination or a medical examination. The venue is not limited to fixed medical institutions (health check-up centers, medical check-up centers, hospitals, etc.), and may involve movement, such as in a round check-up. In addition, the inspection device used in the medical inspection system of the embodiment includes one or both of an inspection device fixedly installed in the venue and an inspection device temporarily installed by rental (lease) or the like. Good.

  The test device used in the medical test system of the embodiment is used for a test according to the purpose of a health checkup or a checkup. A part or all of the inspection device may be an ophthalmic inspection device for performing an ophthalmic inspection (eye inspection). The ophthalmic examination apparatus optically inspects the eye to be examined. The ophthalmic examination apparatus has a function as an ophthalmologic photographing apparatus and / or a function as an ophthalmologic measurement apparatus. An ophthalmologic imaging apparatus is an apparatus for imaging an eye to be inspected, and examples thereof include an optical coherence tomography (OCT apparatus), a fundus camera, and a scanning laser ophthalmoscope (SLO). The ophthalmologic measurement device is a device for measuring characteristics of the eye to be examined, and examples thereof include an eye refraction test device, a tonometer, a specular microscope, and a wavefront analyzer. Further, the ophthalmic examination apparatus may include an application for analyzing a captured image and measurement data.

[Configuration of medical examination system]
An example of the configuration of the medical examination system according to the embodiment will be described. The medical examination system 1 illustrated in FIG. 1 is constructed using a network connecting N venues (first venue to Nth venue).

Each venue: the (n-th venue n = 1 to N, N is an integer of 2 or more), ophthalmologic examination apparatus _2-i n (i n = _{1 to K} n, _{K n} is an integer of 1 or more) is installed ing. This means that each site (the n venue), one or more ophthalmologic examination apparatus 2-i _n are installed. Ophthalmologic examination apparatus 2-i _n constitutes a part of a medical inspection system 1. It should be noted that the medical examination system 1 may include an examination device capable of performing an examination other than the ophthalmic examination.

Ophthalmologic examination apparatus 2-i _n the present embodiment, as a function of a "check device" carrying out the inspection of the subject (the subject's eye), communicates with the various information processing and external device "information processing apparatus" It has both functions. In another example, the inspection device and the information processing device can be separately provided. In this case, the inspection device and the information processing device may be configured to be able to communicate with each other. Further, the number of inspection apparatuses and the number of information processing apparatuses are arbitrary, and for example, a single information processing apparatus and a plurality of inspection apparatuses can be provided.

  Further, an information system 3-n is installed at each venue (nth venue). Note that the information system is not essential and does not have to be included in the medical examination system 1. The information system 3-n of the embodiment is configured to operate in cooperation with the medical examination system 1. The information system 3-n includes an information processing device (e.g., an in-facility server) installed in a facility, a vehicle, or the like, which is a venue, and / or an information processing device (e.g., a cloud server) installed outside the venue. Examples of the information system 3-n include a system (reservation system, examination data management system, and the like) for managing information on a person who has undergone a medical examination and a medical examination, an electronic medical record, a medical image management system, and a medical fee management system (reception System).

The ophthalmologic examination apparatus 2-i _n and information systems 3-n, and a network (Institutional LAN, etc.) that are built into the n the hall, and a wide area network (Internet), the communication via the near field communication technology Do.

The medical examination system 1 includes a management device 4. Management unit 4 can communicate via the ophthalmologic examination apparatus 2-i _n and the wide area network that is installed in each hall. The management device 4 includes an information processing device such as a cloud server. Management unit 4 executes the processing described later receives information from the ophthalmologic examination apparatus 2-i _n. As one of the processes executed by the management device 4, there is a notification to the subject terminal 5m (m = 1 to M, M is an integer of 1 or more) (details will be described later).

  The subject terminal 5m is an information processing terminal that can be used by the subject (examinee) and that can communicate using a wide area network. The owner of the subject terminal 5m may be the subject himself, a natural person other than the subject, or a legal person. Examples of the subject terminal 5m include mobile terminals such as smartphones, mobile phones, tablet computers, and notebook computers. In addition, the subject terminal 5m may be a desktop personal computer or the like installed in the residence or working place of the subject. Also, two or more subject terminals 5m may be associated with a single subject.

[Configuration of ophthalmic examination apparatus]
Description will be given of a configuration of an ophthalmologic examination apparatus _{2-i n.} Ophthalmologic examination apparatus 2 illustrated in Figure 2, at least one, in particular ophthalmologic examination apparatus capable of communicating with the management apparatus 4 2-i _n of a plurality of ophthalmologic examination apparatus 2-i _n shown in FIG. 1, Is equivalent to

  The ophthalmologic examination apparatus 2 includes a control unit 20, an examination unit 21, a positioning signal receiving unit 22, a data processing unit 23, a user interface (UI) unit 24, and a communication unit 25. These components may be provided integrally (that is, in a single housing), or may be dispersedly arranged in two or more housings. In the latter case, a part of the ophthalmologic examination apparatus 2 may be provided in another apparatus. For example, part or all of the control unit 20 and part or all of the data processing unit 23 can be provided in a personal computer or a portable terminal. Further, a part or all of the user interface unit 24 can be provided in a personal computer, a portable terminal, a television receiver, a smart TV, or the like.

[Control unit 20]
The control unit 20 performs various controls and calculations. Control unit 20 includes a processor. In this specification, a “processor” is, for example, a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), an ASIC (Application Specific Integrated Circuit), a programmable logic device (for example, an SPLD (SimpleProbeDigger), a programmable logic device (SPLD)), and the like. (Complex Programmable Logic Device), a circuit such as an FPGA (Field Programmable Gate Array). The control unit 110 realizes the functions according to the embodiment by, for example, reading and executing a program stored in a storage circuit or a storage device. The control unit 20 may further include a RAM, a ROM, a hard disk drive, a solid state drive, a communication interface, and the like.

[Inspection unit 21]
The examination unit 21 performs examination of the subject's eye under the control of the control unit 20. The inspection unit 21 has a configuration according to the type of the ophthalmic examination apparatus 2 (various ophthalmologic imaging apparatuses, various ophthalmologic measurement apparatuses, and the like). The configuration of the inspection unit 21 may be at least a part of a known configuration, or may include a known configuration.

  When the inspection unit 21 has a photographing function, the inspection unit 21 includes, for example, an optical system for irradiating the eye to be inspected with light and an optical system for detecting return light of the light emitted to the eye to be inspected. . Further, the inspection unit 21 may include various optical systems such as an optical system for projecting a fixation target onto the eye to be inspected, an optical system for performing alignment, and an optical system for performing focusing. Further, the inspection unit 21 may include a processor for processing a detection result (image signal, video signal, and the like) of the return light.

  OCT is an example of a photographing function. The OCT optical system is configured to divide light from the light source into measurement light and reference light, generate interference light by superimposing return light of the measurement light from the subject's eye and reference light, and detect the interference light. You. Further, there are provided a processor for performing image processing such as fast Fourier transform (FFT) on the detection result of the interference light to form image data, a processor for performing image analysis on the formed image data, and the like. The optical path (measurement arm) of the measurement light includes an optical scanner for scanning the subject's eye with the measurement light, a focusing lens for changing the focus position of the measurement light, and an optical path for changing the length of the measurement arm. Various members such as a length changing mechanism (a corner cube, a mechanism for moving the corner cube, etc.) are provided. Various members such as a polarization controller, an optical attenuator, and an optical path length changing mechanism (a reference mirror, a mechanism for moving the reference mirror, etc.) are provided on an optical path (reference arm) of the reference light. Other examples of the photographing function include a fundus photographing function (such as a fundus camera and SLO) and an anterior ocular segment photographing function (such as a slit lamp microscope).

  When the inspection unit 21 has a measurement function, the inspection unit 21 includes, for example, an optical system for irradiating the eye to be inspected with light and an optical system for detecting return light of the light emitted to the eye to be inspected. . Further, the inspection unit 21 may include various optical systems as in the case of the photographing function. Further, the inspection unit 21 may include a processor for processing a detection result (image signal, video signal, and the like) of the return light. Examples of the measurement function include an eye refractive power measurement function (refractometer), a corneal shape measurement function (keratometer), an intraocular pressure measurement function (tonometer), and a visual field inspection function (perimeter).

(Positioning signal receiving unit 22)
The positioning signal receiving unit 22 receives a signal from a positioning system. As a positioning system, a navigation satellite system (NSS) for measuring a current position based on a radio signal from a navigation satellite (and a ground station), or a current position based on a radio signal from a ground station is measured. There is a system. Typical examples of the positioning system include a global positioning system (GPS), Galileo, and Global Navigation Satellite System (GLONASS). The positioning signal receiving unit 22 can receive signals from one or more positioning systems. The positioning signal receiving unit 22 includes an antenna and a circuit, similarly to a conventional GPS receiver and the like.

(Data processing unit 23)
The data processing unit 23 performs various data processing. For example, the data processing unit 23 performs processing on the data acquired by the inspection unit 21. As an example, the data processing unit 23 forms three-dimensional image data (stack data, volume data, etc.) based on a plurality of two-dimensional cross-sectional images formed by the inspection unit 21 having the OCT function. MPR (Multi-Planar Reconstruction) for imaging an arbitrary cross section of the dimensional image data can be executed. Data processing unit 23 includes a processor. The data processing unit 23 includes a position data generation unit 231, a time data generation unit 232, and an operation status information generation unit 233.

(Position data generator 231)
The position data generator 231 analyzes the signal received by the positioning signal receiver 22 and generates position data indicating the current position. The process for obtaining the current position from the positioning signal is known. For example, when the positioning signal receiving unit 22 is configured to receive a radio signal from the navigation satellite system, the position data generating unit 231 transmits a plurality of radio signals (for example, at least four radio signals) acquired by the positioning signal receiving unit 22. It generates position data by analyzing radio signals from navigation satellites.

  When the positioning signal receiving unit 22 can receive signals from two or more positioning systems, the position data generating unit 231 performs a signal analysis corresponding to each positioning system to obtain a high-precision and high-accuracy position. Data can be obtained. Conversely, when the accuracy and the accuracy are not so much required for the position data, it is possible to apply a signal analysis method according to the degree.

(Time data generator 232)
The time data generator 232 analyzes the signal received by the positioning signal receiver 22 and generates time data indicating the current time. The positioning signal of a navigation satellite system such as GPS contains time information. The time data generation unit 232 extracts, for example, time information by analyzing the positioning signal, and acquires this as time data. The time data generation unit 232 corrects the time included in the positioning signal (such as the transmission time of a radio signal from a navigation satellite) or converts the time included in the positioning signal to the current time in the time zone to which the current location belongs. And so on. Here, the time zone to which the current location belongs may be set as a default, or may be determined based on the position data acquired by the position data generation unit 231. The time data generated from the positioning signal has the advantage that it is difficult to falsify and has high reliability.

  On the other hand, when the positioning signal does not include time information (the positioning signal may include time information), time data generating section 232 includes, for example, a processor having a clock function. Alternatively, the time data generation unit 232 may include a configuration for acquiring the current time from the external control unit 200 or an external device (including a clock function) such as a portable terminal.

  The positioning signal receiving unit 22, the position data generating unit 231, the time data generating unit 232, and the like may be externally attached to the ophthalmic examination apparatus 2 (that is, they may be configured as separate housings). For example, a configuration is possible in which position data and time data are acquired using a positioning function (such as a GPS function) mounted on the mobile terminal, and the acquired data is input to the ophthalmic examination apparatus 2.

  Further, the positioning signal receiving unit 22, the position data generating unit 231, the time data generating unit 232, and the like may be configured to receive power supply from a power source (dedicated battery or the like) other than the other components. Thereby, even when the power of the ophthalmic examination apparatus 2 is off or when the ophthalmic examination apparatus 2 is not connected to an external power supply (commercial power supply, hospital power supply, or the like), the position and the current time can be detected. It is. The movement history of the ophthalmologic examination apparatus 2 can be created by accumulating the position data and the time data repeatedly acquired in this manner.

(Operation status information generation unit 233)
It is assumed that the ophthalmic examination apparatus 2 is installed in the first venue. At the first venue, one or more examination devices including the ophthalmic examination device 2 are installed. The operation status information generation unit 233 generates information (operation status information) indicating the operation status of one or more inspection devices (target inspection devices) installed in the first venue. The target inspection device may be all the inspection devices installed in the first hall or a part thereof. Further, the target inspection device may or may not include the ophthalmic inspection device 2.

  The operation status may be a current status or a future status (predicted status). Describe the current situation. The current situation includes, for example, information indicating whether or not each of the target inspection devices is used for the inspection, a ratio of the target inspection devices that are performing the inspection among all the target inspection devices, and the like. Further, the information may include a predicted end time and a predicted continuation time of the test being performed. The control unit of each target examination device other than the ophthalmic examination device 2 sends the control status of the examination unit (whether or not control for the examination is being executed, steps being executed in the examination flow, etc.) to the ophthalmologic examination device 2. . The control unit 20 sends the control status input from each target inspection device to the operation status information generation unit 233. On the other hand, as for the operation status of the ophthalmologic examination apparatus 2, the control unit 20 sends the control status of the inspection unit 21 to the operation status information generation unit 233. The operation status information generation unit 233 generates the operation status information by editing the control status thus obtained into a predetermined format. The collection of the operating status and the generation of the operating status information (and the transmission of the operating status information) are executed at predetermined time intervals (for example, at intervals of 10 minutes, 30 minutes, 1 hour, etc.).

  The prediction situation will be described. The prediction status includes, for example, the status of reservations for health examinations and medical examinations (the number of reservations for each attribute such as date, time zone, course of health examinations, etc.), the tendency of congestion according to the day of the week and time zone, and the like. Such information is obtained from the information system 3-1. For example, when the information system 3-1 is a reservation system of a health examination center, the control unit 20 sends a request for transmitting a reservation status on a predetermined day (today, tomorrow, etc.) to the information system 3-1 via the communication unit 25. send. The information system 3-1 receives this transmission request, searches for a reservation status on a predetermined day, and returns it to the ophthalmic examination apparatus 2. The operating status information generation unit 233 generates the operating status information by editing the thus-obtained reservation status into a predetermined format. The collection of the reservation status and the like and the generation of the operation status information (and the transmission of the operation status information) are executed, for example, at predetermined intervals (for example, executed every day at a predetermined time).

  It is possible to generate operation status information for each type (model) of the inspection device. In addition, it is possible to generate operation status information for each type of inspection to be performed. When such a configuration is applied, a plurality of inspection devices are installed in the venue, and these inspection devices are classified into two or more groups according to the types of tests that can be performed. In one embodiment, the first group includes one or more inspection devices (such as optical coherence tomography) used for tomography of the fundus, and the second group includes one or more inspection devices used for imaging the fundus surface. (Retinal camera, SLO, etc.), and the third group includes one or more inspection devices (refractometer, etc.) used for eye refraction measurement. Note that there is an inspection device (multifunction device) that can perform a plurality of types of inspections. For example, a multifunction machine of an optical coherence tomometer and a fundus camera, a multifunction machine of an optical coherence tomography and an SLO, and a multifunction machine of a refractometer, a keratometer, and a tonometer have been put to practical use. Thus, a single inspection device may belong to more than one group. That is, the groups do not need to be mutually exclusive, and may overlap.

  Each inspection device is assigned in advance identification information indicating a group to which the inspection device belongs. The operating status information generating unit 233 generates operating status information for each group of one or more inspection devices to which the same identification information is assigned. Thereby, it is possible to generate operation status information on two or more inspection devices installed in the venue for each of the two or more groups.

(User interface unit 24)
The user interface unit 24 has a function of outputting information directed to the user of the ophthalmologic examination apparatus 2 and a function of allowing the user to input information and give an operation instruction. The user interface unit 24 includes a display unit for the former function and an operation unit for the latter function. The display unit includes a display device such as a flat panel display. The operation unit includes operation devices such as buttons, keys, a joystick, and an operation panel provided on the housing of the ophthalmologic examination apparatus 2 and outside. The operation unit may include an operation device (mouse, keyboard, trackpad, button, touch panel, etc.) such as a personal computer connected to the ophthalmologic examination apparatus 2.

  The display unit and the operation unit may include a device in which a display function and an operation function are integrated, such as a touch panel. Further, the user interface unit 24 may include a graphical user interface (GUI) for performing information presentation and operation input.

(Communication unit 25)
The communication unit 25 performs data communication with the external device 6. The data communication method is arbitrary. For example, the communication unit 25 includes a communication interface compliant with the Internet, a communication interface compliant with a LAN, a communication interface compliant with short-range communication, and the like. Data communication may be wire communication or wireless communication. The external device 6 may be, for example, the management device 4 and the information system 3-n in the venue. Further, the external device 6 may be a server installed at an image interpretation center, a server installed at a medical institution, or the like. Data transmitted and received by the communication unit 25 may be encrypted. In that case, the control unit 20 (or the data processing unit 23) includes an encryption processing unit that encrypts transmission data and a decryption processing unit that decrypts received data.

[Configuration of management device]
The configuration of the management device 4 will be described. The management device 4 illustrated in FIG. 3 includes a control unit 40, a storage unit 41, a guidance information generation unit 42, a subject information acquisition unit 43, and a communication unit 44.

[Control unit 40]
The control unit 40 performs various controls and calculations. Control unit 40 includes a processor. The control unit 40 may further include a RAM, a ROM, a hard disk drive, a solid state drive, a communication interface, and the like.

(Storage unit 41)
The storage unit 41 stores subject information registered in advance. The subject information is information on the subject (examinee), and includes, for example, a subject ID, a name, an age, a gender, an affiliation, an identifier of an examination site (site ID), a date and time of a medical examination, and the like. Including courses such as medical examinations. Further, the subject information includes address information (telephone number, e-mail address, etc.) of the subject terminal 5m. In addition, the subject information may include results of past medical examinations and the like, electronic medical record information, and the like. The subject information is created, for example, for each person who has applied for a medical examination or the like in any of the first to Nth venues.

(Guidance information generation unit 42)
The guidance information generating unit 42 includes subject information regarding one or more subjects before the examination is performed, operation status information acquired from the ophthalmic examination apparatus 2 in one or more of the first to Nth venues, and , And generates guidance information. The guidance information includes information for guiding the subject to any of the first to Nth venues. For example, the guidance information includes the name of the destination venue, access information (location, map, etc.), the start time of the medical examination, etc., the reason for changing from the registered venue to the destination venue (congestion status, waiting time, etc.). ), Information (GUI etc.) for selecting whether or not to accept the change of the venue. The guidance information generation unit 42 includes a processor.

  A specific example of the process executed by the guidance information generating unit 42 will be described. Assume that one subject has applied for a medical examination at the first hall. The subject information of the subject includes the venue ID of the first venue. Further, it is assumed that operation status information has been collected from each of the first to Nth venues. Further, the guidance information generating unit 42 stores in advance the respective locations (venue location information) of the first to Nth venues. The guidance information generation unit 42 analyzes the operation status information from the first venue, acquires (extracts, calculates, etc.) an index value indicating the congestion status, and compares the index value with a predetermined threshold. If the index value is less than the threshold value, the process for the subject ends (that is, guidance information is not generated).

  On the other hand, when the index value is equal to or greater than the threshold, the guidance information generating unit 42 selects one or more venues located near the first venue based on the venue location information. This process includes, for example, a process of selecting another venue located within a predetermined distance from the first venue. In another example, the guidance information generation unit 42 determines the location of the subject (the place of residence, the location of the organization to which the subject belongs, the location of the subject terminal 5m, and the Select one or more venues located near the current location sent. This process includes, for example, a process of selecting a venue located within a predetermined distance from the location of the subject.

  Subsequently, for each of the selected one or more venues, the guidance information generation unit 42 obtains an index value indicating the congestion status by analyzing the operation status information from the venue, and compares the index value with a threshold value. . If the index value is equal to or greater than the threshold, this venue is excluded from the destination. On the other hand, if the index value is less than the threshold, this venue is adopted as a candidate for the guidance destination. In other words, the guidance information generation unit 42 selects a venue that is located near the pre-registered venue or a venue that is located near the subject's location and that has a low degree of congestion as a candidate for a guidance destination. I do. The guidance information generation unit 42 generates the guidance information based on the one or more guidance destination candidates selected in this way.

  The generated guidance information is transmitted to the subject terminal 5m based on the address information included in the subject information of the subject. The subject determines whether or not to accept the change of the pre-registered venue to one of the guide destinations included in the guide information, and inputs the result to the subject terminal 5m. This series of processing is performed using the user interface of the subject terminal 5m. The subject terminal 5m returns the content input by the subject to the management device 4. In addition, when a reply is not made within a predetermined time or when a reply is not made by a predetermined time, the management device 4 determines that, for example, guidance (a proposal for guidance) has not been accepted.

(Subject information acquisition unit 43)
The content of the reply sent from the subject terminal 5m to the management device 4 is input to the subject information acquisition unit 43. The subject information acquisition unit 43 determines whether or not this reply includes acceptance of guidance. If the reply does not include acceptance of the guidance, that is, if the subject determines that the venue will not be changed, the process for the subject ends.

  On the other hand, if the response includes acceptance of the guidance, that is, if the subject determines that the venue is to be changed to one of the guidance destinations, the subject information acquisition unit 43 sets the subject information of the subject to be different. From the storage unit 41. For example, the control unit 41 replaces the venue ID (pre-registered venue ID) included in the acquired subject information with the newly designated venue ID (or examines the change history of the venue. Record in customer information).

  Further, the subject information acquired from the storage unit 41 is used for transmitting information to a pre-registered venue or transmitting information to a newly designated venue. For example, the management device 4 notifies the information processing device (the ophthalmologic examination device 2, the information system 3-n, etc.) of the pre-registered venue that the reservation has been canceled. In addition, the management device 4 transmits a request for a new reservation to the information processing device at the newly designated venue.

(Communication unit 44)
The communication unit 44 performs data communication with the external device 7. The data communication method is arbitrary. The communication unit 44 includes at least a communication interface conforming to a wide area network such as the Internet. The external device 7 may be, for example, the ophthalmic examination device 2, the information system 3-n, or the like. Further, the external device 7 may be a server installed at an image interpretation center, a server installed at a medical institution, or the like. Data transmitted and received by the communication unit 44 may be encrypted. In this case, for example, control unit 40 includes an encryption processing unit that encrypts transmission data and a decryption processing unit that decrypts reception data.

[Usage form]
A usage pattern of the medical examination system according to the present embodiment will be described. FIG. 4 shows an example of the usage form.

(S1: generation of position data and time data)
The ophthalmic examination apparatus 2 of each venue starts receiving the positioning signal by the positioning signal receiving unit 22, generating the position data by the position data generating unit 231, and generating the time data by the time data generating unit 232. The positioning signal receiving unit 22 receives a positioning signal at a predetermined time interval and inputs the received positioning signal to the control unit 20, for example. The control unit 20 sequentially sends the positioning signals input at the time intervals to the data processing unit 23. The position data generation unit 231 repeats the generation of the position data at the time interval. The time data generation unit 232 repeats generation of time data at the time intervals. The time interval is set in advance.

(S2: generation of operation status information)
The operation status information generation unit 233 of the ophthalmologic examination apparatus 2 at each venue generates operation status information in the manner described above. This processing is repeatedly executed, for example, in synchronization with step S1.

(S3: Transmission of operation status information, etc.)
The control unit 20 of the ophthalmic examination apparatus 2 of each venue transmits the position data and the time data acquired in step S1 and the operation status information acquired in step S2 to the management apparatus 4 so as to transmit them to the management apparatus 4. Control. Further, the venue ID of the venue may be further transmitted.

(S4: Generation of guidance information)
The communication unit 44 of the management device 4 receives the position data, the time data, and the operation status information transmitted from the ophthalmic examination device 2 in step S3. The received information is sent to the guidance information generation unit 42 via the control unit 40. The guidance information generation unit 42 generates guidance information in the manner described above. The venue from which this information is transmitted is specified based on the location data (or the venue ID). The transmission time of this information is specified based on the time data.

(S5: Transmission of guidance information)
The control unit 40 of the management device 4 controls the communication unit 44 to transmit the guidance information generated in step S4 to the subject terminal 5m.

(S6: Information input by user)
The subject terminal 5m receives the guidance information transmitted from the management device 4 in step S5, and displays the guidance information according to, for example, an instruction from the user. The examinee operates the examinee terminal 5m to input information for selecting any of the guidance destinations (venues) included in the guidance information, or information for refusing to change the venue. Make the input.

(S7: Transmission of input contents)
The subject terminal 5m transmits the content input in step S6 to the management device 4 according to the instruction from the user.

(S8: Have you accepted the change of venue?)
The communication unit 44 of the management device 4 receives the information transmitted from the subject terminal 5m in Step S7. The received information is sent to the subject information acquisition unit 43 via the control unit 40. The subject information acquisition unit 43 extracts the subject's answer from this information. When the subject determines not to change the venue (S8: No), the process ends.

  On the other hand, when the subject determines to change the venue (S8: Yes), the process proceeds to step S9. Further, the control unit 40 records the venue ID of the newly designated venue in the subject information of the subject.

(S9: Selection of subject information)
When the subject determines that the venue is to be changed (S8: Yes), the subject information acquisition unit 43 retrieves the subject information of the subject from the storage unit 41. This process is executed, for example, using the subject ID as a search query. The retrieved subject information is sent to the control unit 40.

(S10: Transmission of subject information)
The control unit 40 transmits at least part of the subject information selected in step S9 (or information created based on the subject information) to the two venues.

  Specifically, the control unit 40 sends the subject to the ophthalmologic examination apparatus 2 (or the information system 3-n) installed in a venue pre-registered as a venue where the subject receives a medical examination. The communication unit 44 is controlled so as to transmit a request for canceling the reservation of the above. This cancellation request includes at least the subject ID included in the subject information. The venue to which the cancellation request is transmitted is specified by the venue ID (pre-registered venue ID) included in the subject information.

  Further, the control unit 40 transmits a request for reservation of the subject to the ophthalmic examination apparatus 2 (or the information system 3-n) installed in the venue newly designated by the subject. , And the communication unit 44. This reservation request includes the subject ID and the reservation date and time included in the subject information. Note that the subject can newly specify the reservation date and time in step S6. In this case, the newly designated reservation date and time is included in the reservation request. The venue to which the reservation request is transmitted is specified by the venue ID (the venue ID specified in step S6) included in the subject information.

(S11: Transfer of subject information)
The ophthalmologic examination apparatus 2 that has received the cancel request transfers this to the information system 3-n (reservation system). The information system 3-n that has received the cancel request executes a process for canceling the reservation of the subject. On the other hand, the ophthalmologic examination apparatus 2 that has received the reservation request transfers this to the information system 3-n (reservation system). The information system 3-n that has received the reservation request executes a process for receiving a new reservation. This is the end of the description of the present example.

[Action / Effect]
The operation and effect of the embodiment will be described.

  The medical examination system of the embodiment includes a plurality of examination devices installed at two or more examination venues, information processing devices installed at each examination venue, and a management device that can communicate with the information processing devices. In the above example, the inspection device (ophthalmic inspection device 2) has a function as an information processing device, but more generally, at least one of the plurality of inspection devices has at least a part of the function of the information processing device. May be. Alternatively, the inspection device and the information processing device may be configured as separate devices.

The information processing device (ophthalmologic examination device 2) includes an operation status information generation unit (233) and a first communication unit (communication unit 25). The operating status information generating unit generates operating status information indicating an operating status of one or more inspection devices installed in the inspection site (a site where the information processing device is installed). The first communication unit transmits the稼work status information to the management unit (4).

The management device (4) includes a storage unit (41), a second communication unit (communication unit 44), a guidance information generation unit (42), and a first transmission control unit (control unit 40). The storage unit stores the pre-registered subject information. The second communication unit receives a稼work status information transmitted from the information processing apparatus. The guidance information generating unit is configured to perform a test at one of the two or more inspection venues based on the subject information regarding the one or more subjects before the test is performed and the operation status information received by the second communication unit. To generate guidance information for guiding a person. The first transmission control unit controls the second communication unit so as to transmit the guidance information to at least one of the use terminals (the subject terminals 5m) of the one or more subjects.

  According to such an embodiment, the subject can examine the change of the examination hall by referring to the guidance information transmitted to the terminal in use. Therefore, it is possible to improve the efficiency of the health examination and the examination in the whole area where a plurality of venues exist.

  The above embodiment is configured to return the result of the examination by the subject (that is, whether or not to accept the guidance) to the management device, but does not perform such a response and the accompanying process. It is also possible to build embodiments. For example, there is an embodiment in which the process up to transmission of the guidance information to the terminal in use is executed.

In the embodiment, any of the inspection devices (the ophthalmic inspection device 2) may be configured to acquire the installation position using a positioning system such as a GPS and to provide the acquired installation position to the management device. For this, at least one of the plurality of inspection devices includes a positioning signal receiving unit (22) and a position data generating unit (231). The positioning signal receiving unit receives a signal from the positioning system. The position data generating unit generates position data indicating the current position by analyzing the signal received by the positioning signal receiving unit. Furthermore, the first communication unit (communication unit 25), the generated position data, along with稼work status information generated by the operation status information generating unit 233, to the management apparatus (4).

  According to this configuration, the management device 4 can specify in which inspection hall the inspection device (information processing device) is installed based on the position data. This configuration is effective in the case of a round checkup, when an inspection device is rented, and the like.

Further, any of the examination devices (the ophthalmic examination device 2) may be configured to be able to acquire time data in addition to the installation position. Therefore, at least one of the plurality of inspection devices includes a time data generation unit (232). The time data generation unit generates time data indicating the current time by analyzing the signal received by the positioning signal receiving unit (22). The first communication unit (communication unit 25), the generated time data, along with稼work status information and the position data, to the management apparatus (4).

  According to this configuration, the management device can grasp the time at which the operation status information was generated. That is, it is possible to recognize at what time the operation status is considered. This is considered to be particularly effective when, for example, the operating conditions that change every moment are collected in real time and notified to the terminal in use (however, the present invention is not limited to this case).

  In the embodiment, the plurality of inspection devices may be classified into two or more groups according to the types of inspections that can be performed. In this case, the operation status information generation unit (233) transmits the operation status information on two or more inspection devices installed in the inspection site (an inspection site in which the device including the operation status information generation unit is installed). It can be generated for each of the above groups.

  According to this configuration, the management device can grasp the operating status of two or more inspection devices for each inspection type (for each device type). As a result, it is possible to further improve the efficiency while taking into account a course such as a health examination.

  In the embodiment, the second communication unit (communication unit 44) of the management device may be configured to receive a reply from the use terminal to which the guidance information has been transmitted. Further, the management device may include a subject information acquisition unit (43) and a second transmission control unit (control unit 40). When the reply received from the terminal used by the second communication unit includes the acceptance of the guidance based on the guidance information, the subject information acquisition unit transmits the subject information of the subject (the subject corresponding to the used terminal) to the subject information. Acquired from the storage unit (41). The second transmission control unit transmits the subject information acquired by the subject information acquiring unit to the information processing device (ophthalmic examination device 2) at the examination site accepted as the guide destination. Control the communication unit.

  According to this configuration, it is possible to promptly notify the examination hall newly designated by the subject based on the guidance information.

  The subject information transmitted from the management device (4) is received by the first communication unit (communication unit 25). Further, the subject information can be transferred to the information system (3-n) via the first communication unit. The control of the transfer process is executed by the transfer control unit (control unit 20).

  According to this configuration, procedures such as a new reservation can be smoothly performed.

  The embodiments described above are merely typical examples of the present invention. Therefore, arbitrary modifications (omission, substitution, addition, etc.) within the scope of the gist of the present invention can be appropriately made.

1 Medical Examination System 2 Ophthalmic Examination Device 22 Positioning Signal Receiving Unit 231 Position Data Generating Unit 232 Time Data Generating Unit 233 Operating Status Information Generating Unit 25 Communication Unit 4 Management Device 40 Control Unit 41 Storage Unit 42 Guidance Information Generating Unit 43 Subject Information acquisition unit 44 Communication unit 5m Subject terminal

Claims (6)

A plurality of inspection devices installed in two or more inspection venues,
An information processing device installed at each of the two or more inspection venues;
A management device communicable with the information processing device,
The information processing device,
An operating status information generating unit that generates operating status information indicating an operating status of one or more inspection devices installed in the inspection site;
And a first communication unit that transmits the稼work status information toward the management device,
The management device,
A storage unit for storing subject information including pre-registered subject information and address information of a terminal used by the subject ,
A second communication unit that receives the稼work status information transmitted from the information processing apparatus,
Based on the subject information regarding one or more subjects before the test is performed and the operating status information received by the second communication unit, subjects among the two or more testing venues are registered in advance. A guidance information generating unit that generates guidance information for guiding the subject to a venue that is located near the venue that has been located or a venue that is located near the location of the subject and that has a low degree of congestion ;
A first control unit that controls the second communication unit to transmit the guidance information to at least one of the use terminals of the one or more subjects based on the address information included in the subject information. A medical examination system comprising: a transmission control unit. 2. The medical device according to claim 1, wherein the operating status information generating unit generates operating status information including a ratio of the inspection devices that are performing the inspection among all the inspection devices installed in the inspection site. Inspection system. The medical inspection system according to claim 1, wherein the operation status information generation unit generates operation status information including a predicted end time or a predicted continuation time of the test being performed at the test site. . 4. The medical examination system according to claim 1, wherein the operation situation information generation unit generates operation situation information including a reservation status of an examination at the examination site . 5. The medical examination system according to claim 4 , wherein the reservation status includes one of a reserved number of persons for each date, a reserved number of persons for each time zone, and a reserved number of persons for each examination course . 6. The operating status information generating unit according to claim 1, wherein the operating status information generating unit generates operating status information including a tendency of congestion according to one of a day of the week and a time zone at the inspection site. Medical examination system according to the paragraph.

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